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Intravenous ascorbic acid

April 10, 2024

Intravenous Ascorbic Acid (also known as vitamin C or L-ascorbic acid), is a process that delivers soluble ascorbic acid directly into the bloodstream. It is not approved for use to treat any medical condition.[1]

Intravenous ascorbic acid
Intravenous bag and drip chamber on a pole, used to administer ascorbic acid solution through peripheral IV line
Other namesVitamin C, Ascorbate, L-ascorbic acid
ICD-10-PCSZ51.81
ICD-9-CM267
[edit on Wikidata]

The use of intravenous ascorbic acid as a proposed cancer treatment or co-treatment has been a controversial topic since the emergence of misleading data in the 1970s.[2]

Contraindications edit

High doses of ascorbic acid administered by intravenous infusion have been shown to increase the absorption of iron.[3] In individuals with hemochromatosis (a genetic disorder where the body takes up and stores too much iron), intravenous ascorbic acid is contraindicated as high dosages of ascorbic acid may result in iron overloading and therefore, lead to life-threatening complications such as heart disease, diabetes, or tissue damage.[4]

High dosages of ascorbic acid (such as those used in intravenous therapy) have been reported to cause some intestinal discomfort, diarrhoea, as well as increased gas and urination.[5]

Alternative medicine and unproven applications edit

Sepsis edit

The "Marik protocol", or "HAT" protocol, as devised by Paul E. Marik, proposed a combination of intravenous vitamin C, hydrocortisone, and thiamine as a treatment for preventing sepsis for people in intensive care. Marik's own initial research, published in 2017,[6] showed a dramatic evidence of benefit, leading to the protocol becoming popular among intensive care physicians,[7] especially after the protocol received attention on social media and National Public Radio, drawing criticism of science by press conference from the wider medical community.[8][9] Subsequent independent research failed to replicate Marik's positive results, indicating the possibility that they had been compromised by bias.[9][10] A systematic review of trials in 2021 found that the claimed benefits of the protocol could not be confirmed.[11]

People in sepsis may have micronutrient deficiencies, including low levels of vitamin C.[12] Reviews mention that an intake of 3.0 g/day via intravenous administration may needed to maintain normal plasma concentrations.[13][14] Sepsis mortality is reduced with administration of intravenous vitamin C.[15]

Pharmacology edit

 
Chemical structure of ascorbic acid (reduced form)

Mechanism of action edit

Ascorbic acid operates as an anti-oxidant and essential enzyme cofactor in the human body. In in vitro studies, the primary mechanism of high dosage intravenous ascorbic acid can be related to ascorbic acid's pro-oxidant activity, whereby hydrogen peroxide is formed.[16][17][18] In the extracellular fluid of cells, ascorbic acid dissociates into an ascorbate radical upon the reduction of transition metal ions, such as ferric or cupric cations.[16] These transition metal ions will then reduce dissolved oxygen into a superoxide radical – this will then react with hydrogen to form hydrogen peroxide.[17]

Furthermore, according to Fenton chemistry, these transition metal ions can be further oxidised by hydrogen peroxide to generate a highly reactive hydroxyl radical.[19] The formation of hydrogen peroxide and hydroxyl radicals is believed to induce cytotoxicity and apoptosis of cancer cells.[19] Although many in vitro studies have studied hydrogen peroxide generation by ascorbic acid, the pharmacological mechanism of intravenous ascorbic acid in vivo is still unclear.[19]

History edit

Pioneering research edit

Although the pharmacology of ascorbic acid had been studied since its discovery in the 1930s,[20] the method of administration and its medicinal potential to human patients was not investigated until the 1940s.[21] In 1949, American physician, Frederick Klenner, published his scientific report, “The Treatment of Poliomyelitis and Other Virus Diseases with ascorbic acid”,[22] which detailed the use of intravenous ascorbic acid to treat polio in children.[21] Klenner's research pioneered future studies investigating the medicinal role of intravenous ascorbic acid. Klenner's work was recognised by Linus Pauling in the foreword to the Clinical Guide: "Dr. Fred Klenner's early research reports provide much information on the use of high-dose ascorbic acid for the prevention and cure of many diseases, and these reports are still important."[23]

 
Nobel Prize winner, Linus Pauling, is recognised as one of the early pioneers of ascorbic acid research

