“The Amazing Meeting” (I don’t think it means, what you think it says it means): 2 Intellectually and Ethically Challenged Individuals, Twaddle at TAM 2013

Gentlemen, I start your Insolence 😇
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(1:30) [1]
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The “motto” of “The Amazing (Not so Much) Meeting” is “Fighting Fakers,” which is apropos, since I doubt that “Orac” the “Check my Facts” Hack of Dr. David H. Gorski, grasps the irony, that when I read some of his blog articles, you could easily switch his name with the name of some individual he is flogging, and the proverbial shoe fits, and:
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(1:40)
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“This is a guy who sometimes fools even, you know, physicians”
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(I couldn’t have said it better, myself) 😊
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(2:47)
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He states:

“There is a long segment about “The Skeptics”

(applause) 😝
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(4:25)
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“His lawyer wrote a book”

“About a half of it is about Burzynski [4]
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6:00
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Gorski mentions that Burzynski noticed that there were higher levels of these chemicals in healthy people, than people with cancer
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Whereas, Burzynski is on record as having said [5]:

” . . . healthy people have abundance of these chemicals in blood
Cancer patients have varied to none

I did NOT know before now, that GorskGeek thinks that “none” is a “level” 😶
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He continues:

AS2.1 – which is a chemical called phenylacetic acid, which is a byproduct of metabolism that turns into phenylacetylglutamine by the liver

A10 – soluble is basically the same thing
It breaks down to PAG
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WOW !

I thought it was: AS2 1 😊

They are “basically the same thing” ? 😳

What does Burzynski say ? [6]

Phenylacetylglutaminate (PG) and Phenylacetate (PN) are metabolites of Phenylbutyrate (PB) and are constituents of antineoplaston AS2-1

PG and PN are naturally occurring in human body as result of metabolism of phenylalanine in liver and kidneys

formulation of antineoplaston AS2-1 is 4:1 mixture of synthetic PN and PG

A10 is 4:1 mixture of PG and iso-PG

That does NOT look like “basically the same thing” to me 😛

20131111-160455.jpg
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(6:50)
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Gorski founders on:

“And these are substances which were actually studied in the ’50’s and ’60’s and not found to be particularly, um, promising, but, he didn’t know that then”
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GorskGeek has #FAILED miserably to prove that on his blogs [7] 😄
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(8:00)
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Gorski comments about Burzynski’s “animal testing,” “species specific” claims:

“There are ways of getting around that”
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But Gorski, again, has #FAILED miserably to prove it [8] 😅
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(12:00)
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Gorski makes lame excuses about the NCI phase II clinical trial [9] 😖
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(12:50)
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Gorski claims Burzynski was indicted for insurance fraud in the 1997 case 😱
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GorskGeek, care to try and prove that one also ? [10] 😃
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(14:25)
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Gorski then states that out of 61 trials on clinicaltrials . gov, “most” are “closed or unknown”
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GorskGeek #FAILED again 😁

At the time it was:

1 – Not Yet Recruiting
(OPEN)(Phase 3)
1 – COMPLETED
2 – WITHDRAWN
(Withdrawn due to slow enrollment)
7 – WITHDRAWN
(This study has been withdrawn prior to enrollment)
(9=WITHDRAWN)
10 – Recruiting
(10=OPEN)
40 – Active, not recruiting –
(40=CLOSED)
61 =TOTAL
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(15:20)
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Gorski attempts to go all “legal eagle”:

“Listen to Burzynski’s lawyer!”

“You listen to Burzynski’s lawyer; and, and I swear I don’t understand, like why Burzynski would let him, let his lawyer say stuff this damning in his own book, but he does”

“So, get a load of some of these quotes, referring to one of the clinical trials, he says:”

“It was a joke”

“. . . there could not be any possibility of meaningful data coming out of the so-called clinical trial, it was all an artifice, that, you know, designed so that they could continue giving the treatment

“The FDA wanted all of his patients to be on an IND, so, that’s what we did”
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Gorski, attorney Rick Jaffe is an American, living in America NOT the formerly communist Poland

He can say whatever he wants

GorskGeek is NOT a lawyer 😓

And there’s an excellent reason why

Nor is he schooled in the proper usage of the English language

FACT:

” . . . the so-called clinical trial . . .”

Any human being with a modicum of intelligence about the English language, understands that the term “clinical trial” is singular, i.e. one

Burzynski’s lawyer is obviously referring to the CAN-1 clinical trial mentioned in Burzynski’s 11/25/1997 Securities and Exchange Commission (SEC) filing [11]

One trial that is retrospective is CAN-1 Clinical Trial
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CAN-1 PHASE II STUDY OF ANTINEOPLASTONS A10 AND AS2-1 IN

PATIENTS WITH REFRACTORY MALIGNANCIES

133 patients
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Clinical trial of patients treated by Dr. Burzynski through 2/23/1996

FDA has indicated it will not accept data generated by this trial since it was not a wholly prospective one
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Gorski continues his trend of #FAILURES when he mentions the additional types of treatments that Burzynski was offering, but he #FAILED to mention [12] 😂
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” … in 1997, his medical practice was expanded to include traditional cancer treatment options such as chemotherapy, gene targeted therapy, immunotherapy and hormonal therapy in response to FDA requirements that cancer patients utilize more traditional cancer treatment options in order to be eligible to participate in the Company’s Antineoplaston clinical trials”
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(18:20)
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Gorski addresses the case of Tori Moreno
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Kim Moreno states:

“We originally were at Miller’s Children at Long Beach Memorial and then went to City of Hope

“We also sent her MRI’s to Dr. Fred Epstein in New York to be looked at”

Gorski suggests that 3 different opinions could have misdiagnosed Tori Moreno

You can read an interview with Tori’s mother [13]
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(19:45)
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Gorski goes on to mention Burzynski patients going to Texas Children’s Hospital with hypernatremia issues
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Gorski, do you mean this ? [14]

The changing pattern of hypernatremia in hospitalized children

Department of Pediatrics, Texas Children’s Hospital, Baylor College of Medicine, Houston, Texas, USA
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(20:00)
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Gorski mangles the case of Hannah Bradley, who had a grade 3 anaplastic astrocytoma brain tumor

GorskGeek makes excuses like “spontaneous remission”, but then provides no citation, reference, or link to a case of such a tumor having spontaneously exhibited remission [15]
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(20:40)
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Gorski states that antineoplastons are chemotherapy
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No, Gorski, antineoplaston are:

“…an unapproved drug, not ordinary “chemotherapy [16] 😣
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(21:53)
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Gorski claims in regard to Burzynski’s personalized gene-targeted therapy:

” . . . gives to the patient without regard for synergistic toxicity

“Boom, there you go”
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Gorski’s #FAIL rate continues, as Burzynski has stated that phase 2 and 3 publications are reviewed as part of this process [17]

Gorski, “BOOM, THERE YOU GO”
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Gorski, you should hire out to the Democratic Party as their mascot, because you must be the biggest pompous ASS I’ve ever seen 😜

Gorski, my advice: don’t quit your day job, HACK 😷
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The #TAM2013 audience then has to suffer through 22:36 of the blatherskite of Robert J. (don’t call me Bobby) “Bob” Blaskiewicz Blatherskitewicz [2]

He blathers about the “dozen,” “17,” “16 dead,” “pancreatic cancer,” “Joseph, who was alive but died well within the life expectancy given his diagnosis,” “Joann, who was alive but died within a year of starting therapy,” “Irene S., who was dead within month,” “Maxine, who was already dead,” the “103 in 2011,” “63 in mid-June,” “17 on original 1999 site,” “about 3 added a year,” the “about 50 stories,” “1/10th of patient names gathered,” “Amelia S. – 7, tumor breaking up,” “Chase,” “Cody – 1994, 20 years ago, 2 visits, 6 weeks treatment breaking up,” “David,” “Janet, 3 – 5 yrs., oncologist, now dead, ovarian cancer,” “Pete took video down,” “8,000 patients,” “probable ischemic necrosis,” “13 yr. old, getting worse getting better, vomited – Marlene, nurse,” “Rory died 2005,” “Supatra, swelling, last wed., brain tumor,” “Side-effect, 2%, sodium load,” “Andrea, U.S. News and World Report, 30% chance recovery, glioblastoma, ANP in luggage, died on plane,” “Cathy wanted to be on ANP, Greg Burzynski, found out only brain tumor,” “Denise D. breast cancer,” and finally:
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(18:45)
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” … and light as many fires under his butt as we can
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Mentions Rick Jaffe’s book Galileo’s Lawyer

IT’S ALL ABOUT THE PATIENTS [4]
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All you need to know about Blaskiewicz is:

“White man speak with forked tongue” [18]
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The 3rd video is a panel discussion, which includes “man-crush” tag-team [3]

Robert Blaskiewicz and David Gorski
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(8:00)
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Bob says:

“Yeah, I’m not that type of doctor
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Bob, the correct answer for you, is:

“I’m NOT a doctor” QUACK
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(13:05)
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Gorski gabs that he’s a:

“Game of Thrones Geek”
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I just knew I was right, GorskGeek [19]
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(14:00)
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The only female panelist mentions “bureaucrats”, “wimps”, and “people without balls”
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2 out of 3 ain’t bad

She describes the Bob and David show to a T
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(15:00)
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The claim is made that a Burzynski physician appeared on the Burzynski Facebook page announcing results
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(16:00)
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Gorski #whines that the Texas Medical Board wasn’t successful in shutting Burzynski down because of “politics”
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LAUGHABLE
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(20:55)
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Gorski gives his usual excuse:

“He’s not an oncologist”
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GorskiGeek, that claim is as dead as apparently, quite a number of your brain cells [15]
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(34:40)
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Audience members are given the opportunity to speak, and this is the garbage served up:
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“Hi, this is Susan

Ah, don’t forget to mention that Wikipedia has been a major battlefield

We’ve had 23,000 views to the clinic’s page this last month, also rebutr . . .”
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“Control the flow of information”
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Gorski pipes up:

“What she said”
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(35:20)
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Blatherskitewicz chimes in:

“When it comes to Wikipedia can I just mention that is, that is, that that is so effective that Wikipedia was singled out in the most recent Burzynski movie
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Gorski chirps:

“Yes”
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Bob yacks:

“as being controlled by evil skeptics
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Gorski ejaculates:

“No, seriously”
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Bob bleats:

“No”

(applause)
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“You have to unleash the evil hoards of skeptics

“Wahahaha” 👿
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Dr. Stanislaw Burzynski on Wikipedia:

“Simply don’t pay attention to it, because it, it’s not true”

“You won’t be able to, do any, clinical research which we do, without convincing evidence, especially when you have the most powerful agency in the government which is against you

“So they would love to find something which is wrong with what we are doing”

“Ah, so the fact that they’ve, um, agreed that what we have has value, and they allow us to do phase 3 clinical trials it means that we are right”

“Because, uh, uh, nobody who didn’t have any, concrete evidence that it works, would be able to go as far”

“So whatever Wikipedia says, well, I don’t care for them

(laughing) [5]
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Enlightening ?

Inspiring ?

Amazing ?

Hypocrites

Apparatchiks [20]
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REFERENCES:
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[1]David Gorski – Why We Fight (Part I): Stanislaw Burzynski Versus Science-Based Medicine – TAM 2013 11/8/2013 (22:44)
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[2]Robert Blaskiewicz – Why We Fight (Part II): It’s All About The Patients – TAM 2013 11/8/2013 (22:36)
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[3] – Medical Cranks And Quacks
TAM 2013 JREF
11/8/2013 (42:42)
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[4]“Galileo’s Lawyer” Richard A. Jaffe, Esq.
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http://www.richardjaffe.com
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[5] – 11/9/2013 – Pete Cohen chats with Dr. Stanislaw Burzynski:
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https://stanislawrajmundburzynski.wordpress.com/2013/11/09/pete-cohen-chats-with-dr-stanislaw-burzynski/
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[6] – 6/2012 – Journal of Cancer Therapy, 2012, 3, 192-200 doi:10.4236/jct.2012.33028 Published Online June 2012, Pg. 192
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http://www.burzynskiclinic.com/images/stories/Publications/9219.pdf
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[7]Burzynski: Oh, RATS!!!:
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https://stanislawrajmundburzynski.wordpress.com/2013/07/26/the-lancet-oncology-peer-review-team-d-12-01519-fail-2/
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[8] – Critiquing: How Stanislaw Burzynski became Burzynski the Brave Maverick Doctor, part 1:
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https://stanislawrajmundburzynski.wordpress.com/2013/07/22/critiquing-how-stanislaw-burzynski-became-burzynski-the-brave-maverick-doctor-part-1/
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[9] – 9/19/2013 – Critiquing: National Cancer Institute (NCI) at the National Institutes of Health (NIH) CancerNet “fact sheet”:
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https://stanislawrajmundburzynski.wordpress.com/2013/09/19/critiquing-national-cancer-institute-nci-at-the-national-institutes-of-health-nih-cancernet/
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[10] – 9/25/2013 – Critiquing: National Council Against Health Fraud, Inc. – NCAHF News: JURY NULLIFICATION THWARTS BURZYNSKI CONVICTION:
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https://stanislawrajmundburzynski.wordpress.com/2013/09/25/critiquing-national-council-against-health-fraud-inc-ncahf-news-jury-nullification-thwarts-burzynski-conviction/
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[11] – 7/9/2013 – Burzynski: The Original 72 Phase II Clinical Trials:
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https://stanislawrajmundburzynski.wordpress.com/2013/07/09/burzynski-the-original-72-phase-ii-clinical-trials/
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[12] – 4/26/2013 – Burzynski: FDA requirements that cancer patients utilize more traditional cancer treatment options in order to be eligible to participate in the Company’s Antineoplaston CLINICAL TRIALS:
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https://stanislawrajmundburzynski.wordpress.com/2013/04/26/burzynski-fda-requirements-that-cancer-patients-utilize-more-traditional-cancer-treatment-options-in-order-to-be-eligible-to-participate-in-the-companys-antineoplaston-clinical-trials/
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[13] – Tori Moreno
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http://www.cancerinform.org/aburzinterview2.html
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[14] – 9/1999 – Pediatrics. 1999 Sep;104(3 Pt 1):435-9
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http://www.ncbi.nlm.nih.gov/m/pubmed/10469766/
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[15] – 11/2/2013 – Critiquing: Dr. Stanislaw Burzynski’s cancer “success” stories:
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https://stanislawrajmundburzynski.wordpress.com/2013/11/02/critiquing-dr-stanislaw-burzynskis-cancer-success-stories/
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10/25/2013 – Hannah Bradley – I Feel Empowered, In Control Of My Body: Four Women On Fighting Cancer With Alternative Therapies http://www.telegraph.co.uk/health/10383724/I-feel-empowered-in-control-of-my-body-four-women-on-fighting-cancer-with-alternative-therapies.html
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https://stanislawrajmundburzynski.wordpress.com/2013/10/25/hannah-bradley-i-feel-empowered-in-control-of-my-body-four-women-on-fighting-cancer-with-alternative-therapies-httpwww-telegraph-co-ukhealth10383724i-feel-empowered-in-control-of-my-body-fo/
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[16] – NOT ORDINARY CHEMOTHERAPY
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https://bulk.resource.org/courts.gov/c/F3/27/27.F3d.153.93-2071.html
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[17] – 9/4/2013 – University of Michigan, where is alum Dr. David H. “Orac” Gorski’s Grapefruits ?:
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https://stanislawrajmundburzynski.wordpress.com/2013/09/04/university-of-michigan-where-is-alum-dr-david-h-orac-gorskis-grapefruits/
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[18] – 10/13/2013 – Why “The Skeptics™” Perfessor Robert J. (don’t call me “Bobby”) “Bob” Blaskiewicz (@rjblaskiewicz) of University of Wisconsin, Eau Claire, “Fame,” is a Coward and a Liar:
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https://stanislawrajmundburzynski.wordpress.com/2013/10/13/why-the-skeptics-perfessor-robert-j-dont-call-me-bobby-bob-blaskiewicz-rjblaskiewicz-of-university-of-wisconsin-eau-claire-fame-is-a-coward-and-a-liar/
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[19] – 10/27/2013 – “The Skeptics™” Burzynski Bias, Censorship, Lies, and Alibi’s: September 28, 2013 “The Skeptics™” Burzynski discussion: By Bob Blaskiewicz – 2:19:51
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https://stanislawrajmundburzynski.wordpress.com/2013/10/27/the-skeptics-lie-lied-lies-liars-lying-burzynski-bias-censorship-lies-and-alibis-september-28-2013-the-skeptics-burzynski-discussion-by-bob-blaskiewic/
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[20] – 11/9/2013 – Wikipedia Articles:
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https://stanislawrajmundburzynski.wordpress.com/2013/09/11/burzynski-timeline/
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[19] – 1995 (6/6/1995) Dr. Michael A. Friedman to Burzynski (3 pgs.)

