LifePak Wysokiej jakości suplement zawierający pełny zestaw wielu składników odżywczych Podsumowanie

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  1. Smidt C. R., Seidehamel R. J., Devaraj S., Jialal I., The effects of a nutrinionally complete dietary supplement (LifePak) on antioxidant status and LDL/oxidation in healthy non-smokers; FASEB J., 1999; 13: A546

  2. Holvoet P., Collen D, Oxidized lipoproteins in artherosclerosis and thrombosis; FASEB J., 1994; 8: 1279-84

  3. U.S. Department of Agriculture, Agricultural Research Service. Data Tables: Results from USDA’s 1996 Continuing Survey of Food Intakes by Individuals and 1996 Diet and Health Knowledge Survey. ARS Food Surveys Research Group 97. Electronic Citation.

  4. Block G., Abrams B., Vitamin and mineral status of women of childbearing potential, Ann. N. Y. Acad. Sci., 1993; 678:244-54

  5. Pennington J. A. T., Intakes of minerals from diets and foods: Is there a need for concern?, J. Nutr., 1996; 126: 2304S-8S

  6. Benton D., Haller J., Fordy J., The vitamin status of young British adults, Int. J. Vitam. Nutr. Res., 1997; 67: 34-40

  7. Delvin E. E., Imbach A., Copti M., Vitamin D nutritional status and related biochemical indices in an autonomous elderly population, A. J. Clin. Nutr., 1988; 48: 473-8

  8. Nichols H. K., Basu T. K., Thiamin status of the elderly: dietary intake and thiamin pyrophosphate response, J. Am. Coll. Nutr., 1994; 13: 57-61

  9. Skelton W. P. III, Skelton N. K., Thiamine deficiency neuropathy. It’s still common today. Postgrad. Med., 1989; 85: 301-6

  10. Smidt L. J., Cremin F. M., Grivetti L. E., Clifford A. J., Influence of thiamin supplementation on the health and general well-being of an elderly Irish population with mariginal thiamin deficiency, J. Gerontol., 1991; 46: M 16-22

  11. Tildus P., Shephard R. J., Montelpare W., Overall intake of energy and key nutrients: data for middle-aged and older middle-class adults, Can. J. Sport Sci., 1989; 14: 173-7

  12. Gonzalez-Gross M., Ortega R. M., Andres P., Varela G., Riboflavin status in a group of institutionalized elderly, Int. J. Vitam. Res., 1991; 61: 120-4

  13. Toh S. Y., Thompson G. W., Basu T. K., Riboflavin status of the elderly: dietary intake and FAD-stimulating effect on erythrocyte glutathione reductase coefficients, Eur. J. Clin. Nutr., 1994; 48: 654-9

  14. Van der Wielen R. P., de Wild G. M., de Groot L. C., Hoefnagels W. H., van Staveren W. A., Dietary intakes of energy and water-soluble vitamins in different categories of aging, J. Gerontol. A Biol. Med Sci., 1996; 51: B 100-B107

  15. Haller J., Lowik M. R., Ferry M., Ferro-Luzzi A., Nutritional status: blood vitamins A, E, B6, B12, folic acid and carotene, Euronut. CENECA investigators. Eur. J. Clin. Nutr., 1991; 45 Suppl. 3: 63-82

  16. Albertson A. M., Tobelmann R.C., Engstrom A., Asp E. H., Nutrient intakes of 2- to 10-year-old American children: 10-year trends, J. Am. Diet. Assoc., 1992; 92: 1492-6

  17. Manore M. M., Vaughan L. A., Carroll S. S., Leklem J. E., Plasma pyridoxal 5’-phosphate concentration and dietary vitamin B-6 intake in free-living, low-income elderly people, Am. J. Clin. Nutr., 1989; 50:339-45

  18. George J. H., Brinsdon S. C., Paulin J. M., Aitken E. F., What do young adolescent New Zealanders eat? Nutrient intakes of a natiowide sample of form 1 children, N. Z. Med. J., 1993; 106: 47-51

  19. Driskell J. A., Clark A. J., Bazzarre T. L., et al., Vitamin B-6 status of southern adolescent girls, J. Am. Diet. Assoc., 1985; 85: 46-9

  20. Guilland J. C., Penaranda T., Gallet C., Boggio V., Fuchs F., Klepping J., Vitamin status of young athletes including the effects of supplementation, Med. Sci. Sports Exerc., 1989; 21: 441-9

  21. Van der Beek E. J., Lowik M. R., Hulshof K. F., Kistemaker C., Combinations of low thiamin, vitamin B6 and vitamin C intake among Dutch adults (Dutch Nutrition Surveillance System), J. Am. Coll. Nutr., 1994; 13: 383-91

