American Diabetes Association: Standards of Medical Care in Diabetes - 2013. Diabetes Care. 2013, 36 (1): 11-66.
Article
Google Scholar
Boussageon R, Bejan-Angoulvant T, Saadatian-Elahi M, Lafont S, Bergeonneau C, Kassaï B, Erpeldinger S, Wright JM, Gueyffier F, Cornu C: Effect of intensive glucose lowering treatment on all cause mortality, cardiovascular death, and microvascular events in type 2 diabetes: meta-analysis of randomised controlled trials. BMJ. 2011, 343: 4169-
Article
Google Scholar
Vennos C, Schwabl H, Bommeli C: Phytotherapeutics in Treating Diabetes. Bioactive Food as Dietary Interventions for Diabetes. Edited by: Elservier. 2013, 139-144.
Chapter
Google Scholar
Szeto YT, Wong SC, Wong JW, Kalle W, Pak SC: In vitro Antioxidation Activity and enoprotective Effect of Selected Chinese Medicinal Herbs. Am J Chin Med. 2011, 39: 827-838.
Article
PubMed
Google Scholar
Xi M, Hai C, Tang H, Chen M, Fang K, Liang X: Antioxidant and Antiglycation Properties of Total Saponins extracted from Traditional Chinese Medicine used to treat Diabetes Mellitus. Phytother Res. 2008, 22: 228-237.
Article
CAS
PubMed
Google Scholar
Neyestani TR, Shariatzade N, Kalayi A, Gharavi A, Khalaji N, Dadkhah M, Zowghi T, Haidari H, Shab-bidar S: Regular daily intake of black tea improves oxidative stress biomarkers and decreases serum C-reactive protein levels in type 2 diabetic patients. Ann Nutr Metab. 2010, 57: 40-49.
Article
CAS
PubMed
Google Scholar
Lunceford N, Gugliucci A: Ilex paraguariensis extracts inhibit AGE formation more efficiently than green tea. Fitoterapia. 2005, 76: 419-427.
Article
PubMed
Google Scholar
Tian DN, Wu FH, Ma SC, Li D, Dai Y: Studies on anti-hyperglycemic effect and its mechanism of Clinopodium chinense. Zhongguo Zhong Yao Za Zhi. 2008, 33: 1313-1316.
PubMed
Google Scholar
Lu PP, Liu JT, Liu N, Xu L: Protective effect of total flavonoid of Herba Pyrolae on acute myocardial ischemic injury induced by isoproterenol in rats. Zhong Yao Cai. 2010, 33: 73-76.
CAS
PubMed
Google Scholar
Schwabl H, Geistlich S, McHugh E: Tibetan Medicines in Europe: Historical, Practical and Regulatory Aspects [German]. Forsch Komplementärmed. 2006, 13 (1): 1-6.
Article
Google Scholar
Schwabl H, Vennos C: The "multi-target" approach of Tibetan remedies. Mechanisms of action of Padma 28 in inflammation, with the example of atherosclerosis. [German]. Schweiz Zschr GanzheitsMedizin. 2006, 18: 213-218.
Article
Google Scholar
Vennos C, Melzer J, Saller R: Clinical Studies on the Efficacy and Safety of Padma 28, a Complex Herbal Formulation from Tibetan Medicine: An Overview. Forschende Komplementärmedizin. 2013, 20 (2): 25-30.
Article
PubMed
Google Scholar
von Muralt PD: Paresthesias in diabetes mellitus: Therapy approaches with Padma 28 [German]. Schweiz Z Ganzheitsmed. 2012, 22: 209-210.
Article
Google Scholar
Kneip B: Padma 28 in Cytostatic-Induced Dysesthesia and Edema of the Hands – a Case from Practice [German]. Forschende Komplementärmedizin. 2013, 20 (2): 33-34.
Article
PubMed
Google Scholar
Rüttgers JO: Crux medicorum: Ulcerated leg. Long-term treatment of chronic Ulcus cruris venosum with PADMA 28® and lymph drainage [German]. Schweiz Zschr GanzheitsMedizin. 2004, 16: 278-280.
Google Scholar
Suter M, Richter C: Anti- and pro-oxidative properties of PADMA 28, a Tibetan herbal formula. Redox Rep. 2000, 5 (1): 17-22.
Article
CAS
PubMed
Google Scholar
Ginsburg I, Sadovnik M, Sallon S, Milo-Goldzweig I, Mechoulam R, Breuer A, Gibbs D, Varani J, Roberts S, Cleator E, Singh N: PADMA-28, a traditional Tibetan herbal preparation inhibits the respiratory burst in human neutrophils. the killing of epithelia cells by mixtures of oxidants and pro-inflammatory agonists and peroxidation of lipids. Inflammopharmacology. 1999, 7: 47-62.
Article
CAS
PubMed
Google Scholar
Brunner-La Rocca HP, Schindler R, Schlumpf M, Saller R, Suter M: Effects of the Tibetan herbal preparation Padma 28 on blood lipids and lipid oxidisability in subjects with mild hypercholesterolaemia. VASA. 2005, 34: 11-17.