This page is linked to:
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Critiquing: Dr. Michael A. Friedman, Dr. Mark G. Malkin, Dr. Mario Sznol, Robert B. Lanman, Memorial Sloan-Kettering Cancer Center, Mayo Clinic, Department of Health & Human Services (HHS), Public Health Service, Quality Assurance and Compliance Section, Regulatory Affairs Branch (RAB), Cancer Therapy Evaluation Program (CTEP), Division of Cancer Treatment (DCT), National Cancer Center (NCI) at the National Institutes of Health (NIH), Stanislaw Burzynski: On the arrogance of ignorance about cancer and targeted therapies
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https://stanislawrajmundburzynski.wordpress.com/2013/09/08/critiquing-stanislaw-burzynski-on-the-arrogance-of-ignorance-about-cancer-and-targeted-therapies/
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[19] – 1995 (6/6/1995) – Michael A. Friedman, M.D., Associate Director, Cancer Therapy Evaluation Program (CTEP), Division of Cancer Treatment (DCT), National Cancer Institute (NCI), Department of Health and Human Services (HHS), Public Health Service, National Institutes of Health (NIH) 3 page letter to Burzynski

This letter is intended to respond to the major issues which have been raised in your recent correspondence of 4/20/1995 and 5/16/1995

Your accusations are serious and require comment

I will 1st address the questions you raised about individual patients participating in the NCI-sponsored antineoplaston studies

2 patients were treated at the National Cancer Institute

Patient .26-77-03-9 had evidence of focal glioblastoma multiforme on the biopsy reviewed at the NCI

A different specimen submitted to Dr. Rorke may or may not be relevant

This patient, however, had a brain scan 3 weeks prior to study entry

Patient .27-53-76-5 had a tumor which was 0.8 cm larger than the eligibility criteria dictated

Although pharmacologic data were obtained on both, neither patient is counted in an assessment of response

Both patients had objective tumor progression and are now off study

With respect to the other patients, I am including specific patient summaries from the treating investigators which address your other concerns; in particular, a response to your serious and unfounded statement that patient #196370 was treated in an unethical manner

Also contrary to your statement, you have been sent monthly clinical summaries of these patients since 7/1994 directly from Theradex

(see 3/9/1994 letter)

Having provided this information, I must convey my deep pessimism about the potential for continued interactions with you regarding these trials

Given recent events and your clearly articulated bias that the Mayo Clinic, Memorial Sloan Kettering Hospital and even the National Cancer Institute could not fairly test your product

(please see your letters of 10/26/1993 and 4/20/1995),

I now see a diminishing chance for a productive dialogue with you

Historically, the NCI has demonstrated pragmatism and flexibility in working with a wide variety of individuals and organizations to explore diverse interventions of potential benefit to the cancer patient

However, such a fruitful collaboration may simply not be possible with you

Pg. 2

The decision to suspend the NCI antineoplaston studies was reached by the investigators and the NCI and was explained in our letter of 5/12/1995

(see enclosed)

While we have frequently solicited your advice, we are in no way obligated to obtain your consent

Our interactions with you have been similar to those with pharmaceutical companies or other independent investigators

In the interest of testing antineoplastons, we have consistently considered your advice and recommendations but that in no way cedes control of these studies to you

(please refer to our letters of 7/15/1993, 10/20/1993, and 11/2/1993)

Your insistence on dictating the manner in which we conduct our review of these clinical trials is both presumptuous and inappropriate

The future of these trials rests entirely with the investigators and the NCI, since our primary obligation is to the American public

Recognizing your potential conflict of interest as the developer and the most visible proponent of antineoplastons, we could not responsibly act in any other manner

In contrast to the tenor of your unsupported statements, the NCI bases its position on scientific data

You have stated that you have a vast clinical experience with antineoplastons and we have generally been deferential to your demands despite the lack of substantive data

However, our scientific standards are broadly applied to all studies

The data and level of proof we require from you is much the same as that for other professional collaborators who make such claims

The 7 case records initially examined by the NCI hardly constitute a definition scientific result

It is naive and misleading for you to suggest that the experience of 2 of those patients who had tumors in excess of 5 cm provides adequate proof for all your contentions about tumor size, dose, etc., unless these were the only 7 brain tumor patients from your entire experience who had any hint of benefit

To be precise, in order to responsibly and properly assess your claims and accusations (as per your 4/20/1995 letter), we request that you provide the following information:

1. Exactly how many adult patients with primary brain tumors have you evaluated and treated with antineoplastons?

2. When analyzed by histological type, performance status, prior therapy, concurrent therapy (including chemotherapy), disease size and focality, how many adult brain tumor patients had objective responses?

Please characterize the quality and magnitude and duration of these responses

3. What dose, duration, schedule, and composition of antineoplastons did these patients receive?

Which of these patients benefited objectively?

What toxicities were encountered?

Do you have pharmacokinetic or pharmacodynamic data to support your contention that certain types of brain tumor patients require specific regimens?

4. For these patients, what statistical analyses relate patient or tumor characteristics with exact treatment regimen and outcome?

Pg. 3

If you provide such specific data, we can properly assess your claims

Lacking such information, we cannot

Moreover, your charges that patients received inappropriate care are not supportable without such detailed information

If, after careful consideration, the investigators at Memorial Sloan Kettering and Mayo Clinic do not reopen their studies, it is unlikely that the NCI will attempt to conduct further antineoplaston trials

Any unused antineoplaston material will, of course, be returned to you

Since we can make no judgement about the benefit or toxicity of antineoplastons at this time, we will be interested in the published outcome of peer reviewed studies that you or others may perform

If the NCI investigators choose to continue these studies, you will be so informed

In either circumstance, we will continue to sponsor clinical research of small molecules that may have differentiating properties (such as pure phenylacetate and phenylbutyrate)

cc:

Senator Joseph Biden
Senator Barbara Boxer
Senator Diane Feinstein
Senator Tom Harkin
Senator Barbara Mikulski
Congressman Berkley Bedell
Congresswoman Nancy Pelosi
Dr. Jan Buckner
Dr. Jay Greenblatt
Mr. Richard Jaffe
Dr. Wayne Jonas
Mr. Robert Lanman
Ms. Mary McCabe
Dr. Mark Malkin
Dr. Tony Murgo
Dr. Ralph Moss
Dr. David Parkinson
Dr. Edward Sondik
Dr. Mario Sznol
Dr. Dorothy Tisevich
Dr. Alan Trachtenberg
Mr. Frank Wiewel
Dr. Robert Wittes
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======================================
1993 (10/26/1993) – Burzynski to
1994 (3/9/1994) –
1994 (7/1994) – Burzynski to Theradex
1995 (4/20/1995) – Burzynski to
1995 (5/12/1995) – to Burzynski
1995 (5/16/1995) – Burzynski to
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Critiquing: Wikipedia – Burzynski Clinic

[1] – Wikipedia, claims:
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“There is a scientific consensus that antineoplaston therapy is unproven and of little promise in treating cancer””
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“… a Mayo Clinic study found no benefit from antineoplaston treatment.[1]””
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“The Memorial Sloan-Kettering Cancer Center has stated: “Bottom Line: There is no clear evidence to support the anticancer effects of antineoplastons in humans.”[1]””
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Interestingly, the above 1st claim by “Wikipedia” does NOT provide any specific citation(s), reference(s), or link(s) to support this claim
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[2] – 2/1999 – What “Wikipedia” does NOT advise the reader about the 2nd and 3rd claims, is that the conclusion of the study was:

“Although we could not confirm any tumor regression in patients in this study, the small sample size precludes definitive conclusions about treatment efficacy
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[3] – 6/1999 – Wikipedia also does NOT point out that Burzynski replied to the 2/1999 publication, that:

[A] – Study tested dosing regimen known to be ineffective

[B] – Dosages of A10 and AS2–1 used in study were meant for treatment of single small lesion (<5 cm)

5 of the 6 evaluable patients had either multiple nodules or tumors larger than 5 cm

[C] – As the provider of A10 and AS2–1, I strongly suggested to the National Cancer Institute (NCI) that these patients receive a much higher dose, consistent with greater tumor load

[D] – Study was closed when I insisted the NCI either increase the dosage or inform the patients that the drug manufacturer believed that the treatment was unlikely to be effective at the dosages being used
(letter to Dr M. Sznol, NCI, on 4/20/1995)

[E] – Review of clinical data in the article by Buckner et al proves validity of my position

[F] – Study patients had extremely low plasma antineoplaston levels

My phase 2 study dosage regimen produced plasma phenylacetylglutamine (PG) levels 35 times greater, phenylacetylisoglutamine (isoPG) levels 53 times greater, and phenylacetate (PN) levels 2 times greater than those reported by Buckner et a1 [1]

[G] – Clinical outcomes reported by Buckner et al, based on inadequate dosage schedule, differ dramatically from my phase 2 studies in which higher dosage regimen was used

[H] – They reported no tumor regression

In contrast, in 1 of my ongoing studies on protocol BT-9, 4 of 8 evaluable patients with astrocytoma had objective responses [2]

[I] – Difference in outcomes primarily due to difference in dosage schedules

[J] – Another factor that may have caused a lack of response in the study by Buckner et al is duration of treatment was too brief

Almost all patients in their study received treatment for less than 30 days

1 patient received only 9 days of treatment

Current studies indicate objective tumor responses usually observed after 3 months of therapy

Additional 8 months of treatment usually needed to obtain maximal therapeutic effect

[K] – Ambiguities in response evaluation and analysis in article by Buckner et al

In.2 patients, tumor necrosis attributed to “radio-necrosis”

Interpretation’s clouded by fact antineoplaston-induced necrosis can be indistinguishable from radionecrosis

[L] – Analysis by Buckner et al could’ve highlighted 2 patients with recurrent glioblastoma who survived for more than 1 year

This is of interest because patients typically have life expectancy of 3 to 6 months

[M] – At time of the study by Buckner et al, the sponsor, NCI, decided against higher dosing regimen I proposed and closed the study

Study used dosing regimen known to be ineffective
======================================
[4] – 10/4/1991 – Five doctors (3 from the Cancer Therapy Evaluation Branch (CTEP); including the Head of the Quality Assurance and Compliance Section, Regulatory Affairs Branch, Cancer Therapy Evaluation Program, Department of Health &Human Services, Public Health Service, National Institutes of Health, National Cancer Institute, and 2 invited consultants; including one from the National Institutes of Health (NIH) Clinical Center) visited the offices of Dr. Stanislaw R. Burzynski
——————————————————————
[5] – 10/31/1991 – Michael A. Friedman, M.D. Associate Director, Cancer Therapy Evaluation Program (CTEP), Department of Health &Human Services, National Institutes of Health, National Cancer Institute, sent a one page Memorandum to Bruce A. Chabner, M.D., Director, Division of Cancer Treatment, which stated, in part:

“I thought you would be interested in this for several reasons:”

“3. Antineoplastons deserve a closer look”

“It turns out that the agents are well defined, pure chemical entities
=======================================
=======================================
“The human brain tumor responses are real”

20130911-102213.jpg
=======================================
[6] – 11/15/1991 – Michael J. Hawkins, M.D., Chief, Investigational Drug Branch, Department of Health &Human Services, Public Health Service, National Institutes of Health, National Cancer Institute, sent a 7 page letter to Decision Network, which stated, in part, on page one:
=======================================
=======================================
“It was the opinion of the site visit team that antitumor activity was documented in this best case series … “

20130911-122216.jpg
=======================================
[7] – 12/2/91 – NCI (National Cancer Institute), Decision Network Report on Antineoplastons, states in part, on page 11:
=======================================
=======================================
“The site visit team determined that antitumor activity was documented in this best case series … “

20130911-134634.jpg
=======================================
[8] – CANCER FACTS
National Cancer Institute • National Institutes of Health Department of Health and Human Services, Antineoplastons, pg. 1

=======================================
=======================================
“The reviewers of this series found evidence of antitumor activity … “

20130911-094155.jpg
=======================================
[9] – Page 1 of 6, BlueCross BlueShield of Alabama, Antineoplaston Cancer Therapy, Policy #: 280, Category: Medicine, states, in part, on page 2 of 6:

Key Points:
=======================================
=======================================
“The reviewers of this series found evidence of antitumor activity … “
=======================================
=======================================
[10] – ANTINEOPLASTON THERAPY, HS-183, pg. 2
=======================================
=======================================
“After the reviewers found some evidence of antitumor activity … “
=======================================
=======================================
These facts indicate to me that Wikipedia’s claim about “antineoplastons”, is “debatable”

Maybe they should have learned how to use the Freedom of Information Act (FOIA)
=======================================
REFERENCES:
=======================================
[1]
——————————————————————
http://en.wikipedia.org/wiki/Burzynski_Clinic
——————————————————————
http://en.m.wikipedia.org/wiki/Burzynski_Clinic
——————————————————————
Antineoplastons, Memorial Sloan-Kettering Cancer Center
======================================
[2] – 2/1999 – A10 and AS2-1 – Phase II
Mayo Clinic Proceedings
http://www.ncbi.nlm.nih.gov/m/pubmed/10069350
Phase II Study of Antineoplastons A10 (NSC 648539) and AS2-1 (NSC 620261) in Patients With Recurrent Glioma

Material & Methods:

Patients received escalating doses of A10 and AS2-1 by multiple intermittent intravenous injections with use of portable programmable pump to the target daily dose of 1.0 g/kg for A10 and of 0.4 g/kg for AS2-1

Mean steady-state plasma concentrations of phenylacetate & phenylacetylglutamine after escalation to the target doses of A10 and AS2-1 were 177 +/-101 ug/mL & 302 +/- 102 ug/mL, respectively

Results:

9 patients were treated, in 6 of whom treatment response was assessable in accordance with protocol stipulations
http://linkinghub.elsevier.com/retrieve/pii/S0025-6196(11)63835-4
Comment in Jun; 74 (6): 641-2
http://www.sciencedirect.com/science/article/pii/S0025619611638354
Mayo Clin Proc 74(2):9 (1999), PMID .10069350
http://www.mayoclinicproceedings.org/article/S0025-6196(11)63835-4/fulltext
DOI: 10.4065/74.2.137
http://download.journals.elsevierhealth.com/pdfs/journals/0025-6196/PIIS0025619611638354.pdf
Mayo Clin Proc 1999; 74: 137–145
http://onlinelibrary.wiley.com/doi/10.1046/j.1365-2796.2003.01098.x/full
Mayo Clin Proc 1999; 74: 137–45
http://onlinelibrary.wiley.com/doi/10.1046/j.1365-2796.2003.01098.x/references
J C Buckner, M G Malkin, E Reed, T L Cascino, J M Reid, M M Ames, W P Tong, S Lim, W D Figg
http://onlinelibrary.wiley.com/store/10.1046/j.1365-2796.2003.01098.x/asset/j.1365-2796.2003.01098.x.pdf?v=1&t=hbs6xce2&s=3423e3cd1955667e8e8cdf33323faf0bd85b6a29
Department of Oncology, Mayo Clinic Rochester, Minnesota USA
http://onlinelibrary.wiley.com/store/10.1046/j.1365-2796.2003.01098.x/asset/j.1365-2796.2003.01098.x.pdf?v=1&t=hbrndkdf&s=e0af2d3bfb13841852d92a839d3a4932a5f4bb48
======================================
[3] – 6/1999 – A10 and AS2-1
http://www.ncbi.nlm.nih.gov/pubmed/10377942
Efficacy of antineoplastons A10 and AS2-1
http://www.ncbi.nlm.nih.gov/m/pubmed/10377942
S R Burzynski
Mayo Clin Proc 74 (6): 641-2 (1999),
Mayo Clin Proc. 1999 Jun; 74 (6): 641-2
http://linkinghub.elsevier.com/retrieve/pii/S0025-6196(11)64143-8
Comment on
Mayo Clin Proc. 1999 Feb; 74 (2): 137-45 PMID .10377942
http://www.mayoclinicproceedings.org/article/S0025-6196(11)64143-8/fulltext
Mayo Clin Proc. 1999
http://download.journals.elsevierhealth.com/pdfs/journals/0025-6196/PIIS0025619611641438.pdf
Comment on
Mayo Clinic Proc. 1999; 74: 641–642 (letter)
http://linkinghub.elsevier.com/retrieve/pii/S0025-6196(11)64143-8
Mayo Clin Proc
74 (6): 641-2
http://download.journals.elsevierhealth.com/pdfs/journals/0025-6196/PIIS0025619611641438.pdf
Mayo Clin Proc 74 (6): 1 (1999),
Elsevier Ltd.
DOI: 10.4065/74.6.641
1999 – A10 and AS2-1 – Mayo
Buckner, Reid, & Malkin
Mayo Clin Proc 74 (6): 2 (1999),
Elsevier Ltd.
DOI: 10.4065/74.6.641-a
http://www.mayoclinicproceedings.org/article/S0025-6196(11)64144-X/fulltext
Mayo Clinic Proceedings
74(6):2 1999 Elsevier Ltd.
http://download.journals.elsevierhealth.com/pdfs/journals/0025-6196/PIIS002561961164144X.pdf
=======================================
[8]
——————————————————————
http://www.emory.edu/KomenEd/PDF/Treatment/Antineoplastons.pdf
=======================================
[9]
——————————————————————
https://www.bcbsal.org/providers/policies/final/280.pdf
=======================================
[10]
——————————————————————
https://www.wellcare.com/WCAssets/corporate/assets/HS183_Antineoplaston_Therapy.pdf
=======================================

Critiquing David H. “Orac” Gorski, MD PhD and his Personalized MUD-Targeted Skeptic Therapy

I’ve made no secret of my opinion of a certain cancer “research” doctor named David H. Gorski, MD, PhD, of Wayne State University School of Medicine and Barbara Ann Karmanos Cancer Center / Institute, Detroit, Michigan fame

Gorski, as you may recall was responsible for this 6/3/2013 “Orac” posting:
======================================
In which the latest movie about Stanislaw Burzynski’s “cancer cure” is reviewed…with Insolence
——————————————————————
http://scienceblogs.com/insolence/2013/06/03/in-which-the-latest-movie-about-stanislaw-burzynskis-cancer-cure-is-reviewed-with-insolence/
——————————————————————
Critiquing: In which the latest movie about Stanislaw Burzynski “cancer cure” is reviewed…with Insolence:
——————————————————————
https://stanislawrajmundburzynski.wordpress.com/2013/07/18/critiquing-in-which-the-latest-movie-about-stanislaw-burzynski-cancer-cure-is-reviewed-with-insolence-2/
======================================
When last we left Gorski, his propaganda, which I characterize as pure propaganda so incompetently made that it would make blush blush

After a couple of winks I changed my characterization to say that it would have made Penn and Teller vomit in revulsion at its sheer incompetence

Be that as it may, I view Gorski as highly unethical and pseudononsense, an incompetent purveyor of “personalized MUD-targeted medicine for dummies,” and someone who might at one time have been on to something but, like all hacks, just couldn’t let go when it became clear that his personalized MUD-targeted Skeptic therapy was far more toxic than advertised and way less efficacious, if it’s even efficacious at all, which is highly doubtful.

Gorski claimed:

“[I]f I had screwed up, I would have admitted it”

Data talks

BS walks

And there’s no doubt that Gorski, too, is pure BS

In fact, I think I’m being too kind

I have yet to see his admission that he lied when he posted:

“how Burzynski never explains which genes are targeted by antineoplastons … “
======================================
Critiquing: Dr. David H. “Orac” Gorski, M.D., Ph.D, L.I.A.R.:
——————————————————————
https://stanislawrajmundburzynski.wordpress.com/2013/08/07/critiquing-dr-david-h-orac-gorski-m-d-ph-d-l-i-a-r/
======================================
8/12/2013 Gorski blogged:
======================================
A study of antineoplastons fails to be published. Stanislaw Burzynski’s propagandist Eric Merola whines about it. News at 11.
——————————————————————
http://scienceblogs.com/insolence/2013/08/12/antineoplaston-fails-publication/ ======================================
In regards to antineoplastons, Gorski states:

“antineoplastons are chemotherapy”

“They even have significant toxicity!”

What science based medicine publication(s) does Gorski cite in support of his “theory”?

NONE !!!