Linus Pauling edit

Nobel Prize winner and biochemist, Linus Pauling, was pivotal in the re-emergence of intravenous ascorbic acid research. Over the course of the 1970s, Pauling would begin a long-term collaboration with fellow physician, Ewan Cameron, on the medical potential of intravenous ascorbate acid as cancer therapy in terminally ill patients. In 1976, Pauling and Cameron co-authored a study whereby a group of 100 terminal cancer patients underwent supplementary ascorbic acid therapy (10g/day by intravenous infusion and oral thereafter) and the control group of 1,000 patients did not.[24] Their findings reported that the survival rate of the terminal cancer patients increased by four-fold, compared to the control group, stating that: "the treatment of ascorbate in amounts of 10g/day or more is of real value in extending the life of patients with advanced cancer."[24]

Subsequent studies by Pauling and Cameron hypothesised that ascorbic acid's role in enhanced collagen production would lead to the encapsulation of tumours and thus, protect normal tissue from metastasis.[25] Following these findings, Pauling became a strong advocate for vitamin megadosing and continued to investigate the medicinal potential of intravenous ascorbic acid across a range of illnesses, including: HIV transmission, the common cold, atherosclerosis, and angina pectoris.[26][27][28]

Medical controversy edit

The efficacy of intravenous ascorbic acid therapy came under scrutiny of the medical and science community, following the numerous high-profile studies authored by Linus Pauling in the 1970s.[18] The experimental design of Pauling and Cameron's 1976 publication, "Supplemental ascorbate in the supportive treatment of cancer",[24] had garnered considerable criticism as it was neither randomised nor placebo controlled. To test the validity of Pauling and Cameron's findings, the Mayo Clinic conducted three independent experiments in 1979, 1983 and 1985, whereby terminal cancer patients were given doses of oral ascorbic acid under randomised, double bind and placebo-controlled conditions.[29][30][31] All studies concluded that high doses of oral ascorbic acid were not effective against cancer.

The use of intravenous ascorbic acid in the treatment of cancer has been a contentious issue. There is no evidence to indicate that intravenous ascorbic acid therapy can cure cancer.[32][31] According to the U.S. Food and Drug Administration (FDA), high-dose vitamin C (such as intravenous ascorbic acid therapy) has not been approved as a treatment for cancer or any other medical condition.[1]

There many been multiple studies devoted to investigating the medicinal properties of ascorbic acid. The use of high-dosage intravenous ascorbic acid as a cancer treatment was first promoted by Linus Pauling and Ewan Cameron in the 1970s;[24][25] however, these findings were not reproduced using oral administration by subsequent Mayo Clinic studies in the 1980s.[29][30][31] In 2010, an academic review which detailed 33 years of ascorbic acid and cancer research stated: "we still do not know whether Vitamin C has any clinically significant anti-tumor activity. Nor do we know which histological types of cancers, if any, are susceptible to this agent. Finally, we don't know what the recommended dose of Vitamin C is, if there is indeed such a dose, that can produce an anti-tumor response".[33]

Research edit

The turn of the 21st century saw a renewed interest in the medical potential of intravenous ascorbic acid therapy. In the early 2010s, in vitro preclinical and clinical trials were undertaken to investigate the pharmacological mechanism of action of intravenous ascorbic acid therapy.[34][35] These findings demonstrated ascorbic acid's pro-oxidant capabilities to produce hydrogen peroxide and thus, proposed a possible pharmacological mechanism of action against cancer cells. Nonetheless, ascorbic acid's potential as an anti-tumour therapy is still dubious, as other pro-oxidant substances (such as menadione[36][37]) have been unsuccessful in the treatment of cancer patients.[38]