  22. Kant A. K., Block G., Dietary vitamin B-6 intake and food sources in the U.S. population: NHANES II,1976-1980, Am. J. Clin. Nutr., 1990; 52(4): 707-716

  23. Sauberlich H. E., Folate status of U. S. population groups. In: Bailey L. B., ed. Folate in Health and Disease, New York: Marcel Dekker, Inc.,1995:171-95

  24. Lewis C. J., Crane N. T., Wilson D. B., Yetley E. A., Estimated folate intakes: data updated to reflect food fortification, increased bioavailability, and dietary supplement use, Am. J. Clin. Nutr., 1999; 70: 198-207

  25. Quinn K., Basu T. K., Folate amd vitamin B12 status of the elderly, Eur. J. Clin. Nutr., 1996; 50: 340-2

  26. Joosten E., van der Berg A., Riezler R., et al., Metabolic evidence that deficiences of vitamin B-12 (cobalamin), folate, and vitamin B-6 occur in elderly people, Am. J. Clin. Nutr., 1993; 58: 468-76

  27. Carmel R., Current concepts in cobalamine deficiency, Annu. Rev. Med., 2000; 51:357-75

  28. Lindenbaum J., Rosenberg I. H., Wilson P. W., Stabler S. P., Allen R. H., Prevalence of cobalamin deficiency in the Framingham elderly population, Am. J. Clin. Nutr., 1994; 60:2-11

  29. Selhub J. Jacques P. F., Wilson P. W., Rush D., Rosenberg I. H., Vitamin status and intake as primary determinants of homocysteinemia in an elderly population, JAMA, 1993; 270: 2693-8

  30. Stabler S. P., Lindenbaum J., Allen R. H., Vitamin B-12 deficiency in the elderly: current dilemmas, Am. J. Clin. Nutr., 1997; 66: 741-9

  31. Baik H. W., Russell R. M., Vitamin B12 deficiency in the elderly, Annu. Rev. Nutr., 1999; 19: 357-77

  32. Gadowsky S. L., Gale K., Wolfe S. A., Jory J., Gibson R., O’Connor D. L., Biochemical folate, B12, and iron status of a group of pregnant adolescents accessed through the public health system in southern Ontario, J. Adolesc. Health, 1995; 16: 465-74

  33. Saltzman J. R., Kemp J. A., Golner B. B., Pedrosa M. C., Dallal G. E., Russell R. M., Effect of hypochlorhydria due to omeprazole treatment or atrophic gastritis on protein-bound vitamin B12 absorption, J. Am. Coll. Nutr., 1994; 13: 584-91

  34. Lowik M. R., Schrijver J., Odink J., van der Berg H., Wedel M., Long-term effects of a vegetarian diet on the nutritional status of elderly people (Dutch Nutrition Surveillance System), J. Am. Coll. Nutr., 1990; 9: 600-9

  35. Millet P., Guilland J. C., Fuchs F., Klepping J., Nutrient intake and vitamin status of healthy French vegetarians and nonvegetarians, Am. J. Clin. Nutr., 1989; 50: 718-27

  36. Janelle K. C., Barr S. I., Nutrient intakes and eating behavior scores of vegetarian and nonvegetarian women, J. Am. Dict. Assoc., 1995; 95: 180-6, 189

  37. Clementz G. L., Schade S. G., The spectrum of vitamin B12 deficiency, Am. Fam. Physician, 1990; 41: 150-62

  38. Fleming K. H., Heimbach J. T., Consumption of calcium in the U.S.: Food sources and intake levels, J. Nutr., 1994; 124 Suppl.: 1426S-30S

  39. Costello R. B., Moser-Veillon P. B., A review of magnesium intake in the elderly. A cause for concern?, Magnes. Res., 1992; 5: 61-7

  40. Lichton I.L., Dietary intake levels and requirements of Mg and Ca for different segments of the U.S. population, Magnesium, 1989; 8: 117-23

  41. Durlach J., Durlach V., Bac P., Rayssiguler Y., Bara M., Guiet-Bara A., Magnesium and aging II. Clinical data: Actiological mechanisms and pathophysiological consequences of magnesium deficit in the elderly, Magnes. Res., 1993; 6: 379-94

  42. Gullestad L., Nes M., Ronneberg R., Midtvedt K., Falch D., Kjekshus J., Magnesium status in healthy free-living elderly Norwegians, J. Am. Coll. Nutr., 1994; 13: 45-50

  43. Prasad A. S., Zinc: and overview, Nutrition, 1995; 11: 93-9

  44. Roebothan B. V., Chandra R. K., Nutrient consumption and body size in a group of institutionalized elderly, Nutr. Res., 1994; 14: 35-9

