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Title: Benfotiamine  
Author: World Heritage Encyclopedia
Language: English
Subject: Thiamine, Pyrimidines, Organophosphates, Nitriles, NS-11394
Collection: Amines, Nitriles, Organophosphates, Pyrimidines, Thioesters, Vitamin B1
Publisher: World Heritage Encyclopedia


Systematic (IUPAC) name
S-[2-{[(4-Amino-2-methylpyrimidin-5-yl)methyl] (formyl)amino}-5-(phosphonooxy)pent-2-en-3-yl] benzenecarbothioate
Clinical data
Trade names Milgamma
Legal status
Routes of
CAS Registry Number  Y
ATC code A11
PubChem CID:
ChemSpider  Y
Synonyms S-Benzoylthiamine O-monophosphate
Chemical data
Formula C19H23N4O6PS
Molecular mass 466.448 g/mol

Benfotiamine (rINN, or S-benzoylthiamine O-monophosphate) is a synthetic S-acyl derivative of thiamine (vitamin B1).

It has been licensed for use in Germany since 1993 under the trade name Milgamma. (Combinations with pyridoxine or cyanocobalamin are also sold under this name.) It is prescribed there for treating sciatica and other painful nerve conditions.[1]

It is marketed as a medicine and/or dietary supplement, depending on the respective Regulatory Authority.


  • Uses 1
  • Pharmacology 2
  • See also 3
  • References 4
  • External links 5


Benfotiamine is primarily marketed as an antioxidant dietary supplement. In a clinical study with six patients, benfotiamine lowered AGE by 40%.[2]

Benfotiamine may be useful for the treatment of diabetic retinopathy, neuropathy, and nephropathy however "Most of the effects attributed to benfotiamine are extrapolated from in vitro and animal studies. Unfortunately apparent evidences from human studies are scarce and especially endpoint studies are missing. Therefore additional clinical studies are mandatory to explore the therapeutic potential of benfotiamine in both diabetic and non-diabetic pathological conditions".[3] It is thought that treatment with benfotiamine leads to increased intracellular thiamine diphosphate levels,[3] a cofactor of transketolase. This enzyme directs advanced glycation and lipoxidation end products (AGE's, ALE's) substrates to the pentose phosphate pathway, thus reducing tissue AGEs.[4][5][6][7][8]


After absorption, benfotiamine can be dephosphorylated by cells bearing an ecto-alkaline phosphatase to the lipid-soluble S-benzoylthiamine.[9] Benfotiamine should not be confused with allithiamine, a naturally occurring thiamine disulfide derivative with a distinct pharmacological profile.[10]

See also


  1. ^ "'"BBC news story: Back pain drug 'may aid diabetics. BBC News. 18 February 2003. 
  2. ^ J Lin, A Alt, J Liersch, RG Bretzel, M Brownlee (May 2000). "Benfotiamine Inhibits Intracellular Formation of Advanced Glycation End Products in vivo" (PDF). Diabetes. 49 (Suppl1) (A143): 583. 
  3. ^ a b Balakumar P, Rohilla A, Krishan P, Solairaj P, Thangathirupathi A (2010). "The multifaceted therapeutic potential of benfotiamine". Pharmacol Res 61 (6): 482–8.  
  4. ^ Since AGEs are the actual agents productive of diabetic complications, in theory, if diabetic patients could block the action of AGEs completely by benfotiamine, strict blood sugar control, with its disruption of lifestyle and risks to health and life by severe hypoglycemic episodes, could be avoided, with revolutionary implications for the treatment of diabetes. Hammes, HP; Du, X; Edelstein, D; Taguchi, T; Matsumura, T; Ju, Q; Lin, J; Bierhaus, A; Nawroth, P; Hannak, D; Neumaier, M; Bergfeld, R; Giardino, I; Brownlee, M (2003). "Benfotiamine blocks three major pathways of hyperglycemic damage and prevents experimental diabetic retinopathy". Nat Med 9 (3): 294–299.  
  5. ^ Stirban A, Negrean M, Stratmann B; et al. (2007). "Adiponectin decreases postprandially following a heat-processed meal in individuals with type 2 diabetes: an effect prevented by benfotiamine and cooking method". Diabetes Care 30 (10): 2514–6.  
  6. ^ Stracke H, Hammes HP, Werkmann D; et al. (2001). "Efficacy of benfotiamine versus thiamine on function and glycation products of peripheral nerves in diabetic rats". Exp. Clin. Endocrinol. Diabetes 109 (6): 330–6.  
  7. ^ Stirban A, Negrean M, Stratmann B; et al. (2006). "Benfotiamine prevents macro- and microvascular endothelial dysfunction and oxidative stress following a meal rich in advanced glycation end products in individuals with type 2 diabetes". Diabetes Care 29 (9): 2064–71.  
  8. ^ Babaei-Jadidi R, Karachalias N, Ahmed N, Battah S, Thornalley PJ (2003). "Prevention of incipient diabetic nephropathy by high-dose thiamine and benfotiamine". Diabetes 52 (8): 2110–20.  
  9. ^ Yamazaki, M (1968). "Studies on the absorption of S-benzoylthiamine O-monophosphate : (I) Metabolism in tissue homogenates". Vitamins 38 (1): 12–20. 
  10. ^ Volvert, M.L.; Seyen, S.; Piette, M.; Evrard, B.; Gangolf, M.; Plumier, J.C.; Bettendorff, L. (2008). "Benfotiamine, a synthetic S-acyl thiamine derivative, has different mechanisms of action and a different pharmacological profile than lipid-soluble thiamine disulfide derivatives". BMC Pharmacology 8 (1): 10.  

External links

  • BBC news story (2003): Back pain drug 'may aid diabetics'
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