See also edit

References edit

  1. ^ a b "The Vitamin C Foundation – 514071 – 04/17/2017". U.S. Food and Drug Administration. 2019-04-23. Retrieved 2019-06-07.
  2. ^ Nabzdyk CS, Bittner EA (October 2018). "Vitamin C in the critically ill – indications and controversies". World Journal of Critical Care Medicine. 7 (5): 52–61. doi:10.5492/wjccm.v7.i5.52. PMC 6201324. PMID 30370227.
  3. ^ Jacob RA, Sotoudeh G (March 2002). "Vitamin C function and status in chronic disease". Nutrition in Clinical Care. 5 (2): 66–74. doi:10.1046/j.1523-5408.2002.00005.x. PMID 12134712.
  4. ^ Institute of Medicine (US) Panel on Dietary Antioxidants Related Compounds (2000-04-11). Dietary Reference Intakes for Vitamin C, Vitamin E, Selenium, and Carotenoids. doi:10.17226/9810. ISBN 9780309069359. PMID 25077263.
  5. ^ Ohno S, Ohno Y, Suzuki N, Soma G, Inoue M (March 2009). "High-dose vitamin C (ascorbic acid) therapy in the treatment of patients with advanced cancer". Anticancer Research. 29 (3): 809–815. PMID 19414313.
  6. ^ Marik, Paul E.; Khangoora, Vikramjit; Rivera, Racquel; Hooper, Michael H.; Catravas, John (2017). "Hydrocortisone, Vitamin C, and Thiamine for the Treatment of Severe Sepsis and Septic Shock". Chest. 151 (6). Elsevier BV: 1229–1238. doi:10.1016/j.Chest.2016.11.036. ISSN 0012-3692. PMID 27940189. S2CID 3509326.
  7. ^ "The Marik Protocol: Have We Found a "Cure" for Severe Sepsis and Septic Shock?". Rebel EM – Emergency Medicine Blog. 2017-04-07. Retrieved 2021-07-22.
  8. ^ "Vitamin C Drug Cocktail for Sepsis". HealthManagement. July 9, 2019. Retrieved 2021-09-24.
  9. ^ a b Rubin R (July 2019). "Wide Interest in a Vitamin C Drug Cocktail for Sepsis Despite Lagging Evidence". JAMA. 322 (4): 291–293. doi:10.1001/jama.2019.7936. PMID 31268477. S2CID 195788169.
  10. ^ ""Ethically and morally unacceptable": Reaction to vitamin C for sepsis trial". Dietary supplements, Nutraceuticals, Functional foods, Health ingredients, Herbals. 2020-01-28. Retrieved 2021-07-22.
  11. ^ Lee YR, Vo K, Varughese JT (May 2021). "Benefits of combination therapy of hydrocortisone, ascorbic acid and thiamine in sepsis and septic shock: A systematic review". Nutr Health. 28 (1): 77–93. doi:10.1177/02601060211018371. PMID 34039089. S2CID 235215735.
  12. ^ Belsky JB, Wira CR, Jacob V, Sather JE, Lee PJ (December 2018). "A review of micronutrients in sepsis: the role of thiamine, L-carnitine, vitamin C, selenium and vitamin D". Nutrition Research Reviews. 31 (2): 281–90. doi:10.1017/S0954422418000124. PMID 29984680. S2CID 51599526.
  13. ^ Liang B, Su J, Shao H, Chen H, Xie B (March 2023). "The outcome of IV vitamin C therapy in patients with sepsis or septic shock: a meta-analysis of randomized controlled trials". Crit Care. 27 (1): 109. doi:10.1186/s13054-023-04392-y. PMC 10012592. PMID 36915173.
  14. ^ Berger MM, Oudemans-van Straaten HM (March 2015). "Vitamin C supplementation in the critically ill patient". Curr Opin Clin Nutr Metab Care. 18 (2): 193–201. doi:10.1097/MCO.0000000000000148. PMID 25635594. S2CID 37895257.
  15. ^ Xu C, Yi T, Tan S, Xu H, Hu Y, Ma J, Xu J (April 2023). "Association of Oral or Intravenous Vitamin C Supplementation with Mortality: A Systematic Review and Meta-Analysis". Nutrients. 15 (8): 1848. doi:10.3390/nu15081848. PMC 10146309. PMID 37111066.
  16. ^ a b Carr AC, Cook J (2018-08-23). "Intravenous Vitamin C for Cancer Therapy – Identifying the Current Gaps in Our Knowledge". Frontiers in Physiology. 9: 1182. doi:10.3389/fphys.2018.01182. PMC 6115501. PMID 30190680.
  17. ^ a b Vissers MC, Das AB (2018-07-03). "Potential Mechanisms of Action for Vitamin C in Cancer: Reviewing the Evidence". Frontiers in Physiology. 9: 809. doi:10.3389/fphys.2018.00809. PMC 6037948. PMID 30018566.
  18. ^ a b Verrax J, Calderon PB (December 2008). "The controversial place of vitamin C in cancer treatment". Biochemical Pharmacology. 76 (12): 1644–1652. doi:10.1016/j.bcp.2008.09.024. PMID 18938145.
  19. ^ a b c Fritz H, Flower G, Weeks L, Cooley K, Callachan M, McGowan J, et al. (July 2014). "Intravenous Vitamin C and Cancer: A Systematic Review". Integrative Cancer Therapies. 13 (4): 280–300. doi:10.1177/1534735414534463. PMID 24867961.
  20. ^ Carpenter KJ (2012). "The discovery of vitamin C". Annals of Nutrition & Metabolism. 61 (3): 259–264. doi:10.1159/000343121. PMID 23183299. S2CID 37436503.
  21. ^ a b "Intravenous Vitamin C: The Historical Progression". PaulingBlog. 2017-10-18. Retrieved 2019-05-20.