What do the science based medicine publications indicate?
======================================
[1] 4/1/1992 PHENYLACETATE-novel NONTOXIC inducer of tumor cell differentiation
——————————————————————
Sodium PHENYLACETATE found to affect growth and differentiation of tumor cells in vitro at concentrations achieved in humans WITH NO SIGNIFICANT ADVERSE EFFECTS
——————————————————————
PHENYLACETATE is effective in inducing tumor cell maturation and FREE OF CYTOTOXIC AND CARCINOGENIC EFFECTS, a combination that warrants attention to potential use in cancer intervention
——————————————————————
Sodium PHENYLACETATE is investigational new drug approved for human use by U.S. Food and Drug Administration
——————————————————————
DRUG ALREADY ESTABLISHED AS SAFE AND EFFECTIVE … we propose use may be extended to cancer preventation and therapy
======================================
[2] 8/20/1992 Difficulties may be overcome through exploitation of recent discovery of sodium PHENYLACETATE as NONTOXIC inducer of differentiation …
——————————————————————
(pro-drug) Sodium 4-PHENYLBUTYRATE can be given in oral doses of 0.3 to 0.6 g per kilogram of body weight per day with NO ADVERSE REACTIONS
——————————————————————
Drug rapidly metabolized to PHENYLACETATE and PHENYLACETYLGLUTAMINE
——————————————————————
PHENYLACETATE (but not PHENYLACETYLGLUTAMINE) … CAN POTENTIATE EFFICACY OF OTHER DIFFERENTIATING AGENTS, such as cytotoxic drugs …
======================================
[3] 9/15/1992 we explored efficacy of PHENYLACETATE, an amino acid derivative with LOW TOXICITY INDEX WHEN ADMINISTERED TO HUMANS
——————————————————————
PHENYLACETATE, used alone or in combination with other drugs, might offer safe and effective new approach to treatment
======================================
[4] 5/1993 NONTOXIC differentiation inducer, sodium PHENYLACETATE (NaPA)
——————————————————————
In vitro antineoplastic activity was observed with drug concentrations that have been achieved in humans with NO SIGNIFICANT TOXICITIES, suggesting PA, used alone or in combination with other antitumor agents, warrants evaluation in treatment of advanced prostatic cancer
======================================
[5] 10/1/1993 Sodium PHENYLACETATE (NaPA) and its precursor, sodium 4-PHENYLBUTYRATE (NaPB), can enhance HbF production in cultured erythroid progenitor derived from normal donors and patients with SS anemia or beta-thal, when used at pharmacologic concentrations
——————————————————————
NaPA and NaPB, BOTH ALREADY PROVEN SAFE AND EFFECTIVE IN TREATMENT OF CHILDREN
======================================
[6] 2/15/1994 sodium PHENYLACETATE can induce cytostasis and reversal of malignant properties of cultured human glioblastoma cells, when used at pharmacological concentrations that are WELL TOLERATED BY CHILDREN AND ADULTS
——————————————————————
Systemic treatment of rats bearing intracranial gliomas resulted in significant tumor suppression with NO APPARENT TOXICITY to host
======================================
[7] 4/1/1994 Pg. 1690
——————————————————————
protocol underwent several modifications over 6-month period
——————————————————————
Interest in PHENYLACETATE as anticancer agent generated by reports that ANTINEOPLASTON AS2-1, a preparation which by weight is 80% PHENYLACETATE, displayed clinical antitumor activity (13)
——————————————————————
17 patients (16 men / 1 woman) (36-75) median age 57
——————————————————————
Pg. 1693
——————————————————————
Clinical Toxicities. NO TOXICITY associated with bolus administration of drug
——————————————————————
Drug-related TOXICITY clearly related to serum
PHENYLACETATE
concentration
——————————————————————
3 episodes of Central Nervous System (CNS)
TOXICITY
, limited to CONFUSION
and LETHARGY and often preceded by emesis, occurred in patients treated at dose levels 3 and 4
——————————————————————
Symptoms resolved within 18 h of terminating drug infusion in all instances
——————————————————————
Pg. 1694
——————————————————————
PHENYLACETATE serum concentrations … were typically associated with CNS toxicity
——————————————————————
While ability to cross blood-brain barrier may underlie clinical improvement seen in patient with glioblastoma, could also explain dose-limiting side-effects of drug, i.e., nausea, vomiting, sedation, and confusion
——————————————————————
Limited experience with 150-mg/kg i.v. boluses suggests serum PHENYLACETATE concentrations occurring transiently
above 500 ug/ml are well tolerated
——————————————————————
Intermittent drug infusion should permit some drug washout to occur, thereby minimizing drug accumulation
——————————————————————
Predicts wide range of peak drug concentrations will be observed
——————————————————————
Possible these would be sufficiently transient so as not to produce CNS toxicity and troughs not prolonged as to abrogate antitumor activity of drug
——————————————————————
Dosing alternatives should be explored, our study indicates PHENYLACETATE can be safely administered by CIVI and result in clinical improvement in some patients with hormone-refractory
prostatic carcinoma and glioblastoma multiforme who failed conventional therapies
======================================
[8] 6/1/1994 PHENYLACETATE is naturally occurring plasma component that suppresses growth of tumor cells and induces differentiation in vitro
——————————————————————
Treatment with PHENYLACETATE extended survival … WITHOUT ASSOCIATED ADVERSE EFFECTS
======================================
[9] 9/1994 PHENYLACETATE, NONTOXIC differentiation inducer, can suppress growth of other neuroectodermal tumors, i.e., gliomas, in laboratory models and humans
======================================
[10] 4/1995 PHENYLACETATE, an inducer of tumor cytostasis and differentiation, shows promise as RELATIVELY NONTOXIC antineoplastic agent in models and humans
======================================
[11] 6/15/1995 Growth-inhibiting and differentiating effects of sodium PHENYLACETATE against hematopoietic and solid tumor cell lines has aroused clinical interest in use as anticancer drug
——————————————————————
In Phase I trial of PHENYLACETATE … commonly resulted in drug accumulation and REVERSIBLE DOSE-LIMITING NEUROLOGIC TOXICITY
——————————————————————
18 patients
——————————————————————
DOSE-LIMITING TOXICITY, consisting of REVERSIBLE CENTRAL NERVOUS SYSTEM DEPRESSION, observed for 3 patients at 2nd dose level
======================================
[12] 10/12/1995 aromatic fatty acid PHENYLACETATE, a common metabolite of phenylalanine, shows promise as a RELATIVELY NON-TOXIC drug for cancer treatment
======================================
[13] 10/1995 investigated effects of a NONTOXIC differentiation inducer, PHENYLACETATE (PA), on neuroectodermal tumor-derived cell lines
======================================
[14] 1995 Antineoplastons, firstly described by Burzynski, are naturally occurring peptides and amino acid derivatives which control neoplastic growth
——————————————————————
toxicological study of Antineoplastons A-10 and AS2-1 in combination with other anticancer agents or radiation in 42 patients
46 tumors with terminal stage cancer
——————————————————————
Antineoplaston A-10 oral formulation
14 – patients
A-10 injectable formulation
25 – patients

——————————————————————
Antineoplaston AS2-1 oral formulation
33 – patients
AS2-1 injectable formulation
10 – patients

——————————————————————
Major adverse effects that may have been related to agents used in combination with other conventional chemotherapeutic agents or radiation:
liver dysfunction
myelosuppression
general weakness
THESE EFFECTS WEREN’T SEEN WHEN EITHER ANTINEOPLASTON WAS ADMINISTERED ALONE

——————————————————————
MINOR ADVERSE EFFECTS OBSERVED IN SINGLE USE OF EITHER ANTINEOPLASTON A-10 OR AS2-1:
reduced albumin
increased alkaline phosphatase
increased amylase
reduced cholesterol
peripheral edema
eosinophilia
fingers rigidity
excess gas
headache
hypertension
maculopapullar rash
palpitation
adverse effects didn’t limit to continuation of either agent

——————————————————————
Antineoplaston A-10 and AS2-1 LESS TOXIC THAN CONVENTIONAL CHEMOTHERAPIES and useful in maintenance therapy for cancer patients
======================================
[15] 1996 Antineoplastons, first described by Burzynski, are naturally occurring peptides and amino acid derivatives which control neoplastic growth
——————————————————————
reported cytostatic inhibitory effect of A10 on human hepatocellular carcinoma cells and differentiation inducing effect of AS2-1 on various tumor cells suggest potential benefit for treatment of human hepatocellular carcinoma since tumor recurs frequently despite initial successful treatment
——————————————————————
Clinical experience of hepatocellular carcinoma (HCC) patient whose tumor, after incomplete trancathere arterial embolization (TAE) for a 7cm 7cm HCC, has been stable for more than 15 months during which time he has been taking Antineoplaston AS2-1 continuously WITHOUT ANY SERIOUS ADVERSE EFFECTS
======================================
[16] 5/1996
——————————————————————
In pursuit of alternative treatments for chemoresistant tumor cells, tested response of multidrug-resistant (MDR) tumor cell lines to aromatic fatty acids phenylacetate (PA) and phenylbutyrate (PB), 2 differentiation inducers currently in clinical trials
——————————————————————
Both compounds induced cytostasis and maturation of multidrug-resistant breast, ovarian, and colon carcinoma cells with no significant effect on cell viability
——————————————————————
MDR cells generally more sensitive to growth arrest by PA and PB than their parental counterparts
——————————————————————
PA and PB potentiated cytotoxic activity of doxorubicin against MDR cells
——————————————————————
Taken together, in vitro data indicate PA and PB, differentiation inducers of aromatic fatty acid class, may provide alternative approach to treatment of MDR tumors
======================================
[17] 12/1996 PHENYLACETATE (PA) and related aromatic fatty acids constitute novel class of RELATIVELY NONTOXIC antineoplastic agents
======================================
[18] 8/1997 aromatic fatty acids PHENYLACETATE (PA) and PHENYLBUTYRATE (PB) are novel antitumor agents currently under clinical evaluation
————————————————————
ability to induce tumor differentiation in laboratory models and LOW CLINICAL TOXICITY PROFILE makes them promising candidates for COMBINATION WITH CONVENTIONAL THERAPIES
======================================
[19] 1997 PHENYLACETATE and analogs represent new class of pleiotropic growth regulators that alter tumor cell biology by affecting gene expression at both transcriptional and post transcriptional levels
————————————————————
Based on findings, NaPA and NaPB entered clinical trials at National Cancer Institute
————————————————————
Ongoing phase I studies with NaPA, involving adults with prostate and brain cancer, confirmed therapeutic levels can be achieved WITH NO SIGNIFICANT TOXICITIES, and provide preliminary evidence for benefit to patients with advanced disease (Thibault et al., submitted)
======================================
[20] 10/1997 Sodium PHENYLACETATE (PA) and sodium PHENYLBUTYRATE (PB) are aromatic fatty acids that can effect differentiation in a variety of cell lines at doses that may be clinically attainable
——————————————————————
Pg. 1760
——————————————————————
PB has been successfully administered to patients with urea acid cycle disorders and sickle cell anemia for extended periods of time, and NO HEMATOLOGICAL TOXICITY has been reported
——————————————————————
Significant HEMATOLOGICAL TOXICITY was not reported in a Phase I trial of PA in patients with malignancy
——————————————————————
Pg. 1761
——————————————————————
Because of its ATTRACTIVE CLINICAL TOXICITY PROFILE, PB represents an excellent candidate for clinical trials in this group of disorders
======================================
[21] 11..12/1997 Antineoplaston AS2-1 exhibits cytostatic growth inhibition of human hepatocellular carcinoma cells in vitro and SHOWED MINIMUM ADVERSE EFFECTS in phase I clinical trial
======================================
[22] 6/1999 Burkitt’s lymphoma (BL) is readily treated malignancy, recurrences, as well as disease arising in immunosuppressed patients, are notoriously resistant to conventional therapeutic approaches
——————————————————————
Using in vitro models of EBV-transformed lymphoblastoid as well as BL cell lines, we demonstrate increased expression of genes coding for HLA class I and EBV latent proteins by differentiation inducer PHENYLBUTYRATE (PB)
——————————————————————
Aromatic fatty acid also caused cytostasis associated with sustained declines in c-myc expression, a direct antitumor effect that was independent of EBV status
——————————————————————
Findings may have clinical relevance because in vitro activity has been observed with PB concentrations that are
WELL TOLERATED
and nonimmunosuppressive in humans, a desirable feature for different patient populations afflicted with this disease
======================================
[23] 8/2001 PHENYLBUTYRATE (PB) is aromatic fatty acid with multiple mechanisms of action including histone deacetylase inhibition
——————————————————————
Overall DRUG WELL TOLERATED with most common TOXICITIES being grade 1-2 DYSPEPSIA and FATIGUE
——————————————————————
Nonoverlapping dose-limiting TOXICITIES of NAUSEA/VOMITING and HYPOCALCEMIA were seen at 36 g/day
——————————————————————
PB (p.o.) IS WELL TOLERATED and achieves concentration in vivo shown to have biological activity in vitro
======================================
[24] 10/2001 Sodium PHENYLBUTYRATE (PB) demonstrates potent differentiating capacity in multiple hematopoietic and solid tumor cell lines
——————————————————————
Pharmacokinetics performed during and after first infusion period using validated high-performance liquid chromatographic assay and single compartmental pharmacokinetic model for PB and principal metabolite, PHENYLACETATE
——————————————————————
24 patients with hormone refractory prostate cancer being predominant tumor type
——————————————————————
All evaluable for TOXICITY and response
——————————————————————
Dose escalated 150 to 515 mg/kg/day
——————————————————————
One patient at 515 mg/kg/day and one at 345 mg/kg/day experienced this DLT
——————————————————————
Maximum tolerated dose 410 mg/kg/day for 5 days
——————————————————————
Recommended Phase II dose 410 mg/kg/day for 120 h
——————————————————————
Dose-limiting TOXICITY (DLT) was neuro-cortical, exemplified by EXCESSIVE SOMNOLENCE and CONFUSION and accompanied by clinically significant HYPOKALEMIA, HYPONATREMIA, and HYPERURICEMIA
——————————————————————
Other TOXICITIES mild, including FATIGUE and NAUSEA
——————————————————————
DLT in Phase I study for infusional PB
given for 5 days every 21 days is neuro-cortical in nature
——————————————————————
TOXICITY resolved < or =12 h of discontinuing infusion
======================================
[25] 2003 Case of survival for nearly 8 years after treatment of unresectable multiple liver metastases from colon cancer, using microwave ablation and NONTOXIC ANTITUMOR AGENT, ANTINEOPLASTONS
——————————————————————
72-year-old man diagnosed with adenocarcinoma of ascending colon and 14 bilateral liver metastases underwent right hemicolectomy combined with microwave ablation of 6 metastatic liver tumors
——————————————————————
Antineoplaston A10 given intravenously, followed by oral antineoplaston AS2-1
——————————————————————
Patient underwent 2nd and 3rd microwave ablation of recurrent tumors, and has survived for nearly 8 years WITHOUT SUFFERING ANY SERIOUS ADVERSE EFFECTS
——————————————————————
Currently FREE FROM CANCER
——————————————————————
Demonstrates potential effectiveness of NONTOXIC ANTITUMOR AGENT, ANTINEOPLASTONS, for controlling liver metastases from colon cancer
======================================
[26] 4/2005 Determined maximum tolerated dose (MTD), TOXICITY profile of … oral sodium PHENYLBUTYRATE (PB) in patients with recurrent malignant gliomas
——————————————————————
All PB doses of 9, 18, and 27 g/day WELL TOLERATED
——————————————————————
At 36 g/day, 2 of 4 patients developed dose-limiting grade 3 FATIGUE and SOMNOLENCE
——————————————————————
At MTD of 27 g/day, one of 7 patients developed reversible grade 3 SOMNOLENCE
======================================
[27] 4/2007 PHENYLBUTYRATE (PBA), and its metabolite PHENYLACETATE (PAA), induce growth inhibition and cellular differentiation in multiple tumor models
——————————————————————
Conversion of PBA to PAA and PHENYLACETYLGLUTAMINE (PAG) documented without catabolic saturation
——————————————————————
THERAPY WELL TOLERATED OVERALL
——————————————————————
Common ADVERSE EFFECTS included grade 1 NAUSEA/VOMITING, FATIGUE, and LIGHTHEADEDNESS
——————————————————————
Dose limiting TOXICITIES were SHORT-TERM MEMORY LOSS, SEDATION, CONFUSION, NAUSEA, and VOMITING
——————————————————————
Administration of PBA twice-daily infusion schedule is SAFE
======================================
None of the above publications indicate that antineoplastons are toxic as Gorski would have people believe

12/12/2011 Gorski published his attempt at trying to explain why antineoplastons are supposedly toxic
======================================
What Dr. Stanislaw Burzynski doesn’t want you to know about antineoplastons
——————————————————————
http://scienceblogs.com/insolence/2011/12/12/what-dr-stanislaw-burzynski-doesnt-want/
======================================
Gorski posited:

“He’s also prescribing huge doses of antineoplastons (up to 25 g/kg/d for A10 and 80 mg/kg/d for AS-2.1, as we have seen). both of these are so far above the maximal tolerated dose of 300 mg/kg/d determined in the phase I trial I cited above as to be terrifying”

In support of his “theory”, Gorski provided a link to the National Cancer Institute (NCI) at the National Institutes of Health (NIH):
——————————————————————
http://www.cancer.gov/cancertopics/pdq/cam/antineoplastons/healthprofessional/Table1
——————————————————————
However, as is the case with a lot of Gorski’s lame research, he makes you search for what he is referring to:

[14]Ba Primitive neuroectodermal tumor (13)

A10/AS2-1

Max dose: A10: 25 g/kg/d; AS2-1: 0.6 g/kg/d

Does this support Gorski’s “toxic theory”?
======================================
[28] 2005
——————————————————————
5 years 7 months (1-11) median age
——————————————————————
13 / 100% – children with recurrent disease or high risk
——————————————————————
5 / 38% – weren’t treated earlier with radiation therapy or chemotherapy
——————————————————————
3 / 23% – Complete Response
1 / 8% – Partial Response
4 / 31% – Stable Disease
5 / 38% – Progressive Disease

——————————————————————
6 / 46% – Survived 5+ years from initiation of ANP
——————————————————————
Serious side effects:
1 – anemia
1 – fever
1 – granulocytopenia

——————————————————————
average dosage of A10 was 10.3 g/kg/d and of AS2-1 was 0.38 g/kg/d
——————————————————————
REDUCED TOXICITY MAKES ANP PROMISING for very young children, patients at high risk of complication of standard therapy, and patients with recurrent tumors
======================================
The above sure does NOT support Gorski’s “toxic theory”