Article
CAS
PubMed
Google Scholar
von Muralt PD: Parästhesien bei Diabetes mellitus Therapieansätze mit PADMA 28. Schweiz Z Ganzheitsmed. 2010, 22: 209-210.
Article
Google Scholar
Rüttgers JO: Polyneuropathie: Therapie mit Padma 28 – Wirksamkeit eines tibetischen Vielstoffgemisches. Schweiz Z Ganzheitsmed. 2014, 26: 146-148.
Article
Google Scholar
Ginsburg I, Rozenstein-Tsalkovich L, Koren E, Rosenmann H: The herbal preparation Padma 28 protects against neurotoxicity in PC12 cells. Phytother Res. 2011, 25: 740-743.
Article
PubMed
Google Scholar
Grzebyk E, Knapik-Kordecka M, Piwowar A: Advanced glycation end-products and cathepsin cysteine protease in type 2 diabetic patients. Pol Arch Med Wewn. 2013, 123 (7–8): 364-370.
CAS
PubMed
Google Scholar
Münch G, Wessels A, Riederer P, Riederer P, Bahner U, Heidland A, Niwa T, Lemke HD, Schinzel R: Determination of advanced glycation end products in serum by fluorescence spectroscopy and competitice ELISA. Eur J Clin Chem Clin Biochem. 1997, 9: 669-677.
Google Scholar
Witko-Sarsat V, Friedlander M, Capeillère-Blandin C, Nguyen-Khoa T, Nguyen AT, Zingraff J, Jungers P, Descamps-Latscha B: Advanced oxidation protein products as a novel marker of oxidative stress in uremia. Kidney Int. 1996, 49: 1304-1313.
Article
CAS
PubMed
Google Scholar
Danaei G, Finucane MM, Lu Y, Singh GM, Cowan MJ, Paciorek CJ, Lin JK, Farzadfar F, Khang YH, Stevens GA, Rao M, Ali MK, Riley LM, Robinson CA, Ezzati M: Global Burden of Metabolic Risk Factors of Chronic Diseases Collaborating Group (Blood Glucose). National, regional, and global trends in fasting plasma glucose and diabetes prevalence since 1980: systematic analysis of health examination surveys and epidemiological studies with 370 country-years and 2·7 million participants. Lancet. 2011, 378 (9785): 31-40.
Article
CAS
PubMed
Google Scholar
Sallon S, Beer G, Rosenfeld J, Anner H, Volcoff D, Ginsberg G: The efficacy of Padma 28, a herbal preparation, in the treatment of intermittent claudication: a controlled double- blind pilot study with objective assessment of chronic occlusive arterial disease patients. J Vasc Invest. 1998, 4: 129-136.
Google Scholar
Kalousová M, Zima T, Tesar V, Dusilová-Sulková S, Skrha J: Advanced glycoxidation end products in chronic diseases-clinical chemistry and genetic background. Mutat Res. 2005, 579 (1–2): 37-46.
Article
PubMed
Google Scholar
Skvarilová M, Bulava A, Stejskal D, Adamovská S, Bartek J: Increased level of advanced oxidation products (AOPP) as a marker of oxidative stress in patients with acute coronary syndrome. Biomed Pap Med Fac Univ Palacky Olomouc Czech Repub. 2005, 149 (1): 83-87.
Article
PubMed
Google Scholar
Marsche G, Frank S, Hrzenjak A, Holzer M, Dirnberger S, Wadsack C, Scharnagl H, Stojakovic T, Heinemann A, Oettl K: Plasma-advanced oxidation protein products are potent high-density lipoprotein receptor antagonists in vivo. Circ Res. 2009, 104 (6): 750-757.
Article
CAS
PubMed
PubMed Central
Google Scholar
Peppa M, Uribarri J, Vlassara H: Glucose, Advanced Glycation End Products, and Diabetes Complications: What Is New and What Works. Clinical Diabetes October. 2003, 21 (4): 186-187.
Article
Google Scholar
Rösen P, Nawroth PP, King G, Möller W, Tritschler HJ, Packer L: The role of oxidative stress in the onset and progression of diabetes and its complications: a summary of a Congress Series sponsored by UNESCO-MCBN, the American Diabetes Association and the German Diabetes Society. Diabetes Metab Res Rev. 2001, 17: 189-212.
Article
PubMed
Google Scholar
Vennos C, Loepfe C: Pathogenese und pleiotrope Behandlungsansätze bei diabetischen Folgeerkrankungen – Übersicht über Wirkmechanismen von Padma 28. Schweiz Z Ganzheitsmed. 2014, 26 (4): in press
Google Scholar
Desai CK, Huang J, Lokhandwala A, Fernandez A, Riaz IB, Alpert JS: The Role of Vitamin Supplementation in the Prevention of Cardiovascular Disease Events. Clin Cardiol. 2014, in press
Google Scholar