  22. ^ "The Treatment of Poliomyelitis and Other Virus Diseases with Vitamin C". www.seanet.com. Retrieved 2019-05-20.
  23. ^ "Clinical Guide to the Use of Vitamin C". www.seanet.com. Retrieved 2019-05-20.
  24. ^ a b c d Cameron E, Pauling L (October 1976). "Supplemental ascorbate in the supportive treatment of cancer: Prolongation of survival times in terminal human cancer". Proceedings of the National Academy of Sciences of the United States of America. 73 (10): 3685–3689. Bibcode:1976PNAS...73.3685C. doi:10.1073/pnas.73.10.3685. PMC 431183. PMID 1068480.
  25. ^ a b Mikirova N, Casciari J, Riordan N, Hunninghake R (August 2013). "Clinical experience with intravenous administration of ascorbic acid: achievable levels in blood for different states of inflammation and disease in cancer patients". Journal of Translational Medicine. 11: 191. doi:10.1186/1479-5876-11-191. PMC 3751545. PMID 23947403.
  26. ^ Pauling L (January 1973). "Ascorbic acid and the common cold". Scottish Medical Journal. 18 (1): 1–2. doi:10.1177/003693307301800101. PMID 4577802. S2CID 28875346.
  27. ^ Harakeh S, Jariwalla RJ, Pauling L (September 1990). "Suppression of human immunodeficiency virus replication by ascorbate in chronically and acutely infected cells". Proceedings of the National Academy of Sciences of the United States of America. 87 (18): 7245–7249. Bibcode:1990PNAS...87.7245H. doi:10.1073/pnas.87.18.7245. PMC 54720. PMID 1698293.
  28. ^ Rath M, Pauling L (August 1990). "Hypothesis: lipoprotein(a) is a surrogate for ascorbate". Proceedings of the National Academy of Sciences of the United States of America. 87 (16): 6204–6207. Bibcode:1990PNAS...87.6204R. doi:10.1073/pnas.87.16.6204. PMC 54501. PMID 2143582.
  29. ^ a b Creagan ET, Moertel CG, O'Fallon JR, Schutt AJ, O'Connell MJ, Rubin J, Frytak S (September 1979). "Failure of high-dose vitamin C (ascorbic acid) therapy to benefit patients with advanced cancer. A controlled trial". The New England Journal of Medicine. 301 (13): 687–690. doi:10.1056/NEJM197909273011303. PMID 384241.
  30. ^ a b Tschetter L, Creagan E, O'Fallon J (1983). "A community-based study of vitamin C (ascorbic acid) in patients with advanced cancer". Proceedings of the American Society of Clinical Oncology. 2: 92.
  31. ^ a b c Moertel CG, Fleming TR, Creagan ET, Rubin J, O'Connell MJ, Ames MM (January 1985). "High-dose vitamin C versus placebo in the treatment of patients with advanced cancer who have had no prior chemotherapy. A randomized double-blind comparison". The New England Journal of Medicine. 312 (3): 137–141. doi:10.1056/NEJM198501173120301. PMID 3880867.
  32. ^ Klimant E, Wright H, Rubin D, Seely D, Markman M (April 2018). "Intravenous vitamin C in the supportive care of cancer patients: a review and rational approach". Current Oncology. 25 (2): 139–148. doi:10.3747/co.25.3790. PMC 5927785. PMID 29719430.
  33. ^ Cabanillas F (September 2010). "Vitamin C and cancer: what can we conclude – 1,609 patients and 33 years later?". Puerto Rico Health Sciences Journal. 29 (3): 215–217. PMID 20799507.
  34. ^ Parrow NL, Leshin JA, Levine M (December 2013). "Parenteral ascorbate as a cancer therapeutic: a reassessment based on pharmacokinetics". Antioxidants & Redox Signaling. 19 (17): 2141–2156. doi:10.1089/ars.2013.5372. PMC 3869468. PMID 23621620.
  35. ^ Fritz H, Flower G, Weeks L, Cooley K, Callachan M, McGowan J, et al. (July 2014). "Intravenous Vitamin C and Cancer: A Systematic Review". Integrative Cancer Therapies. 13 (4): 280–300. doi:10.1177/1534735414534463. PMID 24867961.
  36. ^ Tetef M, Margolin K, Ahn C, Akman S, Chow W, Leong L, et al. (1995). "Mitomycin C and menadione for the treatment of lung cancer: a phase II trial". Investigational New Drugs. 13 (2): 157–162. doi:10.1007/BF00872865. PMID 8617579. S2CID 10086469.
  37. ^ Margolin KA, Akman SA, Leong LA, Morgan RJ, Somlo G, Raschko JW, et al. (1995). "Phase I study of mitomycin C and menadione in advanced solid tumors". Cancer Chemotherapy and Pharmacology. 36 (4): 293–298. doi:10.1007/BF00689046. PMID 7628048. S2CID 7283959.
  38. ^ Borst P (December 2008). "Mega-dose vitamin C as therapy for human cancer?". Proceedings of the National Academy of Sciences of the United States of America. 105 (48): E95, author reply E96. Bibcode:2008PNAS..105E..95B. doi:10.1073/pnas.0809328105. PMC 2596258. PMID 19033231.