When science based medicine keeps saying the following:
======================================
[9] 9/1994 increasing incidence of melanoma and POOR RESPONSIVENESS OF DISSEMINATED DISEASE TO CONVENTIONAL TREATMENT CALL FOR DEVELOPMENT OF NEW THERAPEUTIC APPROACHES
======================================
[29] 9/27/1995 (7/17/2006) Alterations in expression of ras oncogenes are characteristic of wide variety of human neoplasms
——————————————————————
Accumulating evidence has linked elevated ras expression with disease progression and FAILURE OF TUMORS TO RESPOND TO CONVENTIONAL THERAPIES, INCLUDING RADIOTHERAPY AND CERTAIN CHEMOTHERAPIES
——————————————————————
observations led us to investigate response of ras-transformed cells to differentiation-inducer PHENYLACETATE (PA)
——————————————————————
Interestingly, IN CONTRAST TO THEIR RELATIVE RESISTANCE TO RADIATION and doxorubicin, ras-transformed cells were significantly more sensitive to PA than their parental cells
======================================
[30] 5/1996 CYOTOXIC CHEMOTHERAPIES OFTEN GIVE RISE TO MULTIDRUG RESISTANCE, WHICH REMAINS MAJOR PROBLEM IN CANCER MANAGEMENT
————————————————————
IN PURSUIT OF ALTERNATIVE TREATMENTS FOR CHEMORESISTANT TUMOR CELLS, we tested response of multidrug-resistant (MDR) tumor cell lines to aromatic fatty acids PHENYLACETATE (PA) and PHENYLBUTYRATE (PB), 2 differentiation inducers currently in clinical trials
======================================
[15] 1996 Antineoplastons, first described by Burzynski, are naturally occurring peptides and amino acid derivatives which control neoplastic growth
——————————————————————
reported cytostatic inhibitory effect of A10 on human hepatocellular carcinoma cells and differentiation inducing effect of AS2-1 on various tumor cells suggest potential benefit for treatment of human hepatocellular carcinoma since TUMOR RECURS FREQUENTLY DESPITE INITIAL SUCCESSFUL TREATMENT
======================================
[31] 7/1997 Children with malignant GLIOMAS THAT PROGRESSED AFTER CONVENTIONAL THERAPY
——————————————————————
0 / 0% – EXHIBITED CLEAR-CUT TUMOR regression
======================================
[32] 2000 treatment combination PRODUCED NO SIGNIFICANT CHANGE in overall POOR prognosis of patients
——————————————————————
Most tumors responded initially to treatment but RECCURED as study progressed
——————————————————————
Based on POOR RESULTS, recommend ALTERNATIVE TREATMENTS be tested in patients with this type of tumor
======================================
[33] At time of approval, NO RESULTS were available from randomized controlled trials in refractory ANAPLASTIC ASTROCYTOMA that show clinical benefit such as improvement in disease-related symptoms or prolonged survival
======================================
[34] 12/2000 NO CLEAR PROOF OF EFFICACY
——————————————————————
NO BETTER THAN SURVIVAL BEFORE THE INTRODUCTION OF temozolomide
======================================
[35] 2002 p53 tumor suppressor gene plays important role in protecting cells from developing undesirable proliferation
——————————————————————
Mutant p53 gene or malfunctioning p53 protein found in more than 50% of cancer cells impedes DNA repair or apoptosis induction
——————————————————————
MAY BE WHY SOME CANCERS GAIN RESISTANCE TO CHEMOTHERAPY AND RADIATION AND BECOME MORE RESISTANT AFTER FREQUENT CANCER TREATMENTS
======================================
[36] 2004 outcome for patients with either type of tumor is POOR when STANDARD multimodality THERAPY IS USED
——————————————————————
children are ideal candidates for INNOVATIVE TREATMENT approaches
——————————————————————
33 / 100% – DIED OF DISEASE PROGRESSION
——————————————————————
administration of temozolomide after RT DIDN’T ALTER POOR PROGNOSIS associated with newly diagnosed diffuse BRAINSTEM GLIOMA in children
======================================
[37] 2/2008 addition of vincristine and oral VP-16 to standard external beam radiation causes moderate toxicity and DOESN’T IMPROVE SURVIVAL OF CHILDREN WITH DIFFUSE INTRINSIC BRAIN STEM GLIOMA
======================================
[38] 5/6/2009 Currently, NO DATA available from randomized controlled trials demonstrating improvement in disease-related symptoms or increased survival with Avastin in GLIOBLASTOMA
======================================
[39] 10/12/2011 Afinitor (ubependymal giant cell ASTROCYTOMA (SEGA) brain tumor)
——————————————————————
none of their tumors went away completely
======================================
[18] 8/1997 aromatic fatty acids PHENYLACETATE (PA) and PHENYLBUTYRATE (PB) are novel antitumor agents currently under clinical evaluation
————————————————————
ability to induce tumor differentiation in laboratory models and LOW CLINICALTOXICITY PROFILE makes them promising candidates for COMBINATION WITH CONVENTIONAL THERAPIES
======================================
So what does Gorski think is going to fill the void?

His clinical trial drug ?

The potentially profitable drug Gorski is in the process of conducting a clinical trial for is the ALS drug Riluzole, made by Sanofi-Aventis and marketed as Rilutek

Apparently, David Gorski has had his eye on that drug for a long time, but as a possible treatment for breast cancer

As suggested by a 2008-2009 webpage of a breast cancer website:

“Three years ago in another cancer (melanoma), Dr. Gorski’s collaborators found that glutamate might have a role in promoting the transformation of the pigmented cells in the skin (melanocytes) into the deadly skin cancer melanoma”

“More importantly for therapy, it was found that this protein can be blocked with drugs, and, specifically, in melanoma cell lines and tumor models of melanoma using a drug originally designed to treat ALS and already FDA-approved for that indication (Riluzole) can inhibit the growth of melanoma.”
————————————————————
http://www.ageofautism.com/2010/06/david-gorskis-financial-pharma-ties-what-he-didnt-tell-you.html
————————————————————
Better luck next time with your personal MUD-targeted Skeptic therapy Gorski

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References:
————————————————————
Dvorit D. Samid learned about antineoplastons from Burzynski
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[1] 4/1/1992
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SAMID, D., Shack, S., and Sherman, l.. T.
http://www.ncbi.nlm.nih.gov/pubmed/1372534/
Cancer Res., 52: 1988-1992, 1992
http://www.ncbi.nlm.nih.gov/m/pubmed/1372534/
Cancer Res 1992;52:1988-1992
http://m.cancerres.aacrjournals.org/content/52/7/1988.abstract
Cancer Res April 1, 1992 52; 1988v I
http://cancerres.aacrjournals.org/content/52/7/1988
Cancer Res. 1992 Apr 1;52(7):1988-92
http://m.cancerres.aacrjournals.org/content/52/7/1988.full.pdf
Cancer Res 52:1988,1992
http://m.cancerres.aacrjournals.org/content/52/7/1988.full.pdf#page=1
SAMID D, Shack S, Ti-Sherman L
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, Maryland
PHENYLACETATE-A novel nontoxic inducer of TUMOR CELL differentiation
↵1 Supported by Elan Pharmaceutical Corporation Grant G174ED
Reference: 12 (SAMID, D.)
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[2] .8/20/1992
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Dover GJ, Brusilow S, SAMID D. Increased fetal hemoglobin in patients receiving sodium 4-PHENYLBUTYRATE. N Engl J Med. 1992 Aug 20;327(8):569–570
http://www.ncbi.nlm.nih.gov/pubmed/1378939/
N Engl J Med. 1992 Aug 20;327(8):569-70
http://www.ncbi.nlm.nih.gov/m/pubmed/1378939/
August 20, 1992
N Engl J Med 1992; 327:569-570
http://www.nejm.org/doi/full/10.1056/NEJM199208203270818
N Engl J Med 327569, 1992
Dvorit Samid, Ph.D
National Cancer Institute
, Bethesda, MD
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[3] 9/15/1992
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SAMID D, Yeh A, Prasanna P. Induction of erythroid differentiation and fetal hemoglobin production in human leukemic cells treated with phenylacetate. Blood. 1992 Sep 15;80(6):1576–1581
http://www.ncbi.nlm.nih.gov/pubmed/1381630/
Blood. 1992 Sep 15;80(6):1576-81
http://www.ncbi.nlm.nih.gov/m/pubmed/1381630/
Blood September 15, 1992 vol. 80 no. 6 1576-1581
http://m.bloodjournal.hematologylibrary.org/content/80/6/1576.full.pd
Blood 80:1576, 1992
http://m.bloodjournal.hematologylibrary.org/content/80/6/1576.abstract
Blood 80(6):1576–1581
http://m.bloodjournal.hematologylibrary.org/content/80/6/1576.full.pdf
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, MD
SAMID D References: 15, 20-21 and 34
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[4] 5/1993
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SAMID D, Shack S , Myers CE . Selective growth arrest and phenotypic reversion of prostate cancer cells in vitro by NONTOXIC pharmacological concentrations of PHENYLACETATE . J. Clin. Invest . 1993;91:2288
http://www.ncbi.nlm.nih.gov/pubmed/8486788/
J Clin Invest. 1993 May;91(5):2288-95
http://www.ncbi.nlm.nih.gov/m/pubmed/8486788/
J Clin Invest. 1993 May; 91(5): 2288–2295
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC288233/
Published in Volume 91, Issue 5 (May 1993)
http://m.jci.org/articles/view/116457
J Clin Invest. 1993;91(5):2288–2295
1993, The American Society for Clinical Investigation
http://m.jci.org/articles/view/116457/pdf.mobile
J Clin Invest 91:2288, 1993
PMCID: PMC288233
doi:10.1172/JCI116457
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, Maryland
SAMID D References: 9, 13-14, 17 and 33
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[5] .10/1/1993
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Enhanced fetal
hemoglobin production by PHENYLACETATE and 4-PHENYLBUTYRATE in erythroid precursors derived from normal blood donors and patients with sickle cell anemia and P-thalassemia
http://www.ncbi.nlm.nih.gov/pubmed/7691251/
Blood. 1993 Oct 1;82(7):2203-9
http://www.ncbi.nlm.nih.gov/m/pubmed/7691251/
Blood 822203, 1993
http://m.bloodjournal.hematologylibrary.org/content/82/7/2203.full.pd
Blood October 1, 1993 vol. 82 no. 7 2203-2209
http://m.bloodjournal.hematologylibrary.org/content/82/7/2203.abstract
1993 82: 2203-2209
http://m.bloodjournal.hematologylibrary.org/content/82/7/2203.full.pdf
Blood 82(7):2203–2209
Department of Hematology, Hadassah University Hospital, Jerusalem, Israel
Fibach E, Prasanna P, Rodgers GP, SAMID D
SAMID D References: 15, 19-21 and 32
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[6] 2/15/1994
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SAMID, D., Ram, Z., Hudgins, W. R., Shack, S., Liu, L., Waibridge, S., Oldfield, E. H., and Myers, C. E. Selective activity of PHENYLACETATE against malignant gliomas: resemblance to fetal brain damage in phenylketonuria. Cancer Res., 54: 891-895, 1993
http://www.ncbi.nlm.nih.gov/pubmed/8313377/
Cancer Res. 1994 Feb 15;54(4):891-5
http://www.ncbi.nlm.nih.gov/m/pubmed/8313377/
Cancer Res February 15, 1994 54; 891
http://cancerres.aacrjournals.org/content/54/4/891/
Cancer Res 1994;54:891-895
Clinical Pharmacology Branch, National Cancer Institute, National Institutes of Health, Bethesda, Maryland
Work supported by funds from Elan Pharmaceutical Research Corporation through Cooperative Research and Development Agreement (CACR-0139)
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[7] 4/1/1994
� � � � � � � � � � � � � � � � �
A phase I and pharmacokinetic study of intravenous PHENYLACETATE in patients with cancer
http://www.ncbi.nlm.nih.gov/pubmed/8137283
Cancer Res. 1994 Apr 1;54(7):1690-4
http://www.ncbi.nlm.nih.gov/m/pubmed/8137283
Cancer Res 54(7):1690-4 (1994), PMID.8137283
http://m.cancerres.aacrjournals.org/content/54/7/1690.abstract
Clinical Pharmacology Branch, National Cancer Institute, NIH, Bethesda, Maryland
http://m.cancerres.aacrjournals.org/content/54/7/1690.full.pdf
Thibault A, Cooper MR, Figg WD, Venzon DJ, Sartor AO, Tompkins AC, Weinberger MS, Headlee DJ, McCall NA, SAMID D, et al.
http://cancerres.aacrjournals.org/content/54/7/1690
Study supported in part by grant from Elan Pharmaceutical Research Co
SAMID D
References: 8-12
BURZYNSKI
Reference: 13
13. BURZYNSKI, S. R., Kubove E., Burzynski, B. Treatment of hormonally refractory cancer of the prostate with antineoplaston AS2-1. Drugs Exp. Clin. Res., 16: 361-369, 1990
http://www.ncbi.nlm.nih.gov/pubmed/2152694/
Drugs Exp Clin Res. 1990;16(7):361-9
http://www.ncbi.nlm.nih.gov/m/pubmed/2152694/
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[8] 6/1/1994
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Growth inhibition, tumor maturation, and extended survival in experimental brain tumors in rats treated with PHENYLACETATE.
http://www.ncbi.nlm.nih.gov/pubmed/8187079/
Cancer Res 54:2934-2927, 1994
http://www.ncbi.nlm.nih.gov/m/pubmed/8187079/
Cancer Res. 1994 Jun 1;54(11):2923-7
http://m.cancerres.aacrjournals.org/content/54/11/2934.abstract?ijkey=03bc67e581ef77536842806b949046916458d548&keytype2=tf_ipsecsha
Cancer Res 54(11):2923–2927
http://m.cancerres.aacrjournals.org/content/54/11/2923.abstract
Surgical Neurology Branch, National Institute of Neurological Disorders and Stroke, NIH, Bethesda, Maryland
http://m.cancerres.aacrjournals.org/content/54/11/2923.full.pdf
Ram Z, SAMID D, Walbridge S, et al:
http://cancerres.aacrjournals.org/content/54/11/2923
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[9] 1994
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Liu L , Shack S , Stetler-Stevenson WG , Hudgins WR , SAMID D . Differentiation of cultured human melanoma cells induced by the aromatic fatty acids PHENYLACETATE and PHENYLBUTYRATE . J. Invest. Dermatol . 1994;103:335
http://www.ncbi.nlm.nih.gov/pubmed/8077698/
J Invest Dermatol. 1994 Sep;103(3):335-40
http://www.ncbi.nlm.nih.gov/m/pubmed/8077698/
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, Maryland
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[10] 4/1995
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Disposition of PHENYLBUTYRATE and its metabolites, PHENYLACETATE and PHENYLACETYLGLUTAMINE.
J Clin Pharmacol 35:368-373, 1995 Abstract
http://www.ncbi.nlm.nih.gov/pubmed/7650225/
J Clin Pharmacol 35:368-373, 1995 Abstract
http://www.ncbi.nlm.nih.gov/m/pubmed/7650225/
The Journal of Clinical Pharmacology
Volume 35, Issue 4, pages 368–373, April 1995
http://m.jcp.sagepub.com/content/35/4/368.abstract?ijkey=74bff0d86ce76b404728762fe2a1bfde1641fa41&keytype2=tf_ipsecsha
J Clin Pharmacol. 1995 Apr;35(4):368-73
http://onlinelibrary.wiley.com/doi/10.1002/j.1552-4604.1995.tb04075.x/abstract;jsessionid=DFDEF1599D764E2845EC2897269C198B.d01t01
Article first published online: 8 MAR 2013
http://onlinelibrary.wiley.com/doi/10.1002/j.1552-4604.1995.tb04075.x/abstract;jsessionid=43600D49608A093971D675F3DB5FF13D.d01t03
Piscitelli SC, Thibault A, Figg WD, et al: (SAMID D)
http://jcp.sagepub.com/content/35/4/368
Pharmacy Department, National Institutes of Health, Bethesda, Maryland, USA
DOI: 10.1002/j.1552-4604.1995.tb04075.x
http://m.jcp.sagepub.com/content/35/4/368.abstract?ijkey=74bff0d86ce76b404728762fe2a1bfde1641fa41&keytype2=tf_ipsecsha
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[11] 6/15/1995
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Phase I study of PHENYLACETATE administered twice daily to patients with cancer
http://www.ncbi.nlm.nih.gov/pubmed/7773944/
Cancer. 1995 Jun 15;75(12):2932-8
http://www.ncbi.nlm.nih.gov/m/pubmed/7773944/
Cancer 75(12):2932–2938
Clinical Pharmacology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, USA
Thibault A, SAMID D, Cooper MR, Figg WD, Tompkins AC, Patronas N, et al
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[12] 10/12/1995
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Cytostatic activity of PHENYLACETATE and derivatives against tumor cells:
Correlation with lipophilicity and inhibition of protein prenylation.
http://www.ncbi.nlm.nih.gov/pubmed/7488244/
Biochem Pharmacol. 1995 Oct 12;50(8):1273-9
http://www.ncbi.nlm.nih.gov/m/pubmed/7488244/
Biochem Pharmacol 50:1273-1279, 1995
http://www.sciencedirect.com/science/article/pii/0006295295020133
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, MD, USA
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[13] 10/1995
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Stockhammer G, Manley GT, Johnson R, et al: (SAMID D) Inhibition of proliferation and induction of differentiation in medulloblastoma and astrocytoma-derived cell lines with PHENYLACETATE. J Neurosurg 83:672-681, 1995
http://www.ncbi.nlm.nih.gov/pubmed/7674018/
J Neurosurg. 1995 Oct;83(4):672-81
http://www.ncbi.nlm.nih.gov/m/pubmed/7674018/
Cotzias Laboratory of Neuro-Oncology, Memorial Sloan-Kettering Cancer Center, New York, New York, USA
http://thejns.org/doi/abs/10.3171/jns.1995.83.4.0672?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%3dpubmed&amp;
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[14] 1995
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Toxicological study on antineoplastons A-10 and AS2-1 in cancer patients
http://www.ncbi.nlm.nih.gov/pubmed/8667595
Kurume Med J. 1995;42(4):241-9
http://www.ncbi.nlm.nih.gov/m/pubmed/8667595
The Kurume Medical Journal
Vol. 42 (1995) No. 4 P 241-249
https://www.jstage.jst.go.jp/article/kurumemedj1954/42/4/42_4_241/_article
JST.Journalarchive/kurumemedj1954/42.241
https://www.jstage.jst.go.jp/article/kurumemedj1954/42/4/42_4_241/_pdf
Department of Anesthesiology, Kurume University School of Medicine, Japan
http://dx.doi.org/10.2739/kurumemedj.42.241
Tsuda H, Hara H, Eriguchi N, Nishida H, Yoshida H, Kumabe T, Sugita Y
https://www.jstage.jst.go.jp/article/kurumemedj1954/42/4/42_4_241/_article/references
Burzynski References: 1 – 3 and 5
Nishida et al. (Japan) A-10 Reference: 4 and 7
Muldoon et al. A-10 Reference: 6
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[15] 1996
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Inhibitory effect of antineoplaston A10 and AS2-1 on human hepatocellular carcinoma
Tsuda H (Japan)
http://www.ncbi.nlm.nih.gov/pubmed/8755117
Kurume Med J. 1996;43(2):137-47
http://www.ncbi.nlm.nih.gov/m/pubmed/8755117
Department of Anesthesiology, Kurume University School of Medicine, Japan
http://www.jstage.jst.go.jp/article/kurumemedj1954/43/2/43_2_137/_article
Burzynski References: 1 – 3, 5 and 7
http://www.jstage.jst.go.jp/article/kurumemedj1954/43/2/43_2_137/_article/references
SAMID Reference: 13 (who learned from Burzynski re PHENYLACETATE)
http://www.jstage.jst.go.jp/article/kurumemedj1954/43/2/43_2_137/_pdf
Nishida et al. (Japan) A10 Reference: 4 and 10
Muldoon et al. A10 Reference: 8
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[16] 5/1996
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Vulnerability of multidrug-resistant tumor cells to the aromatic fatty acids phenylacetate and PHENYLBUTYRATE
http://www.ncbi.nlm.nih.gov/pubmed/9816242/
Clin Cancer Res. 1996 May;2(5):865-72
http://www.ncbi.nlm.nih.gov/m/pubmed/9816242/
Clin Cancer Res 2(5):865–872
http://m.clincancerres.aacrjournals.org/content/2/5/865.abstract
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, Maryland, USA
http://m.clincancerres.aacrjournals.org/content/2/5/865.full.pdf
Shack S, Miller A, Liu L, Prasanna P, Thibault A, SAMID D
http://clincancerres.aacrjournals.org/content/2/5/865
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[17] 12/1996
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Gorospe M, Shack S, Guyton KZ, et al: (SAMID D)
Up-regulation and functional role of p21Waf1/Cip1 during growth arrest of human breast carcinoma MCF-7 cells by PHENYLACETATE. Cell Growth Differ 7:1609-1615, 1996
http://www.ncbi.nlm.nih.gov/pubmed/8959328/
Cell Growth Differ. 1996 Dec;7(12):1609-15
http://www.ncbi.nlm.nih.gov/m/pubmed/8959328/
Cell Growth Differ 7(12):1609–1615
http://cgd.aacrjournals.org/cgi/reprint/7/12/1609.pdf
Laboratory of Cellular and Molecular Biology, Gerontology Research Center, National Institute on Aging, NIH, Baltimore, Maryland, USA
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[18] 8/1997
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Miller AC, Whittaker T, Thibault A, et al: (SAMID D)
Modulation of radiation response of human tumor cells by the differentiation inducers, PHENYLACETATE and PHENYLBUTYRATE. Int J Radiat Biol 72:211-218, 1997
http://www.ncbi.nlm.nih.gov/pubmed/9269314/
Int J Radiat Biol. 1997 Aug;72(2):211-8
http://www.ncbi.nlm.nih.gov/m/pubmed/9269314/
Armed Forces Radiobiology, Research Institute, Bethesda, MD, USA
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[19] 1997
� � � � � � � � � � � � � � � � �
PHENYLACETATE and PHENYLBUTYRATE as novel, NONTOXIC differentiation inducers
http://www.ncbi.nlm.nih.gov/pubmed/9547596
Adv Exp Med Biol (1997), PMID.9547596
http://www.ncbi.nlm.nih.gov/m/pubmed/9547596
Adv Exp Med Biol. 1997;400A:501-5
http://link.springer.com/chapter/10.1007%2F978-1-4615-5325-0_67
DOI
10.1007/978-1-4615-5325-0_67
http://link.springer.com/content/pdf/10.1007%2F978-1-4615-5325-0_67.pdf
Eicosanoids and Other Bioactive Lipids in Cancer, Inflammation, and Radiation Injury 2
Advances in Experimental Medicine and Biology Volume 400, 1997, pp 501-505
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, MD USA
D D SAMID, W R WR Hudgins, … C E CE Myers
� � � � � � � � � � � � � � � �
[20] 10/1997
� � � � � � � � � � � � � � � �
Impact of the putative differentiating agents sodium PHENYLBUTYRATE and sodium PHENYLACETATE on proliferation, differentiation, and apoptosis of primary neoplastic myeloid cells
http://www.ncbi.nlm.nih.gov/pubmed/9815560/
Clin Cancer Res. 1997 Oct;3(10):1755-62
http://www.ncbi.nlm.nih.gov/m/pubmed/9815560/
Clin Cancer Res October 1997 3; 1755
http://m.clincancerres.aacrjournals.org/content/3/10/1755.full.pd
Clin Cancer Res. 1997a;3:1755–1762
http://m.clincancerres.aacrjournals.org/content/3/10/1755.abstract
The Johns Hopkins Oncology Center, Baltimore, Maryland, USA
http://m.clincancerres.aacrjournals.org/content/3/10/1755.full.pdf
Gore SD, SAMID D, Weng LJ
� � � � � � � � � � � � � � � � �
[21] 11..12/1997
� � � � � � � � � � � � � � � � �
Antineoplaston AS2-1 for maintenance therapy in liver cancer
H Tsuda phase I clinical trial
http://www.ncbi.nlm.nih.gov/pubmed/21590224
Oncol Rep. 1997; 4:1213- 1216
http://www.ncbi.nlm.nih.gov/m/pubmed/21590224
Oncol Rep. 1997 Nov-Dec;4(6):1213-6
http://www.spandidos-publications.com/or/4/6/1213
Oncol Rep 4 (6):1213-6 (1997)
Oncology Reports
4 (6):1213-6
KURUME UNIV,SCH MED,DEPT SURG,KURUME,FUKUOKA,JAPAN. KURUME UNIV,SCH MED,DEPT INTERNAL MED,KURUME,FUKUOKA,JAPAN. KURUME UNIV,SCH MED,DEPT RADIOL,KURUME,FUKUOKA,JAPAN
� � � � � � � � � � � � � � � �
[22] 6/1999
� � � � � � � � � � � � � � � �
PHENYLBUTYRATE induces cell differentiation and modulates Epstein-Barr virus gene expression in Burkitt’s lymphoma cells
http://www.ncbi.nlm.nih.gov/pubmed/10389940/
Clin Cancer Res. 1999 Jun;5(6):1509-16
http://www.ncbi.nlm.nih.gov/m/pubmed/10389940/
Clin Cancer Res 5(6):1509–1516
http://m.clincancerres.aacrjournals.org/content/5/6/1509.abstract
Clin Cancer Res June 1999 5; 1509
http://m.clincancerres.aacrjournals.org/content/5/6/1509.long
Pediatric Oncology Branch, National Cancer Institute, Bethesda, Maryland, USA
http://clincancerres.aacrjournals.org/content/5/6/1509
Bar-Ner M, Thibault A, Tsokos M, Magrath IT, SAMID D
Supported in part by funds from Elan Pharmaceutical Research Corporation
� � � � � � � � � � � � � � � � �
[23] 8/2001
� � � � � � � � � � � � � � � � �
A phase Idose escalation and bioavailability study of oral sodium PHENYLBUTYRATE in patients with refractory solid tumor malignancies
http://www.ncbi.nlm.nih.gov/pubmed/11489804
Clin Cancer Res. 2001 Aug;7(8):2292-.300
http://www.ncbi.nlm.nih.gov/m/pubmed/11489804
Clin Cancer Res 7(8):2292-.300 (2001), PMID.11489804
http://m.clincancerres.aacrjournals.org/content/7/8/2292.long
Division of Medical Oncology, Department of Oncology, The Johns Hopkins University School of Medicine, Baltimore, USA
J Gilbert, S D Baker, … M A Carducci
SAMID D References: 2-3, 5-6, 15 and 20
� � � � � � � � � � � � � � � � �
[24] 10/2001
� � � � � � � � � � � � � � � � �
A Phase I clinical and pharmacological evaluation of sodium PHENYLBUTYRATE on an 120-h infusion schedule
http://www.ncbi.nlm.nih.gov/pubmed/11595694
Clin Cancer Res. 2001 Oct;7(10):3047-55
http://www.ncbi.nlm.nih.gov/m/pubmed/11595694
Clin Cancer Res 7(10):3047-55 (2001), PMID.11595694
http://m.clincancerres.aacrjournals.org/content/7/10/3047.long
Division of Medical Oncology, The Johns Hopkins Oncology Center, Bunting-Blaustein Cancer Research Building, Baltimore, MD, USA
M A Carducci, J Gilbert, … R C Donehower
SAMID D References: 10-11, 13-14, 17-18, 23-24, 27, 33, 40-41 and 47
� � � � � � � � � � � � � � � � �
[25] 2003
� � � � � � � � � � � � � � � � �
Long-term survival following treatment with antineoplastons for colon cancer with unresectable multiple liver metastases: report of a case
http://www.ncbi.nlm.nih.gov/pubmed/12768372
Long-Term Survival Following Treatment with Antineoplastonsfor Colon Cancer with Unresectable Multiple Liver Metastases:
Report of a Case
A10 and AS2-1 – Phase II Clinical Trial
Hideaki Tsuda
http://www.springerlink.com/content/b48ch3ha165nbrqp
Surg Today. 2003;33(6):448-53
http://link.springer.com/article/10.1007%2Fs10595-002-2503-2
Surg Today 2003; 33:448–53
http://link.springer.com/content/pdf/10.1007%2Fs10595-002-2503-2
Surg Today. 2003; 33:448-453
http://link.springer.com/article/10.1007%2Fs10595-002-2503-2?LI=true
33 (6):448-53
http://link.springer.com/content/pdf/10.1007%2Fs10595-002-2503-2
Surgery Today, Springer
http://sciencelinks.jp/j-east/article/200313/000020031303A0389449.php
Surg Today 2003
http://sciencelinks.jp/j-east/article/200313/000020031303A0389449.php
DOI: 10.1007/s10595-002-2503-2
http://ci.nii.ac.jp/naid/10015483373
Department of Surgery, Kurume University School of Medicine, Kurume, Fukuoka, Japan
http://ci.nii.ac.jp/naid/10015483373
� � � � � � � � � � � � � � � �
[26] 4/2005
� � � � � � � � � � � � � � � �
Oral sodium PHENYLBUTYRATE in patients with recurrent malignant gliomas:

A dose escalation and pharmacologic study
http://www.ncbi.nlm.nih.gov/pubmed/15831235/
Neuro Oncol. 2005 Apr;7(2):177-82
http://www.ncbi.nlm.nih.gov/m/pubmed/15831235/
Neuro-oncol. 2005 April; 7(2): 177–182 PMCID: PMC1871887
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1871887/pdf/neu0702p177.pdf
The New Approaches to Brain Tumor Therapy CNS Consortium, Winship Cancer Institute, Emory University, Atlanta, GA, USA
Buckner Reference: 3
SAMID D References: 12, 17 and 19-21
� � � � � � � � � � � � � � � � �
[27] 4/2007
� � � � � � � � � � � � � � � � �
Phase I dose escalation clinical trial of PHENYLBUTYRATE sodium administered twice daily to patients with advanced solid tumors
http://www.ncbi.nlm.nih.gov/pubmed/17053987
Invest New Drugs. 2007 Apr;25(2):131-8. Epub 2006 Oct 20
http://www.ncbi.nlm.nih.gov/m/pubmed/17053987
Investigational New Drugs
April 2007, Volume 25, Issue 2, pp 131-138
http://link.springer.com/article/10.1007%2Fs10637-006-9017-4
Invest New Drugs 25(2):131-8 (2007), PMID.17053987
Department of Medicine, Memorial Sloan-Kettering Cancer Center, Joan and Sanford I. Weill Medical College of Cornell Medical Center, New York, New York, USA
Luis H LH Camacho, Jon J Olson, … Mark G MG Malkin
SAMID D References: 4-5, 7, 20, 24, 30 and 32-38
� � � � � � � � � � � � � � � � �
[28] 2005
� � � � � � � � � � � � � � � � �
14. Burzynski SR, Weaver RA, Janicki T, et al.: Long-term survival of high-risk pediatric patients with primitive neuroectodermal tumors treated with antineoplastons A10 and AS2-1. Integr Cancer Ther 4 (2): 168-77, 2005
http://www.ncbi.nlm.nih.gov/pubmed/15911929/
Integr Cancer Ther. 2005 Jun;4(2):168-77
http://www.ncbi.nlm.nih.gov/m/pubmed/15911929/
� � � � � � � � � � � � � � � � �
[29] 9/27/1995
� � � � � � � � � � � � � � � � �
Increased susceptibility of ras-transformed cells to PHENYLACETATE is associated with inhibition of p21ras isoprenylation and phenotypic reversion. Int J Cancer 63:124-129, 1995
http://www.ncbi.nlm.nih.gov/pubmed/7558439/
Int J Cancer. 1995 Sep 27;63(1):124-9
http://www.ncbi.nlm.nih.gov/m/pubmed/7558439/
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, MD, USA
http://onlinelibrary.wiley.com/doi/10.1002/ijc.2910630122/abstract
Int J Cancer 63:124-129, 1995
Int J Cancer. 1995 Sep 27;63(1):124-9.
http://onlinelibrary.wiley.com/doi/10.1002/ijc.2910630122/references
International Journal of Cancer
Volume 63, Issue 1, Article first published online: 17 JUL 2006
DOI: 10.1002/ijc.2910630122
Shack S, Chen L-C, Miller AC, et al: (SAMID D)
http://onlinelibrary.wiley.com/doi/10.1002/ijc.2910630122/abstract
Shack, S., Chen, L-C., Miller, A. C., Danesi, A., and SAMID, D. Int. J. Cancer, 63: 124-129, 1995
� � � � � � � � � � � � � � � � �
[30] 5/1996
� � � � � � � � � � � � � � � � �
Shack, S., Miller, A., Liu, L., Prasanna, P., Thibault, A., and SAMID, D.. Vulnerability of MULTIDRUG-RESISTANT TUMOR CELLS to the aromatic fatty acids PHENYLACETATE and PHENYLBUTYRATE. Clin. Cancer Res., 2: 865-872, 1996
http://www.ncbi.nlm.nih.gov/pubmed/9816242/
Clin Cancer Res. 1996 May;2(5):865-72
http://www.ncbi.nlm.nih.gov/m/pubmed/9816242/
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, Maryland 20892, USA
http://m.clincancerres.aacrjournals.org/content/2/5/865.abstract

http://m.clincancerres.aacrjournals.org/content/2/5/865.full.pdf
� � � � � � � � � � � � � � � � �
[31] 7/1997
� � � � � � � � � � � � � � � � �
A phase I study of high-dose tamoxifen for the treatment of refractory malignant gliomas of childhood
http://www.ncbi.nlm.nih.gov/pubmed/9815790/
Clin Cancer Res. 1997 Jul;3(7):1109-15
http://www.ncbi.nlm.nih.gov/m/pubmed/9815790/
Clin Cancer Res July 1997 3; 1109
http://m.clincancerres.aacrjournals.org/content/3/7/1109.full.pd
Department of Neurosurgery, Children’s Hospital of Pittsburgh, Pittsburgh, Pennsylvania, USA
http://clincancerres.aacrjournals.org/content/3/7/1109
� � � � � � � � � � � � � � � � �
[32] 2000
� � � � � � � � � � � � � � � � �
Radiation therapy and high-dose tamoxifen in the treatment of patients with diffuse BRAINSTEM GLIOMAS:

results of a Brazilian cooperative study
http://www.ncbi.nlm.nih.gov/pubmed/10715294/
Brainstem Glioma Cooperative Group
http://www.ncbi.nlm.nih.gov/m/pubmed/10715294/
J Clin Oncol 18, 1246-1253
http://m.jco.ascopubs.org/content/18/6/1246.long
� � � � � � � � � � � � � � � � �
[33]
� � � � � � � � � � � � � � � � �
http://clincancerres.aacrjournals.org/content/11/19/6767.full
� � � � � � � � � � � � � � � � �
[34] 12/2000
� � � � � � � � � � � � � � � � �
Temozolomide and ANAPLASTIC ASTROCYTOMA:

new indication
http://www.ncbi.nlm.nih.gov/pubmed/11475493/
Prescrire Int. 2000 Dec;9(50):170-1.
http://www.ncbi.nlm.nih.gov/m/pubmed/11475493/
� � � � � � � � � � � � � � � � �
[35] 2002
� � � � � � � � � � � � � � � � �
A novel strategy for remission induction and maintenance in cancer therapy
A10 and AS2-1
H Tsuda
http://www.ncbi.nlm.nih.gov/pubmed/11748457
Oncol Rep 2002;9:65–8
http://www.ncbi.nlm.nih.gov/m/pubmed/11748457
Oncol. Rep. 2002;9:65-68
http://www.spandidos-publications.com/or/9/1/65
Oncol Rep 9(1):65-8 (2002)
Oncology Reports, Spandidos Publications
Department of Anesthesiology, Kurume University, School of Medicine, Fukuoka-ken, Japan
� � � � � � � � � � � � � � � � �
[36] 2004
� � � � � � � � � � � � � � � � �
Supratentorial high-grade ASTROCYTOMA and DIFFUSE BRAINSTEM GLIOMA:

two challenges for the pediatric oncologist
http://www.ncbi.nlm.nih.gov/pubmed/15047924/
Oncologist. 2004;9(2):197-206.
http://www.ncbi.nlm.nih.gov/m/pubmed/15047924/
Oncologist 9, 197-206
http://m.theoncologist.alphamedpress.org/content/9/2/197.long
Division of Neuro-Oncology, Department of Hematology-Oncology, St. Jude Children’s Research Hospital, Memphis, Tennessee, USA
1/1/2005 (11/24/2004) – Role of temozolomide after radiotherapy for newly diagnosed diffuse BRAINSTEM GLIOMA in children:

results of a multiinstitutional study (SJHG-98)
http://www.ncbi.nlm.nih.gov/pubmed/15565574
Cancer. 2005 Jan 1;103(1):133-9.
http://www.ncbi.nlm.nih.gov/m/pubmed/15565574
Cancer 103, 133-139
http://onlinelibrary.wiley.com/doi/10.1002/cncr.20741/abstract;jsessionid=6717837591CCC8FCBD8E46163808E221.d03t01
Cancer
Volume 103, Issue 1, pages 133–139, 1 January 2005
http://onlinelibrary.wiley.com/doi/10.1002/cncr.20741/full
Article first published online: 24 NOV 2004
References:
http://onlinelibrary.wiley.com/doi/10.1002/cncr.20741/references
Cited By:
http://onlinelibrary.wiley.com/doi/10.1002/cncr.20741/citedby
DOI: 10.1002/cncr.20741
Department of Hematology-Oncology, St. Jude Children’s Research Hospital, Memphis, Tennessee, USA
——————————————————————
Cancer 103, 133-139
� � � � � � � � � � � � � � � � �
[37] 2/2008 (Article first published online: 2/2/2007)
� � � � � � � � � � � � � � � � �
Treatment of children with diffuse intrinsic BRAIN STEM GLIOMA with radiotherapy, vincristine and oral VP-16:

a Children’s Oncology Group phase II study
http://www.ncbi.nlm.nih.gov/pubmed/17278121
Pediatr Blood Cancer. 2008 Feb;50(2):227-30
http://www.ncbi.nlm.nih.gov/m/pubmed/17278121
University of Rochester Medical Center, Rochester, New York, USA
http://onlinelibrary.wiley.com/doi/10.1002/pbc.21154/abstract;jsessionid=DE7A67EFBAC1A184F6805F11CFC4F30B.d02t02
Article first published online: 2 FEB 2007
DOI: 10.1002/pbc.21154
� � � � � � � � � � � � � � � � �
[38] 5/6/2009
� � � � � � � � � � � � � � � � �
U.S. Food and Drug Administration (FDA) granted accelerated approval of Avastin (bevacizumab) for people with GLIOBLASTOMA (brain cancer) with progressive disease following prior therapy
——————————————————————
effectiveness of Avastin in AGGRESSIVE form of BRAIN CANCER based on improvement in objective response rate
——————————————————————
http://www.drugs.com/newdrugs/fda-grants-accelerated-approval-avastin-combination-paclitaxel-chemotherapy-first-line-advanced-852.html
According to FDA analysis of study
——————————————————————
Study AVF3708g
——————————————————————
Study NCI 06-C-0064E
——————————————————————
Efficacy of Avastin in GLIOBLASTOMA that progressed following prior therapy supported by another study that used same response assessment criteria as AVF3708g
——————————————————————
http://www.cancer.gov/cancertopics/druginfo/fda-bevacizumab
——————————————————————
http://www.drugs.com/newdrugs/fda-grants-accelerated-approval-avastin-brain-cancer-glioblastoma-has-progressed-following-prior-1342.html
� � � � � � � � � � � � � � � � �
[39] 10/12/2011 (Published online: 8/1/2011)
� � � � � � � � � � � � � � � � �
Everolimus tablets for patients with subependymal giant cell ASTROCYTOMA
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3389821/
Expert Opin Pharmacother. Author manuscript; available in PMC 2012 July 5.
Published in final edited form as:
Expert Opin Pharmacother. 2011 October; 12(14): 2265–2269.
Published online 2011 August 1. doi: 10.1517/14656566.2011.601742
PMCID: PMC3389821
NIHMSID: NIHMS385824
——————————————————————
http://www.fda.gov/AboutFDA/CentersOffices/OfficeofMedicalProductsandTobacco/CDER/ucm231967.htm
� � � � � � � � � � � � � � � � �

Critiquing: Dr. David H. “Orac” Gorski and The Skeptics™ http://www.scienceblogs.com/Insolence

6/4/2013 Gorski made a remarkable admission:
======================================
http://scienceblogs.com/insolence/2013/06/04/stanislaw-burzynski-versus-the-bbc/
======================================
“Dr. Elloise Garside, a research scientists,

“echoes a lot of the questions I have, such as … ”

“Burzynski … antineoplastons … “:

what the scientific rationale is to expect that they might have antitumor activity” ?
======================================
Gorski has claimed:
======================================
6/7/2013 “Unlike Mr. Merola, I am indeed very concerned with getting my facts correct”
——————————————————————
http://scienceblogs.com/insolence/2013/06/07/i-want-my-anp/
======================================
6/5/2013 “ … I do know cancer science”
——————————————————————
http://scienceblogs.com/insolence/2013/06/05/odds-and-ends-about-burzynski-clinic/
======================================
11/2/2012 “Personally, having pored over Burzynski’s publications … “
——————————————————————
http://scienceblogs.com/insolence/2012/11/02/stanislaw-burzynski-fails-to-save-another-patient/
======================================
5/8/2013 “I’ve searched Burzynski’s publications … “
——————————————————————
http://scienceblogs.com/insolence/2013/05/08/eric-merola-and-stanislaw-burzynskis-secret-weapon-against-the-skeptics-fabio-lanzoni-part-2/
======================================
☆AnthonyJeselnik☆
🚫GorskonOrac🚫
You tweeted 12:44pm-3/30/13📄

——————————————————————
David Gorski (@gorskon) tweeted at 12:44pm – 30 Mar 13:
https://twitter.com/gorskon/status/318056135645073408
——————————————————————
Defend your tweet😅
#Burzynski—
(@FauxSkeptic) May 23, 2013

——————————————————————
David Gorski (@gorskon)
5/23/13, 9:32 AM

——————————————————————
@FauxSkeptic No need to defend my Tweet. The defense is in the link.
http://www.sciencebasedmedicine.org/index.php/stanislaw-burzynski-bad-medicine-a-bad-movie
——————————————————————
NO, Dr. Gorski, you have NOT “deconstructed his “evidence” in depth before”
Burzynski: Cancer Is Serious Business (Part I) consists of the documentary; as well as the documents on the movie web-site, which you have NOT “deconstructed … in depth before”

(What Gorski did is termed: “cherry-picking”)
======================================
7/22/2013 I published the below article on my blog:
======================================
Critiquing: In which Orac does Stanislaw Burzynski propagandist Eric Merola a favor…:
——————————————————————
https://stanislawrajmundburzynski.wordpress.com/2013/07/22/critiquing-in-which-orac-does-stanislaw-burzynski-propagandist-eric-merola-a-favor/
======================================
“… because Gorski and others do NOT seem to understand how antineoplastons (ANP) A10 (Atengenal) and AS2-1 (Astugenal) work, I provide the relevant Burzynski publications and page #’s for them to review:
——————————————————————
It’s not like The Skeptics are going to help Gorski since they usually post inane comments that frequently go off topic on his Respectful Insolence blog
——————————————————————
Gorski, here’s:
——————————————————————
“the scientific rationale … to expect that (antineoplastons) might have antitumor activity”
� � � � � � � � � � � � � � � �
[1] 7/1971 Phenylacetic acid as potential therapeutic agent for treatment of HUMAN CANCER
� � � � � � � � � � � � � � � �
[2] 1976 Medium-sized peptides isolated from normal humans urine were tested for effect on DNA, RNA, and protein synthesis, and mitosis, in tissue culture of human myeloblastic leukemia, osteosarcoma, and HeLa cells
——————————————————————
active peptides produce up to 97% inhibition of DNA synthesis and mitosis in neoplastic cells in tissue culture

� � � � � � � � � � � � � � � �
[3] 1990 AS2-1 (AS)
� � � � � � � � � � � � � � � �
2 / 14.5% – Complete Remission
——————————————————————
3 / 21%- Partial Remission
——————————————————————
7 / 50%- Stabilization of disease with objective improvement
——————————————————————
2 / 14.5% – Progression
——————————————————————
1st patient enrolled in Complete Remission 17 months and off treatment 16 months
� � � � � � � � � � � � � � � � �
[4] 4/1/1992 PHENYLACETATE-novel nontoxic inducer of TUMOR CELL differentiation
——————————————————————
Sodium PHENYLACETATE found to affect growth and differentiation of TUMOR CELLS in vitro at concentrations achieved in humans with no significant adverse effects
——————————————————————
Treatment of promyelocytic leukemia III.-60 cells resulted in rapid decline of myc oncogene expression followed by growth arrest and granulocyte differentiation
——————————————————————
results indicate PHENYLACETATE is effective in inducing tumor cell maturation and free of cytotoxic and carcinogenic effects, a combination that warrants attention to potential use in CANCER intervention
——————————————————————
Conclusions:
——————————————————————
Sodium PHENYLACETATE is investigational new drug approved for human use by U.S. Food and Drug Administration
——————————————————————
drug already established as safe and effective in treatment of hyperammonemia (2-4); we propose use may be extended to CANCER preventation and therapy
� � � � � � � � � � � � � � � �
[5] 9/15/1992 results suggest PHENYLACETATE, used alone or in combination with other drugs, might offer safe and effective new approach to treatment of some hematopoietic neoplasms and severe hemoglobinopathies
——————————————————————
NaPA, which has an unpleasant odor, can be substituted by its pro-drug, sodium PHENYLBUTYRATE (NaPB), for oral administration
——————————————————————
Upon ingestion by humans, PHENYLBUTYRATE undergoes @-oxidation to PHENYLACETATE
——————————————————————
Both NaPA and NaPB already proved safe for the treatment of infants and adults
——————————————————————
It seems important therefore to further evaluate the clinical relevance of our experimental data
� � � � � � � � � � � � � � � �
[6] 5/1993 nontoxic differentiation inducer, sodium PHENYLACETATE (NaPA)
——————————————————————
in vitro antineoplastic activity was observed with drug concentrations that have been achieved in humans with no significant toxicities, suggesting PA, used alone or in combination with other antitumor agents, warrants evaluation in treatment of advanced prostatic CANCER
� � � � � � � � � � � � � � � �
[7] 2/1994 sodium PHENYLACETATE can induce cytostasis and reversal of MALIGNANT properties of cultured HUMAN GLIOBLASTOMA CELLS, when used at pharmacological concentrations that are well tolerated by children and adults
——————————————————————
Systemic treatment of rats bearing intracranial GLIOMAS resulted in SIGNIFICANT TUMOR SUPPRESSION with no apparent toxicity to host
——————————————————————
data indicate PHENYLACETATE, acting through inhibition of protein prenylation and other mechanisms, may offer safe and effective novel approach to treatment of MALIGNANT GLIOMAS and perhaps other neoplasms as well
� � � � � � � � � � � � � � � �
[8] 4/1/1994 Phenylacetate has recently been shown to suppress TUMOR growth and promote differentiation in experimental models
——————————————————————
phase I trial of PHENYLACETATE conducted in 17 patients with advanced solid TUMORS
——————————————————————
99% of PHENYLACETATE elimination was accounted for by conversion to PHENYLACETYLGLUTAMINE, which was excreted in the urine
——————————————————————
1 of 6 patients with GLIOBLASTOMA MULTIFORME, whose steroid dosage has remained unchanged for duration of therapy, has sustained functional improvement for more than 9 months
——————————————————————
use of adaptive control with feedback for dosing of each patient enabled us to safely maintain stable PHENYLACETATE concentrations … which resulted in clinical improvement in some patients with advanced disease
� � � � � � � � � � � � � � � �
[9] 6/1/1994 PHENYLACETATE is naturally occurring plasma component that suppresses growth of TUMOR CELLS and induces differentiation in vitro
——————————————————————
Treatment with PHENYLACETATE extended survival … without associated adverse effects
——————————————————————
PHENYLACETATE, used at clinically achievable concentrations, prolongs survival of rats with MALIGNANT BRAIN TUMORS through induction of TUMOR differentiation
——————————————————————
role in treatment of BRAIN TUMORS and other CANCERS should be explored further
� � � � � � � � � � � � � � � �
[10] 9/1994 increasing incidence of melanoma and poor responsiveness of disseminated disease to conventional treatments call for development of new therapeutic approaches
——————————————————————
PHENYLACETATE, nontoxic differentiation inducer, can suppress growth of other NEUROECTODERMAL TUMORS, i.e., GLIOMAS, in laboratory models and HUMANS
——————————————————————
finding led us to explore efficacy of PHENYLACETATE and related aromatic fatty acids in MELANOMA
——————————————————————
PHENYLACETATE and PHENYLBUTYRATE found to a) induce selective cytostasis and maturation of cultured HUMAN MELANOMA CELLS, b) modulate expression of GENES implicated in TUMOR METATASIS (type IV collagenase and tissue inhibitor of metalloproteinases-2) and immunogenicity (HLA class I); and c) enhance efficacy of other agents of clinical interest
——————————————————————
in vitro ANTITUMOR activity observed with nontoxic, pharmacologic concentrations of PHENYLACETATE and PHENYLBUTYRATE, suggesting potential clinical use of drugs in treatment of MELANOMAS
� � � � � � � � � � � � � � � �
[11] 2/8/1995 (7/17/2006) PHENYLACETATE, a natural metabolite of phenylalanine which was originally described as a plant growth hormone, has recently gained attention as a possible differentiation inducer for a variety of HUMAN TUMOR CELL types
——————————————————————
Using the LA-N-5 cell line, we have determined that NaPA can stimulate the differentiation of neuroblastoma cells …
——————————————————————
NaPA and RA synergized in inducing differentiation, in that combination treatment resulted in cessation of cell growth along with morphologic and biochemical changes indicative of loss of malignant properties
� � � � � � � � � � � � � � � �
[12] 4/1995 (3/8/2013) PHENYLACETATE, an inducer of tumor cytostasis and differentiation, shows promise as relatively nontoxic antineoplastic agent
——————————————————————
PHENYLBUTYRATE, an odorless compound that also has activity in TUMOR models
� � � � � � � � � � � � � � � �
[13] 5/1995 Antineoplaston (Ap), new ANTITUMOR agent, clinically tested for effects on MALIGNANT BRAIN TUMORS
——————————————————————
1 – medulloblastoma
1 – pontine glioma
2 – anaplastic astrocytoma
2 – metastatic brain tumor
3 – glioblastoma (G,B)

——————————————————————
All underwent radiochemotherapy and surgical resection of tumors except:
1 – pontine glioma
2 – anaplastic astrocytoma
2 – metastatic brain tumor

——————————————————————
Complete Response:
1 – anaplastic astrocytoma
Partial Response:
1 – metastatic brain tumor
1 – pontine glioma
No change:
1 – anaplastic astrocytoma
1 – multiple brain metastasis
Progression of disease:
3 – glioblastomas
1 – medulloblastoma
showed continuous increase in tumor size

——————————————————————
Effects of Ap on malignant brain tumors considered due to synergy, since administered with other drugs and acceleration of tumor cellular differentiation
——————————————————————
Ap useful as approach to remission maintenance therapy for brain tumors
� � � � � � � � � � � � � � � �
[14] 6/15/1995 growth-inhibiting and differentiating effects of sodium PHENYLACETATE against hematopoietic and solid TUMOR CELL lines has aroused clinical interest in its use as an ANTICANCER drug
——————————————————————
1 – refractory malignant glioma had partial response
——————————————————————
1 – hormone-independent prostate cancer achieved 50% decline in prostate specific antigen level, maintained 1 month
——————————————————————
High grade GLIOMAS and advanced prostate cancer are reasonable targets for Phase II clinical trials
� � � � � � � � � � � � � � � �
[15] 7/1995 aromatic fatty acids phenylacetate (PA) and phenylbutyrate (PB) induce tumour cell differentiation in experimental models and currently in clinical trials
——————————————————————
close association between enhanced TGF-alpha production and melanoma cell differentiation suggests this growth factor, often linked to mitogenesis, may play a novel role in tumour differentiation by PA and PB
� � � � � � � � � � � � � � � �
[16] 9/27/1995 (7/17/2006) Alterations in expression of ras oncogenes are characteristic of wide variety of human neoplasms
——————————————————————
Accumulating evidence has linked elevated ras expression with disease progression and FAILURE of TUMORS to RESPOND to CONVENTIONAL THERAPIES, including radiotherapy and certain chemotherapies
——————————————————————
observations led us to investigate response of ras-transformed cells to differentiation-inducer PHENYLACETATE (PA)
——————————————————————
Using gene transfer models, we show PA caused cytostasis in ras-transformed mesenchymal cells, associated with increased expression of 2′,5′-oligoadenylate synthetase, an enzyme implicated in negative growth control
——————————————————————
PA also induced phenotypic reversion characterized by loss of anchorage-independent growth, reduced invasiveness and increased expression of collagen alpha type I, a marker of cell differentiation
——————————————————————
ANTI-TUMOR ACTIVITY of PA was observed in cases involving either Ha- or Ki-ras and was independent of mode of oncogene activation
——————————————————————
Interestingly, in contrast to their relative resistance to radiation and doxorubicin, ras-transformed cells were significantly more sensitive to PA than their parental cells
——————————————————————
profound changes in TUMOR CELL and molecular biology were associated with reduced isoprenylation of ras-encoded p21
——————————————————————
Our results indicate PA CAN SUPPRESS GROWTH of ras-transformed cells, resistant otherwise to free-radical based therapies, through interference with p21ras isoprenylation, critical to signal transduction and maintenance of MALIGNANT phenotype
� � � � � � � � � � � � � � � �
[17] 10/1995 investigated effects of a nontoxic differentiation inducer, PHENYLACETATE (PA), on NEUROECTODERMAL TUMOR-derived CELL lines
————————————————————
PHENYLACETATE decreased transforming growth factor (TGF)-beta 2 production by medulloblastoma Daoy cells
————————————————————
in vitro antiproliferative and differentiation inducing effects of PA suggest that this agent warrants further evaluation as a potential therapeutic modality for the treatment of MEDULLOBLASTOMAS and MALIGNANT GLIOMA in HUMANS
� � � � � � � � � � � � � � � �
[18] 10/12/1995 aromatic fatty acid PHENYLACETATE, a common metabolite of phenylalanine, shows promise as a relatively non-toxic drug for CANCER treatment
————————————————————
slowly metabolized fatty acid alters tumor cell lipid metabolism causing … inhibition of protein prenylation critical to MALIGNANT growth
————————————————————
data suggest PHENYLACETATE and analogues may act through common mechanisms to INHIBIT GROWTH of vastly divergent, undifferentiated CELL types, and provide basis for development of new agents for treatment of HUMAN MALIGNANCIES
� � � � � � � � � � � � � � � �
[19] 1995 Antineoplastons, firstly described by Burzynski, are naturally occurring peptides and amino acid derivatives which CONTROL NEOPLASTIC GROWTH
——————————————————————
toxicological study of Antineoplastons A-10 and AS2-1 in combination with other anticancer agents or radiation in 42 patients
46 tumors with terminal stage cancer
——————————————————————
Antineoplaston A-10 oral formulation
14 – patients
A-10 injectable formulation
25 – patients

——————————————————————
Antineoplaston AS2-1 oral formulation
33 – patients
AS2-1 injectable formulation
10 – patients

——————————————————————
Major adverse effects that may have been related to agents used in combination with other conventional chemotherapeutic agents or radiation:
liver dysfunction
myelosuppression
general weakness
these effects weren’t seen when either Antineoplaston was administered alone

——————————————————————
Minor adverse effects observed in single use of either Antineoplaston A-10 or AS2-1:
reduced albumin
increased alkaline phosphatase
increased amylase
reduced cholesterol
peripheral edema
eosinophilia
fingers rigidity
excess gas
headache
hypertension
maculopapullar rash
palpitation
adverse effects didn’t limit to continuation of either agent

——————————————————————
Evaluation of usefulness of Antineoplastons in combination therapy based on imaging findings during course of treatment revealed DISAPPEARANCE or MEASUREABLE SHRINKAGE of TUMOR lasting more than one months:
15 tumors / 32.6%
——————————————————————
No increase in size of tumor for more than 3 months:
8 / 17.4%

——————————————————————
Mean survival time of patients SIGNIFICANTLY LONGER than patients with tumors showing progressive increasing
——————————————————————
Antineoplaston A-10 and AS2-1 LESS TOXIC than conventional chemotherapeutics and useful in maintenance therapy for CANCER patients
� � � � � � � � � � � � � � � �
[20] 2/1996 (11/23/2002)
sodium salt of PHENYLACETATE acid (NaPA) … acted synergistically with lovastatin to SUPPRESS MALIGNANT GROWTH

————————————————————
used at pharmacologically attainable concentrations … compounds induced profound cytostasis and LOSS of MALIGNANT PROPERTIES
————————————————————
results indicate targeting lipid metabolism with … aromatic fatty acid NaPA, may offer novel approach to treatment of MALIGNANT GLIOMAS
� � � � � � � � � � � � � � � �
[21] 5/1996 recently investigated as ANTICANCER AGENT because decreased growth and increased differentiation of variety of human NEOPLASMS, including PROSTATE CANCER in which a phase I trial has recently been completed
————————————————————
PA’s GROWTH-INHIBITORY effects on a variety of cell lines
————————————————————
PA MARKEDLY DECREASED rat PROSTATIC GROWTH and ductal morphogenesis at concentrations that have previously been well tolerated in patients
————————————————————
Synthesis of DNA also significantly decreased per organ with PA
————————————————————
In common with earlier studies, we found PA INHIBITS PROSTATIC GROWTH
————————————————————
studies indicate there may be role for PA in treating BPH or elucidating mechanisms
� � � � � � � � � � � � � � � �
[22] 1996
Antineoplastons, first described by Burzynski, are naturally occurring peptides and amino acid derivatives which CONTROL NEOPLASTIC GROWTH

