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Vitamin C vs. Chemotherapy |
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Chemo and Vit.
C |
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IF CHEMOTHERAPY DOESN’T WORK, DON’T BLAME
VITAMIN C (Orthomolecular
Medicine News Service, October 7, 2008 http://orthomolecular.org/resources/omns/v04n12.shtml
) When Most of
the media dutifully reported the researchers’ claim that the equivalent
of 2,000 mg of vitamin C “blunted the effectiveness of the chemotherapy
drugs.” But only some of the media included a study author’s incredible
statement that “If you take an oral dose even as low as 100 milligrams
a day” even “that could be harmful” during chemotherapy (1)
100 mg
“could be harmful”? That’s the amount of vitamin C in a few
glasses of orange juice. Something is very wrong here. First of
all, this research involved mice with implanted cancerous tumors; it was not
a trial on cancer patients. A mouse study is a long way from a human clinical
trial. This obvious difference was conceded by the study authors. However,
there is a more subtle, and probably much more
important factor they did not consider: all mice make their own vitamin C.
Indeed, mice make quite a lot. Adjusted for body weight, mice synthesize the
human body weight equivalent of approximately 10,000 milligrams of vitamin C
each day. (2) Incredibly, sick mice make even more. Mice given transplanted
tumors become sick mice. Secondly,
previous research has demonstrated that mice with cancer respond well to
high-dose vitamin C therapy. One study found, “With an increase in the
amount of ascorbic acid there is a highly significant decrease in the
first-order rate constant for appearance of the first spontaneous mammary
tumor. . . Striking differences were
observed between the 0.076% ascorbic acid and the control groups, which
synthesize the vitamin.” (3) Another study concluded that: “A
pronounced effect of vitamin C in decreasing the incidence and delaying the
onset of malignant lesions was observed with high statistical significance.
By 20 weeks, approximately five times as many mice had developed serious
lesions in the zero-ascorbate as in the high-ascorbate group.” (4)
Interestingly enough, when this research was first publicized, the media
discounted these findings saying that mouse studies were not particularly applicable
to people. Thirdly, a
mouse’s ability to make vitamin C, and a great deal of it, is an
overlooked confounding factor that may well render the entire experiment
invalid. If the Sloan-Kettering team had tried their experiment on Guinea
pigs, their results might have been very different. Guinea pigs are more like
human beings in that they cannot make their own vitamin C. As controls for
comparison, the researchers also treated “no-added-vitamin C”
mouse cancers with chemotherapy. Chemo worked just fine on those mice, by the
researchers own admission. And each of those mice was internally synthesizing
a body weight equivalent of 10,000 mg/day of vitamin C, even though given
none supplementally. So how
come 10,000 mg of vitamin C does not interfere with chemo treatment, and
2,000 mg – or even 100 mg – supposedly does? A
sweeping recommendation warning cancer patients to not take supplemental
vitamin C, not even 100 mg, is irresponsible. It is impossible to justify
caution about taking 100 mg of vitamin C daily when your animal subjects made
the equivalent of one hundred times that amount, and chemotherapy in them was
still reported as effective. You cannot have it both ways. If a synthesized
10,000 mg of C does not interfere, there can be no real “interference”
or “blunting” from a supplemental 2,000 mg. And most certainly
not from 100 mg. The study
did report tumor shrinkage, in both groups of mice receiving chemo. That is
not surprising. Chemotherapy’s claimed success is based on tumor
shrinkage. But tumor shrinkage, encouraging though it is, is not a reliable
indicator of long-term cancer survival. As cancer research critic Philip Day
puts it, many patients are “cured but dead” after five years,
hardly a long-term survival. Day, noting that this is not because oncologists
are not trying, explains the chemotherapy quandary: “You can be
insincere, or you can be sincerely wrong.” (5) The
Sloan-Kettering study team seems to have missed the essential point that