April 10, 2024
intravenous, ascorbic, acid, intravenous, ascorbic, acid, also, known, vitamin, ascorbic, acid, process, that, delivers, soluble, ascorbic, acid, directly, into, bloodstream, approved, treat, medical, condition, intravenous, drip, chamber, pole, used, administ. Intravenous Ascorbic Acid also known as vitamin C or L ascorbic acid is a process that delivers soluble ascorbic acid directly into the bloodstream It is not approved for use to treat any medical condition 1 Intravenous ascorbic acidIntravenous bag and drip chamber on a pole used to administer ascorbic acid solution through peripheral IV lineOther namesVitamin C Ascorbate L ascorbic acidICD 10 PCSZ51 81ICD 9 CM267 edit on Wikidata The use of intravenous ascorbic acid as a proposed cancer treatment or co treatment has been a controversial topic since the emergence of misleading data in the 1970s 2 Contents 1 Contraindications 2 Alternative medicine and unproven applications 2 1 Sepsis 3 Pharmacology 3 1 Mechanism of action 4 History 4 1 Pioneering research 4 2 Linus Pauling 4 3 Medical controversy 5 Research 6 See also 7 ReferencesContraindications editHigh doses of ascorbic acid administered by intravenous infusion have been shown to increase the absorption of iron 3 In individuals with hemochromatosis a genetic disorder where the body takes up and stores too much iron intravenous ascorbic acid is contraindicated as high dosages of ascorbic acid may result in iron overloading and therefore lead to life threatening complications such as heart disease diabetes or tissue damage 4 High dosages of ascorbic acid such as those used in intravenous therapy have been reported to cause some intestinal discomfort diarrhoea as well as increased gas and urination 5 Alternative medicine and unproven applications editSepsis edit The Marik protocol or HAT protocol as devised by Paul E Marik proposed a combination of intravenous vitamin C hydrocortisone and thiamine as a treatment for preventing sepsis for people in intensive care Marik s own initial research published in 2017 6 showed a dramatic evidence of benefit leading to the protocol becoming popular among intensive care physicians 7 especially after the protocol received attention on social media and National Public Radio drawing criticism of science by press conference from the wider medical community 8 9 Subsequent independent research failed to replicate Marik s positive results indicating the possibility that they had been compromised by bias 9 10 A systematic review of trials in 2021 found that the claimed benefits of the protocol could not be confirmed 11 People in sepsis may have micronutrient deficiencies including low levels of vitamin C 12 Reviews mention that an intake of 3 0 g day via intravenous administration may needed to maintain normal plasma concentrations 13 14 Sepsis mortality is reduced with administration of intravenous vitamin C 15 Pharmacology edit nbsp Chemical structure of ascorbic acid reduced form Mechanism of action edit Ascorbic acid operates as an anti oxidant and essential enzyme cofactor in the human body In in vitro studies the primary mechanism of high dosage intravenous ascorbic acid can be related to ascorbic acid s pro oxidant activity whereby hydrogen peroxide is formed 16 17 18 In the extracellular fluid of cells ascorbic acid dissociates into an ascorbate radical upon the reduction of transition metal ions such as ferric or cupric cations 16 These transition metal ions will then reduce dissolved oxygen into a superoxide radical this will then react with hydrogen to form hydrogen peroxide 17 Furthermore according to Fenton chemistry these transition metal ions can be further oxidised by hydrogen peroxide to generate a highly reactive hydroxyl radical 19 The formation of hydrogen peroxide and hydroxyl radicals is believed to induce cytotoxicity and apoptosis of cancer cells 19 Although many in vitro studies have studied hydrogen peroxide generation by ascorbic acid the pharmacological mechanism of intravenous ascorbic acid in vivo is still unclear 19 History editPioneering research edit Although the pharmacology of ascorbic acid had been studied since its discovery in the 1930s 20 the method of administration and its medicinal potential to human patients was not investigated until