——————————————————————
These metabolites are water soluble and have ANTITUMOR EFFECT, they are further degraded to PHENYLACETIC acid
——————————————————————
Mixture of PHENYLACETYLGLUTAMINE and PHENYLACETIC acid in ratio of 1 to 4 shown to have ANTITUMOR EFFECT in tissue culture study, then formulated as Antineoplaston AS2-1
——————————————————————
reported CYTOSTATIC INHIBITORY EFFECT of A10 on HUMAN HEPATOCELLULAR CARCINOMA CELLS and differentiation inducing effect of AS2-1 on various TUMOR CELLS suggest potential benefit for treatment of HUMAN HEPATOCELLULAR CARCINOMA since TUMOR recurs frequently despite initial successful treatment
——————————————————————
We report effects of Antineoplaston A10 and AS2-1 on cell proliferation, cell morphology, cell cycle, and DNA in human hepatocellular carcinoma cell lines
——————————————————————
BOTH AGENTS INHIBITED CELL PROLIFERATION and increased number of cells in G0 and G1 phases and Antineoplaston AS2-1 induced APOPTOSIS
——————————————————————
clinical experience of HEPATOCELLULAR CARCINOMA (HCC) patient whose TUMOR, after incomplete trancathere arterial embolization (TAE) for a 7cm 7cm HCC, has been stable for more than 15 months during which time he has been taking Antineoplaston AS2-1 continuously WITHOUT ANY SERIOUS ADVERSE EFFECTS
� � � � � � � � � � � � � � � �
[23] 8/23/1996 aromatic fatty acid PHENYLACETATE and analogs INDUCE TUMOR CYTOSTASIS and differentiation in experimental models
————————————————————
studies using HUMAN PROSTATIC CARCINOMA, MELANOMA, and GLIOBLASTOMA cell lines showed a tight correlation between drug-induced cytostasis …
————————————————————
results identify PHENYLACETATE and analogs as new class of aromatic fatty acids capable of activating hPPAR, and suggest nuclear receptor may mediate TUMOR cytostasis induced by these drugs
� � � � � � � � � � � � � � � �
[24] 9/1996 We examined hypothesis this postulate may not apply to evaluation of drugs such as PHENYLACETATE, a differentiating agent endowed with mechanisms of action different from those of classic cytotoxic chemotherapy
————————————————————
Using HUMAN PROSTATIC CARCINOMA LNCaP cells as model, we show PHENYLACETATE induces PSA production despite inhibition of TUMOR CELL proliferation

� � � � � � � � � � � � � � � �
[25] 12/1996 PHENYLACETATE (PA) and related aromatic fatty acids constitute novel class of relatively nontoxic antineoplastic agents
————————————————————
Using human breast carcinoma MCF-7 cells as model, we show PA-induced growth arrest associated with enhanced expression of cyclin-dependent kinase inhibitor p21Waf1/Cip1 …
————————————————————
induction of p21WAF1/CIP1 mRNA by PA independent of cellular p53 status
————————————————————
PA effectively induced p21WAF1/CIP1 mRNA and growth inhibition of wild-type mouse embryonal fibroblasts
————————————————————
findings strongly support role for p21Waf1/Cip1 in PA-mediated inhibition of cell growth
� � � � � � � � � � � � � � � �
[26] 1996 Cytotoxic chemotherapies often give rise to multidrug resistance, which remains major problem in CANCER management
————————————————————
In pursuit of alternative treatments for chemoresistant TUMOR CELLS, we tested response of multidrug-resistant (MDR) TUMOR CELL lines to aromatic fatty acids PHENYLACETATE (PA) and PHENYLBUTYRATE (PB), 2 differentiation inducers currently in clinical trials
————————————————————
Both compounds induced cytostasis and maturation of multidrug-resistant BREAST, OVARIAN, and COLON CARCINOMA CELLS with no significant effect on cell viability
————————————————————
MDR cells generally more sensitive to GROWTH ARREST by PA and PB than parental counterparts
————————————————————
PA and PB potentiated the cytotoxic activity of doxorubicin against MDR cells
————————————————————
Taken together, our in vitro data indicate PA and PB, differentiation inducers of aromatic fatty acid class, may provide alternative approach to treatment of MDR TUMORS
� � � � � � � � � � � � � � � �
[27] 8/1997 aromatic fatty acids PHENYLACETATE (PA) and PHENYLBUTYRATE (PB) are novel ANTITUMOR AGENTS currently under clinical evaluation
————————————————————
ability to induce TUMOR differentiation in laboratory models and low clinical toxicity profile makes them promising candidates for COMBINATION with CONVENTIONAL THERAPIES
————————————————————
In present studies, we characterized interactions between aromatic fatty acids and radiation, using as a model cell lines derived from CANCERS of PROSTATE, BREAST, BRAIN and COLON
————————————————————
in vitro findings identify aromatic fatty acids PA and PB as new class of non-toxic modulators of radiation response, antagonistic effect of these compounds on radiation response needs further examination
————————————————————
data strongly suggest that for PA or PB to have role in clinical radiotherapy, appropriate scheduling of combination therapies must take into account time-dependent effects in order to achieve clinical radiosensitization
� � � � � � � � � � � � � � � �
[28] 11-12/1997 Antineoplaston AS2-1 EXHIBITS CYTOSTATIC GROWTH INHIBITION of human hepatocellular carcinoma cells in vitro and showed minimum adverse effects in phase I clinical trial
——————————————————————
2 clinical cases of liver cancer (hepatocellular carcinoma and multiple liver metastases from colon cancer) in whom we believe antineoplaston A2-1 useful as maintenance therapy after transcatheter arterial embolization (TAE) and microwave coagulation necrosis (MCN)
——————————————————————
2 patients have continued to be in good condition for more than 2 years without limitation of normal activities
——————————————————————
Antineoplaston AS2-1 may be effective and useful as maintenance agent after TAE and MCN in patients with liver cancer
� � � � � � � � � � � � � � � �
[29] 1997 PHENYLACETATE and analogs represent new class of pleiotropic growth regulators that alter TUMOR CELL biology by affecting GENE EXPRESSION at both transcriptional and post transcriptional levels
————————————————————
Based on findings, NaPA and NaPB entered clinical trials at NATIONAL CANCER INSTITUTE
————————————————————
Ongoing phase I studies with NaPA, involving adults with PROSTATE and BRAIN CANCER, confirmed therapeutic levels can be achieved with no significant toxicities, and provide preliminary evidence for benefit to patients with advanced disease (Thibault et al., submitted)
� � � � � � � � � � � � � � � �
[30] 5 – 6/1998 Antineoplastons A10 and AS2-1 EXHIBIT GROWTH INHIBITION OF CANCER CELLS by diverse modes of action
——————————————————————
Observed ANTITUMOR RESPONSES within 2-3 weeks of combination treatment of chemoradiation therapy and antineoplastons A10 and AS2-1 in phase I clinical study conducted in Kurume University Hospital
——————————————————————
Reviewed 3 clinical cases of advanced cancer (multiple metastatic lung cancer, thalamic glioma and primary lung cancer) in which we believed antineoplaston A10 and AS2-1 may be contributing to RAPID ANTITUMOR RESPONSE
——————————————————————
Possible use of this combination for induction therapy in advanced cancer
� � � � � � � � � � � � � � � �
[31] 11-12/1998 Antineoplaston A10 injection (antineoplaston A10 I) exhibited CYSTOSTATIC GROWTH INHIBITION OF HUMAN HEPATOCELLULAR CARCINOMA (HCC) CELLS in vitro and showed minimum adverse effects in phase I clinical trial
——————————————————————
2 cases of advanced HCC treated with antineoplaston A10 I
——————————————————————
Both cases showed interesting responses to antineoplaston A10 I
——————————————————————
One showed massive coagulation necrosis of tumors after intra-arterial infusion of antineoplaston A10 I and other showed RESOLUTION of portal vein TUMOR thrombosis with systemic infusion of antineoplaston A10 I
——————————————————————
Usefulness of anti-neoplaston A10 I in terminal staged HCC is discussed
� � � � � � � � � � � � � � � �
[32] 3/1999 determine response rate, time to treatment failure, and toxicity of phenylacetate in patients with recurrent malignant glioma …
————————————————————
Adult patients
————————————————————
43 – enrolled 12/1994-12/ 1996
40 – assessable
————————————————————
Reversible symptoms
————————————————————
fatigue
somnolence
were primary toxicities
————————————————————
only mild hematologic toxicity
————————————————————
30 / 75% – failed treatment within 2 months
————————————————————
7 / 17.5% – stable disease
————————————————————
3 – 7.5% – response defined as more than 50% reduction in tumor
————————————————————
Median time to treatment failure
————————————————————
2 months
————————————————————
35 – died
————————————————————
median survival
————————————————————
8 months
————————————————————
PHENYLACETATE HAS LITTLE ACTIVITY at this dose schedule in PATIENTS with RECURRENT MALIGNANT GLIOMA
————————————————————
Further studies with drug would necessitate evaluation of different dose schedule
� � � � � � � � � � � � � � � �
[33] 7/3/2000 Antineoplastons first described by Burzynski are naturally occurring peptides and amino acid derivatives, which CONTROL NEOPLASTIC GROWTH
——————————————————————
data suggest strong inverse association of urinary antineoplaston A-10 level with breast cancer
————————————————————
finding was stimulus for further investigations of antineoplaston A-10 levels in some benign as well as other malignant diseases to determine utility of approach as predictive test for women at risk of developing breast cancer
� � � � � � � � � � � � � � � �
[34] 8/31/2000 Antineoplastons are naturally occurring CYTODIFFERENTIATING AGENTS
—————————————————————
Findings confirm presence of immune defects among patients with breast cancer and results should stimulate development of new strategies to induce and augment immunity for treatment of breast cancer
—————————————————————
Antineoplaston A-10 may provide rational basis for designing trials to employ its immune modulatory potentials as adjuvant therapy in breast cancer patients
� � � � � � � � � � � � � � � �
[35] 12/2000 4 new piperidinedione A10 analogs synthesized and tested for antimitotic activity on human breast cancer cell line against prototype A10 and antibreast cancer drug tamoxifen
—————————————————————
“3B” and “3D” were several-fold more potent ANTIPROLIFERATIVE AGENTS than A10 and tamoxifen and had significantly higher capacity to bind DNA than A10
� � � � � � � � � � � � � � � �
[36] 8/2001 No partial remission or complete remission was seen, but 7 patients had stable disease for more than 6 months while on drug
————————————————————
PB may have role as cytostatic agent and should be additionally explored in combination with cytotoxics and other novel drugs
� � � � � � � � � � � � � � � �
[37] 2002 p53 tumor suppressor gene plays important role in protecting cells from developing undesirable proliferation
——————————————————————
Mutant p53 gene or malfunctioning p53 protein found in more than 50% of cancer cells impedes DNA repair or apoptosis induction
——————————————————————
May be why some cancers gain resistance to chemotherapy and radiation and become more resistant after frequent cancer treatments
——————————————————————
non-toxic p53 gene activator would induce cancer cell apoptosis and help damaged cancer cells to recover
——————————————————————
combination use of chemotherapeutics or radiation with non-toxic p53 gene activator will be crucial in cancer therapy, damaging DNA with chemotherapeutics or radiation on one hand and promoting apoptosis induction with p53 gene activator on the other
——————————————————————
Strategy would be most efficient for remission induction and maintenance CANCER therapy
——————————————————————
Antineoplastons are naturally occurring peptides and amino acid derivatives that CONTROL NEOPLASTIC GROWTH
——————————————————————
Antineoplaston A10 and AS2-1 are chemically identified and synthesized antineoplastons PROVEN TO INHIBIT CANCER CELL GROWTH by arresting cell cycle in G1 phase and INHIBITING TUMOR GROWTH by reducing mitosis
——————————————————————
Agents thought to be good candidates for clinically easily applicable non-toxic p53 gene activators
——————————————————————
CASES OF ADVANCED CANCER RESPONDED WELL to combination treatment using chemotherapeutics and irradiation with antineoplaston A10 and AS2-1 in clinical trials being conducted in Kurume University Hospital
� � � � � � � � � � � � � � � �
[38] 3 – 4/2003 Phase II clinical trail to clarify whether antineoplaston AS2-1, mixture of sodium salts of PHENYLACETYLGLUTAMINE and PHENYLACETIC acid at ratio of 1:4, prolongs recurrence-free interval of HCC patients who undergo frequent treatments for recurrence
——————————————————————
10 patients enrolled in trial
2 in stage I
6 in stage II
1 in stage III
1 in stage IV-B
at initial diagnosis

——————————————————————
10 / 100% – experienced 35 recurrence-free intervals
——————————————————————
Recurrence-free intervals during antineoplaston AS2-1 administration SIGNIFICANTLY LONGER than without
——————————————————————
Patients who experienced recurrence-free intervals with and without antineoplaston AS2-1 SHOWED LONGER INTERVALS during antineoplaston AS2-1 administration
——————————————————————
2 patients in stage I showed LONGER RECURRENCE-FREE INTERVALS than those in more advanced stages
——————————————————————
Antineoplastons AS2-1 couldn’t prevent recurrence of HCC but PROLONGED RECURRENCE-FREE INTERVAL between regional treatments and IMPROVED SURVIVAL RATE OF PATIENTS
� � � � � � � � � � � � � � � �
[39] 2003 Case of survival for nearly 8 years after treatment of unresectable multiple liver metastases from colon cancer, using microwave ablation and NONTOXIC ANTITUMOR AGENT, antineoplastons
——————————————————————
72-year-old man diagnosed with adenocarcinoma of ascending colon and 14 bilateral liver metastases underwent right hemicolectomy combined with microwave ablation of 6 metastatic liver tumors
——————————————————————
Antineoplaston A10 given intravenously, followed by oral antineoplaston AS2-1
——————————————————————
Computed tomography scans done 1 and 4 years after initial diagnosis showed recurrent tumors
——————————————————————
Patient underwent 2nd and 3rd microwave ablation of recurrent tumors, and has survived for nearly 8 years WITHOUT SUFFERING ANY SERIOUS ADVERSE EFFECTS
——————————————————————
Currently FREE FROM CANCER
——————————————————————
Demonstrates potential effectiveness of NONTOXIC ANTITUMOR AGENT, antineoplastons, for controlling liver metastases from colon cancer
� � � � � � � � � � � � � � � �
======================================
Burzynski has made it clear that PHENYLACETATE, by itself, does NOT achieve the results of antineoplastons (PHENYLACETATE, PHENYLGLUTAMINATE, PHENYLACETYLISOGLUTIMINATE, PHENYLBUTYRATE)
======================================
� � � � � � � � � � � � � � � �
======================================
[40] 2003
——————————————————————
Pg. 92
——————————————————————
Antineoplaston A10 and AS2-1 are synthetic derivatives of phenylacetate (PN) acid, glutamine and isoglutamine
——————————————————————
A10 is sterile solution of sodium phenylacetylisoglutiminate (isoPG) in 4 : 1 ratio
——————————————————————
Antineoplaston AS2-1 is sterile solution of sodium phenylacetate (PN) and phenylacetylglutaminate (PG) in 4 : 1 ratio
——————————————————————
Pg. 93
======================================
combination of antineoplaston A10 and AS2-1 used instead of single drugs
——————————————————————
Based on previous observations, combination treatment has provided better results than single drugs
——————————————————————
Pg. 97
——————————————————————
active ingredient of antineoplaston AS2-1 is PHENYLACETATE,
——————————————————————
Pg. 98
——————————————————————
known to modulate expression of ras oncogenes and tumor suppressor gene p53
——————————————————————
ras oncogene protein p21ras
——————————————————————
farneslyation of p21ras, which is inhibited by antineoplaston AS2-1
——————————————————————
Antineoplaston AS2-1 also activates p53 gene
——————————————————————
protein p53 activates p21 gene, which directs synthesis of p21WAF1/Cip1 protein
——————————————————————
Induction of p21WAF1/Cip1 suppresses human glioma cell proliferation
——————————————————————
proposed mechanism of action of 2 ingredients of antineoplaston A10, sodium phenylacetylglutamine (PG) and sodium phenylacetylisoglutimine (IsoPG), is inhibition of glutamine incorporation into proteins of neoplastic cells
——————————————————————
Antineoplaston A10 has demonstrated 5 effects related to therapeutic indication in patients with brain tumors: cytostatic, antimitogenic, antiproliferative and inhibitory effects, and differentiation of tumors
——————————————————————
[22-25]
——————————————————————
Initial clinical studies with antineoplaston therapy included testing of separate ingredients phenylacetate (PN) (antineoplaston AS5) and phenylacetylglutaminate (PG) (antineoplaston AS2-5)
——————————————————————
[26-28]
——————————————————————
studies failed to show marked anticancer activity of phenylacetate (PN) in malignant glioma, confirmed by phase II study by North
——————————————————————
Pg. 99
——————————————————————
American Brain Tumor Consortium
——————————————————————
[29]
——————————————————————
Based on results, further studies of phenylacetate (PN) as single agent in patients with malignant glioma were not recommended
——————————————————————
subsequent study by Buckner et al.
——————————————————————
[30]
——————————————————————
confirmed conclusion because patients receiving antineoplaston AS2-1 didn’t respond to treatment
——————————————————————
main difference between Buckner’s study is dosage of antineoplaston A10, which was approximately 50 times lower in Buckner’s study
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[31]
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2 patients who participated in our study (cases 3 and 8) developed recurrence on lower dosages of antineoplaston A10, but responded again with Complete Response (CR) when dosage of antineoplaston A10 was increased
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In these 2 patients, antineoplaston AS2-1 didn’t seem to have effect on 2nd response, which suggests antineoplaston A10 rather than antineoplaston AS2-1 is main active drug
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[41] 8/2005 Antineoplastons such as A10 include naturally occurring peptides and amino acid derivatives that CONTROL NEOPLASTIC GROWTH OF CELLS
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Findings indicate antineoplaston A10 ANTITUMOR EFFECT could be utilized as effective therapy for breast cancer patients
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[42] 2006 Antineoplastons, first described by Burzynski, are naturally occurring peptides and amino acid derivatives which CONTROL NEOPLASTIC GROWTH
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Antineoplaston A10 (3-pehnylacetylamino-2,6-piperidinedion) is first chemically identified antineoplastons and when administered orally is hydrolysed in pancreatic juice to PHENYLACETYLGLUTAMINE and PHENYLACETYLISOGLUTAMINE in ration of 4 to 1
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These metabolites are water soluble and have ANTITUMOR EFFECT, are further degraded to PHENYLACETIC acid
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Mixture of PHENYLACETYLGLUTAMINE and PHENYLACETYLISOGLUTAMINE in ratio of 4 to 1 formulated as Antineoplaston A10 injectable formulation
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Mixture of PHENYLACETYLGLUTAMINE and PHENYLACETIC acid in ratio of 1 to 4 also shown to have ANTITUMOR EFFECT in tissue culture study, then formulated as Antineoplaston AS2-1
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Reported CYTOSTATIC INHIBITORY EFFECT of A10 on HUMAN HEPATOCELLULAR CARCINOMA CELLS and differentiation inducing effect of AS2-1 on various TUMOR CELLS suggest potential benefit for treatment of HUMAN HEPATOCELLULAR CARCINOMA since this TUMOR recurs frequently despite initial successful treatment
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BOTH AGENTS INHIBITED CELL PROLIFERATION and increased number of cells in G0 and G1 phases and Antineoplaston AS2-1 induced apoptosis, we also describe clinical experience of hepatocellula carcinoma (HCC) patient whose tumor, after incomplete trancathere arterial embolization (TAE) for 7cm 7cm HCC, has been stable for more than 15 months during which time he has been taking Antineoplaston AS2-1 continuously WITHOUT ANY SERIOUS ADVERSE EFFECTS
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[43] 1/2008 Novel mechanism through which all-trans retinoic acid (ATRA) and antineoplaston, ANTICANCER DRUG, CAUSED CELL GROWTH INHIBITION IN BREAST CANCER CELLS through effects on intracellular pathways
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Antineoplaston caused down-regulation of PKCalpha protein expression, resulting in INHIBITION of ERK MAPK phosphorylation, with resultant INHIBITION of Rb phosphorylation leading to G(1) arrest
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[44] 10/1/2010 As degradation product of Antineoplaston A10 in vivo, PHENYLACETYL GLUTAMINE showed ANTITUMOR ACTIVITIES
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Designed and radiosynthesized PHENYLACETYL GLUTAMINE derivative, achieved under mild reaction condition
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radiochemical purity of (S)-2-((S)-2-(4-(3-fluoropropyl)benzamido)-3-phenylpropanamido)pentanedioic acid ([18F]FBPPA) was 98%, and best radiochemical yield was up to 46%
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results revealed it might become potential PET imaging agent for DETECTING TUMORS
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References:
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Neish, W. J. P. Phenylacetic acid as a potential therapeutic agent for the treatment of HUMAN CANCER. Experientia (Basel), 27: 860-861, 1971
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[2] 1976
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Biological active peptides in human urine: III. Inhibitors of the growth of human leukemia, osteosarcoma, and HeLa cells
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S R Burzynski, …
Physiol Chem Phys 8(1):13-22 (1976), PMID .1066715
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[3] 1990
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BURZYNSKI, S. R., Kubove E., Burzynski, B. Treatment of hormonally refractory CANCER of the prostate with ANTINEOPLASTON AS2-1. Drugs Exp. Clin. Res., 16: 361-369, 1990
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[4] 4/1/1992
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SAMID, D., Shack, S., and Sherman, l.. T.
http://www.ncbi.nlm.nih.gov/pubmed/1372534/
Cancer Res., 52: 1988-1992, 1992
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Clinical Pharmacology Branch, National Cancer Institute, Bethesda, Maryland
http://m.cancerres.aacrjournals.org/content/52/7/1988.full.pdf#page=1
SAMID D, Shack S, Ti-Sherman L PHENYLACETATE-A novel nontoxic inducer of TUMOR CELL differentiation. Cancer Res 52:1988, 1992
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[5] 9/15/1992
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SAMID, D., Yeh, A., and Prasanna, P. Induction of erythroid differentiation and fetal
hemoglobin production in HUMAN leukemic cells treated with PHENYLACETATE. Blood, 80: 1576-81, 1992
http://www.ncbi.nlm.nih.gov/pubmed/1381630/
SAMID D, Yen A, Prasanna P . Induction of erythroid differentiation and fetal hemoglobin production in HUMAN leukemic cells treated with PHENYLACETATE . Blood. 1992;80:1576
http://www.ncbi.nlm.nih.gov/m/pubmed/1381630/
Blood, 80: 1576-1581, 1992
http://m.bloodjournal.hematologylibrary.org/content/80/6/1576.abstract
Blood. 1992 Sep 15;80(6):1576-81
http://m.bloodjournal.hematologylibrary.org/content/80/6/1576.full.pdf
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, MD
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[6] 5/1993
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SAMID D, Shack S , Myers CE . Selective growth arrest and phenotypic reversion of prostate CANCER CELLS in vitro by nontoxic pharmacological concentrations of PHENYLACETATE . J. Clin. Invest . 1993;91:2288
http://www.ncbi.nlm.nih.gov/pubmed/8486788/
J Clin Invest. 1993 May;91(5):2288-95
http://www.ncbi.nlm.nih.gov/m/pubmed/8486788/
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, Maryland
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC288233/