vitamin C is not just an antioxidant. Inside cancer tumors, it also acts as a prooxidant, killing malignant
cells. Comments Dr. Steve Hickey, of Chemotherapy
drugs have come and gone; the five year survival rate for cancer treated with
chemo has remained virtually unchanged for decades. Unfortunately, just over
2% of all cancers respond to chemotherapy. Specifically, one scientific
review concluded, “The overall contribution of curative and adjuvant
cytotoxic chemotherapy to 5-year survival in adults was estimated to be 2.3%
in Perhaps
this new, very well-publicized study results from an ever-growing realization
that chemotherapy is largely ineffective, and the search is on for the reason
why. Vitamin C should not be made the scapegoat. Vitamin
C, in doses well over 100 mg/day, is known to help prevent cancer. (7) Nearly
30 years ago, a review concluded that “Many factors involved in host resistance
to neoplasia are significantly dependent upon the
availability of ascorbate.” (8) Beginning in the 1970s, many well-designed
studies show that very large doses of vitamin C improve both quality and
length of life for cancer patients since they invariably are “significantly
depleted of ascorbic acid.” When given intravenous vitamin C, “The
mean survival time is more than 4.2 times as great for the ascorbate subjects
. . . This simple and safe form of medication is of definite value in the treatment
of patients with advanced cancer.” (9) Additional clinical trials have
confirmed this over the past several decades. (10) Even more
importantly, recent research indicates that in high doses, vitamin C is
selectively toxic to cancer cells. That means vitamin C can function very
much like chemotherapy is supposed to, but without the severe side effects of
chemotherapy. “A regimen of daily pharmacologic ascorbate treatment
significantly decreased growth rates of ovarian, pancreatic, and glioblastoma tumors established in mice. Similar
pharmacologic concentrations were readily achieved in humans given ascorbate
intravenously.” (11) “Cautioning”
the public to avoid taking any supplemental amount of vitamin C will decrease
host resistance to cancer, increase the incidence of this dreaded disease,
and shorten survival times. A cynic might say it will also create a larger
market for chemotherapy. Is
vitamin C a commercial competitor for chemo? To answer this, one needs to
consider what appears to be serious conflict of interest at Sloan-Kettering. Bristol-Myers-Squibb
makes chemotherapeutic drugs. According to a DEF 14A SEC filing of March 22,
2006, the Chairman of the Board of Bristol-Myers-Squibb is also a director of
the Coca-Cola Company, and Honorary Chairman of Memorial Sloan-Kettering
Cancer Center. (http://sec.edgar-online.com/2006/03/22/0001193125-06-060566/Section8.asp) . A previous Bristol-Myers-Squibb Chairman
of the Board was a director of the New York Times Company. He was also Vice
Chairman of the Board of Overseers and the Board of Managers of Memorial
Sloan-Kettering Cancer Center and Chairman of the Board of Managers of
Sloan-Kettering Institute for Cancer Research. (http://www.secinfo.com/dsvrt.bC7.htm)
Some sources say that there are even more Bristol-Myers-Squibb directors who
have or held positions on the board at Positive
endorsements for vitamin C as a cancer fighter are not in the interests of
any pharmaceutical company. Scaring the public away from vitamin C might be
profitable. It appears that Sloan-Kettering is biased. So are media reports
that attack vitamins. If the Sloan-Kettering
study authors’ recommendations to not take 2,000 mg, or even 100 mg, of
vitamin C are followed, there will definitely be an increase in the number of
people that need chemotherapy. References: 1. Doheny K. Vitamin C and chemotherapy:
bad combo? Supplementing with vitamin C may reduce effectiveness of chemotherapy
drugs, study shows. WebMD Health News. http://www.webmd.com/cancer/news/20081001/vitamin-c-chemotherapy-bad-combo 2. Chatterjee IB, Majumder AK, Nandi BK, Subramanian N. Synthesis and some major
functions of vitamin C in animals. Ann N Y Acad Sci. 1975 Sep 30;258:24-47. 3. Pauling
L, Nixon JC, Stitt F et al. Effect of dietary
ascorbic acid on the incidence of spontaneous mammary tumors in RIII mice. Proc
Natl Acad Sci U S A. 1985 Aug;82(15):5185-9. 4. Pauling
L. Effect of ascorbic acid on incidence of spontaneous mammary tumors and UV-light-induced
skin tumors in mice. Am J Clin Nutr.