the 1940s 21 In 1949 American physician Frederick Klenner published his scientific report The Treatment of Poliomyelitis and Other Virus Diseases with ascorbic acid 22 which detailed the use of intravenous ascorbic acid to treat polio in children 21 Klenner s research pioneered future studies investigating the medicinal role of intravenous ascorbic acid Klenner s work was recognised by Linus Pauling in the foreword to the Clinical Guide Dr Fred Klenner s early research reports provide much information on the use of high dose ascorbic acid for the prevention and cure of many diseases and these reports are still important 23 nbsp Nobel Prize winner Linus Pauling is recognised as one of the early pioneers of ascorbic acid researchLinus Pauling edit Nobel Prize winner and biochemist Linus Pauling was pivotal in the re emergence of intravenous ascorbic acid research Over the course of the 1970s Pauling would begin a long term collaboration with fellow physician Ewan Cameron on the medical potential of intravenous ascorbate acid as cancer therapy in terminally ill patients In 1976 Pauling and Cameron co authored a study whereby a group of 100 terminal cancer patients underwent supplementary ascorbic acid therapy 10g day by intravenous infusion and oral thereafter and the control group of 1 000 patients did not 24 Their findings reported that the survival rate of the terminal cancer patients increased by four fold compared to the control group stating that the treatment of ascorbate in amounts of 10g day or more is of real value in extending the life of patients with advanced cancer 24 Subsequent studies by Pauling and Cameron hypothesised that ascorbic acid s role in enhanced collagen production would lead to the encapsulation of tumours and thus protect normal tissue from metastasis 25 Following these findings Pauling became a strong advocate for vitamin megadosing and continued to investigate the medicinal potential of intravenous ascorbic acid across a range of illnesses including HIV transmission the common cold atherosclerosis and angina pectoris 26 27 28 Medical controversy edit The efficacy of intravenous ascorbic acid therapy came under scrutiny of the medical and science community following the numerous high profile studies authored by Linus Pauling in the 1970s 18 The experimental design of Pauling and Cameron s 1976 publication Supplemental ascorbate in the supportive treatment of cancer 24 had garnered considerable criticism as it was neither randomised nor placebo controlled To test the validity of Pauling and Cameron s findings the Mayo Clinic conducted three independent experiments in 1979 1983 and 1985 whereby terminal cancer patients were given doses of oral ascorbic acid under randomised double bind and placebo controlled conditions 29 30 31 All studies concluded that high doses of oral ascorbic acid were not effective against cancer The use of intravenous ascorbic acid in the treatment of cancer has been a contentious issue There is no evidence to indicate that intravenous ascorbic acid therapy can cure cancer 32 31 According to the U S Food and Drug Administration FDA high dose vitamin C such as intravenous ascorbic acid therapy has not been approved as a treatment for cancer or any other medical condition 1 There many been multiple studies devoted to investigating the medicinal properties of ascorbic acid The use of high dosage intravenous ascorbic acid as a cancer treatment was first promoted by Linus Pauling and Ewan Cameron in the 1970s 24 25 however these findings were not reproduced using oral administration by subsequent Mayo Clinic studies in the 1980s 29 30 31 In 2010 an academic review which detailed 33 years of ascorbic acid and cancer research stated we still do not know whether Vitamin C has any clinically significant anti tumor activity Nor do we know which histological types of cancers if any are susceptible to this agent Finally we don t know what the recommended dose of Vitamin C is if there is indeed such a dose that can produce an anti tumor response 33 Research editThe turn of the 21st century saw a renewed interest in the medical potential of intravenous ascorbic acid therapy In the early 2010s in vitro preclinical and clinical trials were undertaken to investigate the pharmacological mechanism of