http://m.jci.org/articles/view/116457
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[7] 2/15/1994
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SAMID, D., Ram, Z., Hudgins, W. R., Shack, S., Liu, L., Waibridge, S., Oldfield, E. H., and Myers, C. E. Selective activity of PHENYLACETATE against MALIGNANT GLIOMAS: resemblance to fetal brain damage in phenylketonuria. Cancer Res., 54: 891-895, 1993
http://www.ncbi.nlm.nih.gov/pubmed/8313377/
Cancer Res. 1994 Feb 15;54(4):891-5
http://www.ncbi.nlm.nih.gov/m/pubmed/8313377/
Clinical Pharmacology Branch, National Cancer Institute, National Institutes of Health, Bethesda, Maryland
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[8] 4/1/1994
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A phase I and pharmacokinetic study of intravenous PHENYLACETATE in PATIENTS with CANCER
http://www.ncbi.nlm.nih.gov/pubmed/8137283/
Cancer Res 54(7):1690-4 (1994), PMID.8137283
http://www.ncbi.nlm.nih.gov/m/pubmed/8137283
Cancer Res April 1, 1994 54:1690
http://cancerres.aacrjournals.org/content/54/7/1690
Cancer Res. 1994 Apr 1;54(7):1690-4.
http://m.cancerres.aacrjournals.org/content/54/7/1690.abstract
Cancer Res . 1994;54:
http://cancerres.aacrjournals.org/content/54/7/1690
Clinical Pharmacology Branch, National Cancer Institute, NIH, Bethesda, Maryland
http://m.cancerres.aacrjournals.org/content/54/7/1690.full.pdf
A A Thibault, …, D D SAMID et al.
http://cancerres.aacrjournals.org/content/54/7/1690.full.pdf?sid=78d246d7-a4ee-4980-bdaf-b299dc98cbe8
Thibault A, Cooper MR, Figg WD, Venzon DJ, Sartor O, Tompkins AE, et al. (SAMID D)
↵1 This study was supported in part by a grant from Elan Pharmaceutical Research Co.
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[9] 6/1/1994
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Growth inhibition, TUMOR maturation, and extended survival in experimental BRAIN TUMORS in rats treated with PHENYLACETATE.
http://www.ncbi.nlm.nih.gov/pubmed/8187079/
Ram Z, SAMID D, Walbridge S, et al:
http://www.ncbi.nlm.nih.gov/m/pubmed/8187079/
Cancer Res 54:2934-2927, 1994
http://m.cancerres.aacrjournals.org/content/54/11/2934.abstract?ijkey=03bc67e581ef77536842806b949046916458d548&keytype2=tf_ipsecsha
Cancer Res. 1994 Jun 1;54(11):2923-7.
http://m.cancerres.aacrjournals.org/content/54/11/2923.abstract
Surgical Neurology Branch, National Institute of Neurological Disorders and Stroke, NIH, Bethesda, Maryland
http://m.cancerres.aacrjournals.org/content/54/11/2923.full.pdf
Cancer Res. 1994 Jun 1;54(11):2923-7
http://cancerres.aacrjournals.org/content/54/11/2923
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[10] 1994
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Liu L , Shack S , Stetler-Stevenson WG , Hudgins WR , SAMID D . Differentiation of cultured HUMAN MELANOMA CELLS induced by the aromatic fatty acids PHENYLACETATE and PHENYLBUTYRATE . J. Invest. Dermatol . 1994;103:335
http://www.ncbi.nlm.nih.gov/pubmed/8077698/
J Invest Dermatol. 1994 Sep;103(3):335-40
http://www.ncbi.nlm.nih.gov/m/pubmed/8077698/
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, Maryland
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[11] 2/8/1995
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PHENYLACETATE synergizes with retinoic acid in inducing the differentiation of human neuroblastoma cells.
http://www.ncbi.nlm.nih.gov/pubmed/7829265/
Int J Cancer. 1995 Feb 8;60(4):507-14
http://www.ncbi.nlm.nih.gov/m/pubmed/7829265/
Department of Pathology and Laboratory Medicine (Neuropathology), UCLA School of Medicine
http://onlinelibrary.wiley.com/doi/10.1002/ijc.2910600414/abstract
Int J Cancer 60:507-514, 1995
Int J Cancer. 1995 Feb 8;60(4):507-14.
International Journal of Cancer
Volume 60, Issue 4, pages 507–514, 8 February 1995
Article first published online: 17 JUL 2006
DOI: 10.1002/ijc.2910600414
Sidell N, Wada R, Han G, et al: (SAMID D)
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[12] 4/1995
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Disposition of PHENYLBUTYRATE and its metabolites, PHENYLACETATE and PHENYLACETYLGLUTAMINE.
J Clin Pharmacol 35:368-373, 1995 Abstract
http://www.ncbi.nlm.nih.gov/pubmed/7650225/
J Clin Pharmacol 35:368-373, 1995 Abstract
http://www.ncbi.nlm.nih.gov/m/pubmed/7650225/
The Journal of Clinical Pharmacology
Volume 35, Issue 4, pages 368–373, April 1995
http://m.jcp.sagepub.com/content/35/4/368.abstract?ijkey=74bff0d86ce76b404728762fe2a1bfde1641fa41&keytype2=tf_ipsecsha
J Clin Pharmacol. 1995 Apr;35(4):368-73
http://onlinelibrary.wiley.com/doi/10.1002/j.1552-4604.1995.tb04075.x/abstract;jsessionid=DFDEF1599D764E2845EC2897269C198B.d01t01
Article first published online: 8 MAR 2013
http://jcp.sagepub.com/content/35/4/368
Piscitelli SC, Thibault A, Figg WD, et al: (SAMID D)
DOI: 10.1002/j.1552-4604.1995.tb04075.x
Pharmacy Department, National Institutes of Health, Bethesda, Maryland, USA
http://m.jcp.sagepub.com/content/35/4/368.abstract?ijkey=74bff0d86ce76b404728762fe2a1bfde1641fa41&keytype2=tf_ipsecsha
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[13] 5/1995
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The effect of Antineoplaston, a new ANTITUMOR AGENT on MALIGNANT BRAIN TUMORS
http://www.ncbi.nlm.nih.gov/pubmed/7474850
Kurume Med J. 1995;42(3):133-40
http://www.ncbi.nlm.nih.gov/m/pubmed/7474850
Department of Neurosurgery, Kurume University School of Medicine, Japan
http://www.jstage.jst.go.jp/article/kurumemedj1954/42/3/42_3_133/_article
Tsuda H (Japan)
http://www.jstage.jst.go.jp/article/kurumemedj1954/42/3/42_3_133/_article/references
Burzynski References: 1 – 2 and 4
SAMID Reference: 7 (who learned from Burzynski re PHENYLACETATE)
Lee (Japan) A-10 Reference: 3
Nishidi (Japan) A-10 Reference: 6
http://www.jstage.jst.go.jp/article/kurumemedj1954/42/3/42_3_133/_pdf
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[14] 6/15/1995
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Phase I study of PHENYLACETATE administered twice daily to PATIENTS with CANCER. Cancer 75:2932-8, 1995
http://www.ncbi.nlm.nih.gov/pubmed/7773944/
Cancer 75(12):2932-8 (1995), PMID.7773944
http://www.ncbi.nlm.nih.gov/m/pubmed/7773944
A A Thibault, D D SAMID, … C E CE Myers
Cancer. 1995 Jun 15;75(12):2932-8
Clinical Pharmacology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD, USA
Thibault A, SAMID D, Cooper MR, et al:
Thibault, A., SAMID, D., Cooper, M. A., Figg, W. 0., Tompkins, A. C., Patronas, N., Headlea, 0. J., Kohler, 0. A., Venzon, 0. J., and Myers, C. E. Cancer (Phila.), 75: 2932-2938, 1995.
http://onlinelibrary.wiley.com/doi/10.1002/1097-0142(19950615)75:12%3C2932::AID-CNCR2820751221%3E3.0.CO;2-P/abstract
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[15] 7/1995
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Transcriptional upregulation of TGF-α by PHENYLACETATE and PHENYLBUTYRATE is associated with differentiation of HUMAN MELANOMA CELLS
http://www.ncbi.nlm.nih.gov/pubmed/7578983/
Liu L., Hudgins W. R., Miller A. C., Chen L. C., SAMID D.
http://www.sciencedirect.com/science/article/pii/S1043466685700610
Cytokine, 7: 449-456, 1995.
Cytokine Volume 7, Issue 5, July 1995, Pages 449–456
Cytokine. 1995 Jul;7(5):449-56.
a Clinical Pharmacology Branch, National Cancer Institute, Armed Forces of Radiation Research Institute, Bethesda, Maryland, USA
b Radiation Biochemistry Department, Armed Forces of Radiation Research Institute, Bethesda, Maryland, USA
http://dx.doi.org/10.1006/cyto.1995.0061
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[16] 9/27/1995
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Increased susceptibility of ras-transformed cells to PHENYLACETATE is associated with inhibition of p21ras isoprenylation and phenotypic reversion. Int J Cancer 63:124-129, 1995
http://www.ncbi.nlm.nih.gov/pubmed/7558439/
Int J Cancer. 1995 Sep 27;63(1):124-9
http://www.ncbi.nlm.nih.gov/m/pubmed/7558439/
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, MD, USA
http://onlinelibrary.wiley.com/doi/10.1002/ijc.2910630122/abstract
Int J Cancer 63:124-129, 1995
Int J Cancer. 1995 Sep 27;63(1):124-9.
http://onlinelibrary.wiley.com/doi/10.1002/ijc.2910630122/references
International Journal of Cancer
Volume 63, Issue 1, Article first published online: 17 JUL 2006
DOI: 10.1002/ijc.2910630122
Shack S, Chen L-C, Miller AC, et al: (SAMID D)
http://onlinelibrary.wiley.com/doi/10.1002/ijc.2910630122/abstract
Shack, S., Chen, L-C., Miller, A. C., Danesi, A., and SAMID, D. Int. J. Cancer, 63: 124-129, 1995
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[17] 10/1995
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Stockhammer G, Manley GT, Johnson R, et al: (SAMID D) Inhibition of proliferation and induction of differentiation in medulloblastoma and astrocytoma-derived cell lines with PHENYLACETATE. J Neurosurg 83:672-681, 1995
http://www.ncbi.nlm.nih.gov/pubmed/7674018/
J Neurosurg. 1995 Oct;83(4):672-81
http://www.ncbi.nlm.nih.gov/m/pubmed/7674018/
Cotzias Laboratory of Neuro-Oncology, Memorial Sloan-Kettering Cancer Center, New York, New York, USA
http://thejns.org/doi/abs/10.3171/jns.1995.83.4.0672?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%3dpubmed&amp;
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[18] 10/12/1995
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Cytostatic activity of PHENYLACETATE and derivatives against TUMOR CELLS:
Correlation with lipophilicity and inhibition of protein prenylation.
http://www.ncbi.nlm.nih.gov/pubmed/7488244/
Biochem Pharmacol. 1995 Oct 12;50(8):1273-9
http://www.ncbi.nlm.nih.gov/m/pubmed/7488244/
Biochem Pharmacol 50:1273-1279, 1995
http://www.sciencedirect.com/science/article/pii/0006295295020133
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, MD, USA
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[19] 1995
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Toxicological study on antineoplastons A-10 and AS2-1 in cancer patients
Kurume Med J. 1995;42(4):241-9
http://www.ncbi.nlm.nih.gov/pubmed/8667595
Tsuda H
Department of Anesthesiology, Kurume University School of Medicine, Japan
http://www.ncbi.nlm.nih.gov/m/pubmed/8667595
Burzynski References: 1 – 3 and 5
http://www.jstage.jst.go.jp/article/kurumemedj1954/42/4/42_4_241/_article
Nishida et al. (Japan) A-10 Reference: 4 and 7
http://www.jstage.jst.go.jp/article/kurumemedj1954/42/4/42_4_241/_article/references
Muldoon et al. A-10 Reference: 6
http://www.jstage.jst.go.jp/article/kurumemedj1954/42/4/42_4_241/_pdf
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[20] 2/1996
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Lipid metabolism as a target for BRAIN CANCER therapy:
Synergistic activity of lovastatin and sodium PHENYLACETATE against human glioma cells
http://www.ncbi.nlm.nih.gov/pubmed/8592143/
J Neurochem 66:710-716, 1996
http://www.ncbi.nlm.nih.gov/m/pubmed/8592143/
J Neurochem. 1996 Feb;66(2):710-6.
http://onlinelibrary.wiley.com/doi/10.1046/j.1471-4159.1996.66020710.x/abstract
DOI: 10.1046/j.1471-4159.1996.66020710.x
http://onlinelibrary.wiley.com/doi/10.1046/j.1471-4159.1996.66020710.x/abstract;jsessionid=913EBF64F1FA2FD0D08BD94FDDE391D5.d03t01
Article first published online: 23 NOV 2002
http://onlinelibrary.wiley.com/doi/10.1046/j.1471-4159.1996.66020710.x/abstract;jsessionid=E929EA030144CC973FECF4DAA1D9D50C.d01t04
Clinical Pharmacology Branch, National Cancer Institute, Bethesda, Maryland, USA
Prasanna P, Thibault A, Liu L, et al: (SAMID D)
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[21] 5/1996
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PHENYLACETATE is an inhibitor of prostatic growth and development in culture.
http://www.ncbi.nlm.nih.gov/pubmed/8627880/
J Urol 155:1762-1770, 1996
http://www.ncbi.nlm.nih.gov/m/pubmed/8627880/
J Urol. 1996 May;155(5):1762-70
Lipshutz JH, SAMID D, Cunha GR:
The Journal of Urology
Volume 155, Issue 5, Pages 1762-1770, May 1996
Department of Medicine, University of California, San Francisco, USA
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[22] 1996
� � � � � � � � � � � � � � � �
Inhibitory effect of antineoplaston A10 and AS2-1 on human hepatocellular carcinoma
Tsuda H (Japan)
http://www.ncbi.nlm.nih.gov/pubmed/8755117
Kurume Med J. 1996;43(2):137-47
http://www.ncbi.nlm.nih.gov/m/pubmed/8755117
Department of Anesthesiology, Kurume University School of Medicine, Japan
http://www.jstage.jst.go.jp/article/kurumemedj1954/43/2/43_2_137/_article
Burzynski References: 1 – 3, 5 and 7
http://www.jstage.jst.go.jp/article/kurumemedj1954/43/2/43_2_137/_article/references
SAMID Reference: 13 (who learned from Burzynski re PHENYLACETATE)
http://www.jstage.jst.go.jp/article/kurumemedj1954/43/2/43_2_137/_pdf
Nishida et al. (Japan) A10 Reference: 4 and 10
Muldoon et al. A10 Reference: 8
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Arch Pharm (Weinheim), John Wiley & Sons, Inc.
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