1991 Dec;54(6 Suppl):1252S-1255S.
Read the full paper free of charge at http://www.ajcn.org/cgi/reprint/54/6/1252S 5. Day P.
in the documentary film Food Matters, http://www.foodmatters.tv
See also: Day P. Cancer: why we're still dying to know the truth. Credence
Publications, 1999. ISBN-10: 0953501248; SBN-13: 978-0953501243 6. Morgan
G, Ward R, Barton M. The contribution of cytotoxic chemotherapy to 5-year
survival in adult malignancies. Clin Oncol (R Coll Radiol). 2004 Dec;16(8):549-60. 7. Enstrom JE, Kanim LE, Klein MA.
Vitamin C intake and mortality among a sample of the 8. Cameron
E, Pauling L, Leibovitz B. Ascorbic acid and
cancer: a review. Cancer Res. 1979 Mar;39(3):663-81. 9. Cameron
E, Pauling L. Supplemental ascorbate in the supportive treatment of cancer:
Prolongation of survival times in terminal human cancer. Proc Natl Acad Sci
U S A. 1976 Oct;73(10):3685-9. Read the original paper
at http://profiles.nlm.nih.gov/MM/B/B/K/Z/_/mmbbkz.pdf
10. Murata
A, Morishige F, and Yamaguchi H. Prolongation of
survival times of terminal cancer patients by administration of large doses
of ascorbate. International Journal of Vitamin and Nutrition Research Suppl., 23, 1982. p. 103-113. And: Null G, Robins H, Tanenbaum, M, and Jennings P. Vitamin C and the treatment
of cancer: abstracts and commentary from the scientific literature. The
Townsend Letter for Doctors and Patients, 1997. April/May. And: Vitamin C and
cancer revisited. Proc Natl Acad
Sci U S A. 2008 Aug 12;105(32):11037-8.
Also: Riordan HD, 11. Chen
Q, Espey MG, Sun AY et al. Pharmacologic doses of
ascorbate act as a prooxidant and decrease growth
of aggressive tumor xenografts in mice. Proc Natl Acad Sci
U S A. 2008 Aug 12;105(32):11105-9. See also: Chen
Q, Espey MG, Sun AY et al. Ascorbate in
pharmacologic concentrations selectively generates ascorbate radical and
hydrogen peroxide in extracellular fluid in vivo.
Proc Natl Acad Sci U S A. 2007 May 22;104(21):8749-54.
And: Chen Q, Espey MG, Krishna MC et al.
Pharmacologic ascorbic acid concentrations selectively kill cancer cells:
action as a pro-drug to deliver hydrogen peroxide to tissues. Proc Natl Acad Sci
U S A. 2005 Sep 20;102(38):13604-9. And: Padayatty et al. Intravenously administered vitamin C as
cancer therapy: three cases. Canadian Medical Association Journal, 2006.
174(7), March 28, p 937-942. http://www.cmaj.ca/cgi/reprint/174/7/937
. Also: 12. Moss
R. Questioning Chemotherapy. Equinox Press, 1995. ISBN-10: 188102525X; ISBN-13:
978-1881025252. See also: The Cancer Industry. Equinox Press, 1996. ISBN-10:
1881025098; ISBN-13: 978-1881025092. For additional
information: Cameron
E. and Pauling L. Cancer and vitamin C, revised edition. Hickey S
and Roberts H. Cancer: nutrition and survival. Lulu Press, 2005. ISBN:
141166339X. Hoffer A.
Healing cancer: complementary vitamin and drug treatments. For free
access to an online archive of peer-reviewed, full-text nutrition therapy
papers: http://www.orthomed.org/jom/jomlist.htm
or http://orthomolecular.org/library/jom
To
subscribe, free of charge, to the non-commercial Orthomolecular Medicine News
Service: http://orthomolecular.org/subscribe.html
Andrew Saul is the author of the books FIRE YOUR DOCTOR! How to be Independently Healthy (reader reviews at http://www.doctoryourself.com/review.html
) and DOCTOR YOURSELF: Natural Healing
that Works. (reviewed at http://www.doctoryourself.com/saulbooks.html
) |
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