action of intravenous ascorbic acid therapy 34 35 These findings demonstrated ascorbic acid s pro oxidant capabilities to produce hydrogen peroxide and thus proposed a possible pharmacological mechanism of action against cancer cells Nonetheless ascorbic acid s potential as an anti tumour therapy is still dubious as other pro oxidant substances such as menadione 36 37 have been unsuccessful in the treatment of cancer patients 38 See also editVitamin C megadosageReferences edit a b The Vitamin C Foundation 514071 04 17 2017 U S Food and Drug Administration 2019 04 23 Retrieved 2019 06 07 Nabzdyk CS Bittner EA October 2018 Vitamin C in the critically ill indications and controversies World Journal of Critical Care Medicine 7 5 52 61 doi 10 5492 wjccm v7 i5 52 PMC 6201324 PMID 30370227 Jacob RA Sotoudeh G March 2002 Vitamin C function and status in chronic disease Nutrition in Clinical Care 5 2 66 74 doi 10 1046 j 1523 5408 2002 00005 x PMID 12134712 Institute of Medicine US Panel on Dietary Antioxidants Related Compounds 2000 04 11 Dietary Reference Intakes for Vitamin C Vitamin E Selenium and Carotenoids doi 10 17226 9810 ISBN 9780309069359 PMID 25077263 Ohno S Ohno Y Suzuki N Soma G Inoue M March 2009 High dose vitamin C ascorbic acid therapy in the treatment of patients with advanced cancer Anticancer Research 29 3 809 815 PMID 19414313 Marik Paul E Khangoora Vikramjit Rivera Racquel Hooper Michael H Catravas John 2017 Hydrocortisone Vitamin C and Thiamine for the Treatment of Severe Sepsis and Septic Shock Chest 151 6 Elsevier BV 1229 1238 doi 10 1016 j Chest 2016 11 036 ISSN 0012 3692 PMID 27940189 S2CID 3509326 The Marik Protocol Have We Found a Cure for Severe Sepsis and Septic Shock Rebel EM Emergency Medicine Blog 2017 04 07 Retrieved 2021 07 22 Vitamin C Drug Cocktail for Sepsis HealthManagement July 9 2019 Retrieved 2021 09 24 a b Rubin R July 2019 Wide Interest in a Vitamin C Drug Cocktail for Sepsis Despite Lagging Evidence JAMA 322 4 291 293 doi 10 1001 jama 2019 7936 PMID 31268477 S2CID 195788169 Ethically and morally unacceptable Reaction to vitamin C for sepsis trial Dietary supplements Nutraceuticals Functional foods Health ingredients Herbals 2020 01 28 Retrieved 2021 07 22 Lee YR Vo K Varughese JT May 2021 Benefits of combination therapy of hydrocortisone ascorbic acid and thiamine in sepsis and septic shock A systematic review Nutr Health 28 1 77 93 doi 10 1177 02601060211018371 PMID 34039089 S2CID 235215735 Belsky JB Wira CR Jacob V Sather JE Lee PJ December 2018 A review of micronutrients in sepsis the role of thiamine L carnitine vitamin C selenium and vitamin D Nutrition Research Reviews 31 2 281 90 doi 10 1017 S0954422418000124 PMID 29984680 S2CID 51599526 Liang B Su J Shao H Chen H Xie B March 2023 The outcome of IV vitamin C therapy in patients with sepsis or septic shock a meta analysis of randomized controlled trials Crit Care 27 1 109 doi 10 1186 s13054 023 04392 y PMC 10012592 PMID 36915173 Berger MM Oudemans van Straaten HM March 2015 Vitamin C supplementation in the critically ill patient Curr Opin Clin Nutr Metab Care 18 2 193 201 doi 10 1097 MCO 0000000000000148 PMID 25635594 S2CID 37895257 Xu C Yi T Tan S Xu H Hu Y Ma J Xu J April 2023 Association of Oral or Intravenous Vitamin C Supplementation with Mortality A Systematic Review and Meta Analysis Nutrients 15 8 1848 doi 10 3390 nu15081848 PMC 10146309 PMID 37111066 a b Carr AC Cook J 2018 08 23 Intravenous Vitamin C for Cancer Therapy Identifying the Current Gaps in Our Knowledge Frontiers in Physiology 9 1182 doi 10 3389 fphys 2018 01182 PMC 6115501 PMID 30190680 a b Vissers MC Das AB 2018 07 03 Potential Mechanisms of Action for Vitamin C in Cancer Reviewing the Evidence Frontiers in Physiology 9 809 doi 10 3389 fphys 2018 00809 PMC 6037948 PMID 30018566 a b Verrax J Calderon PB December 2008 The controversial place of vitamin C in cancer treatment Biochemical Pharmacology 76 12 1644 1652 doi 10 1016 j bcp 2008 09 024 PMID 18938145 a b c Fritz H Flower G Weeks L Cooley K Callachan M McGowan J et al July 2014 Intravenous Vitamin C and Cancer A Systematic Review Integrative Cancer Therapies 13 4 280 300 doi 10 1177 1534735414534463 PMID 24867961 Carpenter KJ 2012 The discovery of vitamin C Annals of Nutrition amp Metabolism 61 3 259 264 doi 10 1159 000343121 PMID 23183299 S2CID 37436503 a b Intravenous Vitamin C The Historical Progression PaulingBlog 2017 10 18 Retrieved 2019 05 20 The Treatment of Poliomyelitis and Other Virus Diseases with Vitamin C www seanet com Retrieved 2019 05 20 Clinical Guide to the Use of Vitamin C www seanet com Retrieved 2019 05 20 a b c d Cameron E Pauling L October 1976 Supplemental ascorbate in the supportive treatment of cancer Prolongation of survival times in terminal human cancer Proceedings of the National Academy of Sciences of the United States of America 73 10 3685 3689 Bibcode 1976PNAS 73 3685C doi 10 1073 pnas 73 10 3685 PMC 431183 PMID 1068480 a b Mikirova N Casciari J Riordan N Hunninghake R August 2013 Clinical experience with intravenous administration of ascorbic acid achievable levels in blood for different states of inflammation and disease in cancer patients Journal of Translational Medicine 11 191 doi 10 1186 1479 5876 11 191 PMC 3751545 PMID 23947403 Pauling L January 1973 Ascorbic acid and the common cold Scottish Medical Journal 18 1 1 2 doi 10 1177 003693307301800101 PMID 4577802 S2CID 28875346 Harakeh S Jariwalla RJ Pauling L September 1990 Suppression of human immunodeficiency virus replication by ascorbate in chronically and acutely infected cells Proceedings of the National Academy of Sciences of the United States of America 87 18 7245 7249 Bibcode 1990PNAS 87 7245H doi 10 1073 pnas 87 18 7245 PMC 54720 PMID 1698293 Rath M Pauling L August 1990 Hypothesis lipoprotein a is a surrogate for ascorbate Proceedings of the National Academy of Sciences of the United States of America 87 16 6204 6207 Bibcode 1990PNAS 87 6204R doi 10 1073 pnas 87 16 6204 PMC 54501 PMID 2143582 a b Creagan ET Moertel CG O Fallon JR Schutt AJ O Connell MJ Rubin J Frytak S September 1979 Failure of high dose vitamin C ascorbic acid therapy to benefit patients with advanced cancer A controlled trial The New England Journal of Medicine 301 13 687 690 doi 10 1056 NEJM197909273011303 PMID 384241 a b Tschetter L Creagan E O Fallon J 1983 A community based study of vitamin C ascorbic acid in patients with advanced cancer Proceedings of the American Society of Clinical Oncology 2 92 a b c Moertel CG Fleming TR Creagan ET Rubin J O Connell MJ Ames MM January 1985 High dose vitamin C versus placebo in the treatment of patients with advanced cancer who have had no prior chemotherapy A randomized double blind comparison The New England Journal of Medicine 312 3 137 141 doi 10 1056 NEJM198501173120301 PMID 3880867 Klimant E Wright H Rubin D Seely D Markman M April 2018 Intravenous vitamin C in the supportive care of cancer patients a review and rational approach Current Oncology 25 2 139 148 doi 10 3747 co 25 3790 PMC 5927785 PMID 29719430 Cabanillas F September 2010 Vitamin C and cancer what can we conclude 1 609 patients and 33 years later Puerto Rico Health Sciences Journal 29 3 215 217 PMID 20799507 Parrow NL Leshin JA Levine M December 2013 Parenteral ascorbate as a cancer therapeutic a reassessment based on pharmacokinetics Antioxidants amp Redox Signaling 19 17 2141 2156 doi 10 1089 ars 2013 5372 PMC 3869468 PMID 23621620 Fritz H Flower G Weeks L Cooley K Callachan M McGowan J et al July 2014 Intravenous Vitamin C and Cancer A Systematic Review Integrative Cancer Therapies 13 4 280 300 doi 10 1177 1534735414534463 PMID 24867961 Tetef M Margolin K Ahn C Akman S Chow W Leong L et al 1995 Mitomycin C and menadione for the treatment of lung cancer a phase II trial Investigational New Drugs 13 2 157 162 doi 10 1007 BF00872865 PMID 8617579 S2CID 10086469 Margolin KA Akman SA Leong LA Morgan RJ Somlo G Raschko JW et al 1995 Phase I study of mitomycin C and menadione in advanced solid tumors Cancer Chemotherapy and Pharmacology 36 4 293 298 doi 10 1007 BF00689046 PMID 7628048 S2CID 7283959 Borst P December 2008 Mega dose vitamin C as therapy for human cancer Proceedings of the National Academy of Sciences of the United States of America 105 48 E95 author reply E96 Bibcode 2008PNAS 105E 95B doi 10 1073 pnas 0809328105 PMC 2596258 PMID 19033231 Portal nbsp Medicine Retrieved from https en wikipedia org w index php title Intravenous ascorbic acid amp oldid 1201882252, wikipedia, wiki, book, books, library,

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