  45. Mares-Perlman J. A., Subar A. F., Block G., Greger J. L., Luby M. H., Zinc intake and sources in the U.S. adult population: 1976-1980, J. Am. Coll. Nutr.,

1995; 14: 349-57

  1. Small S. P., Best D. G., Hustins K. A., Energy and nutrient intakes of independently living elderly women, Can. J. Nurs. Res., 1994; 26: 71-81

  2. Prasad A. S., Fitzgerald J. T., Hess J. W., Kaplan J., Pelen F., Durdenne M., Zinc deficiency in elderly patients, Nutrition, 1993; 9: 218-24

  3. Sandstead H. H., Is zinc deficiency a public health problem?, Nutrition, 1995; 11: 87-92

  4. Hambidge M., Human zinc deficiency, J. Nutr., 2000; 130: 1344S-9S

  5. Pennington J. A. T., Young B. E., Wilson D. B., Nutritional elements in U.S. diets: Results from the total diet study, 1982-86, J. Am. Diet. Assoc., 1989; 89: 659-64

  6. Klevay L. M., Cardiovascular disease from copper deficiency – A history, J. Nutr., 2000; 130: 489S-92S

  7. Uauy R., Olivares M., Gonzalez M., Essentiality of copper in humans, Am. J. Clin. Nutr., 1998; 67: 952S-9S

  8. Abdulla M., Bechbehani A., Dashti H., Diatery intake and bioavailability of trace elements, Biol. Trace Elem. Res., 1989; 21: 173-178

  9. Baghurst K. I., Record S. J., The vitamin and mineral intake of a free-living young Australian population in relation to total diet and supplementation practices, Hum. Nutr. Appl. Nutr., 1987; 41: 327-37

  10. Anderson R. A., Bryden N. A., Polansky M. M., Dietary intake of calcium, chromium, copper, iron, magnesium, manganese, and zinc: duplicate plate values corrected using derived nutrient intake, J. Am. Diet. Assoc., 1993; 93: 462-4

  11. Danks D. M., Copper deficiency in humans, Ann. Rev. Nutr., 1988; 8: 235-57

  12. Anderson R. A., Bryden N. A., Polansky M. M., Dietary chromium intake. Freely chosen diets, institutional diet, and individual foods, Biol. Trace Elem. Res., 1992; 32: 117-21

  13. Anderson R. A., Kozlovsky A. S., Chromium intake, absorption and excretion of subjects consuming self-selected diets, Am. J. Clin. Nutr., 1985; 41: 1177-83

  14. Gibson R. S., MacDonald A. C., Martinez O. B., Dietary chromium and manganese intakes of a selected sample of Canadian elderly women, Hum. Nutr. Appl. Nutr., 1985; 39: 43-52

  15. Kumpulainen J. T., Chromium content of foods and diets, Biol. Trace Elem. Res., 1992; 32:9-18

  16. Mahalko J. R., Bennion M., The effect of parity and time between pregnancies on maternal hair chromium concentration, Am. J. Clin. Nutr., 1976; 29: 1069-72

  17. Saner G., Urinary chromium excretion during pregnancy and its relationship with intravenous glucose loading, Am. J. Clin. Nutr., 1981; 34: 1676-9

  18. Saner G., The effect of the parity on maternal hair chromium concentration and the changes during pregnancy, Am. J. Clin. Nutr., 1981; 34: 853-5

  19. Ding W. J., Chai Z. E., Duan P., Feng W. Y., Qian Q. F., Serum and urine chromium concentrations in elderly diabetics, Biol. Trace Elem. Res., 1998; 63: 231-7

  20. Kant A. K., Schatzkin A., Block G., Ziegler R. G., Nestle M., Food group intake patterns and associated nutrient profiles of the U.S. population, J. Am. Diet. Assoc., 1991; 91: 1532-7

  21. Breslow R. A., Subar A. F., Patterson B. H., Block G., Trends in food intake: The 1987 and 1992 National Health Interview Surveys, Nutr. Cancer, 1997; 28: 86-92

  22. Kant A. K., Schatzkin A., Consumption of energy-danse, nutrient-poor foods by the U.S. population: effect on nutrient profiles, J. Am. Coll. Nutr., 1994; 13: 285-91

  23. Block G., Dietary guidelines and the results of food consumption surveys, Am. J. Clin. Nutr., 1991; 53: 356S-7S

  24. Cutler R. G., Antioxidants and aging, Am. J. Clin. Nutr., 1991; 53: 373S-9S

  25. Ames B. N., Micronutrients prevent cancer and delay aging, Toxicol. Lett., 1998; 102-103: 5-18

  26. Dreosti I. E., Nutrition, cancer, and aging, Ann. N. Y. Acad. Sci., 1998; 854: 371-7

  27. Ames B. N., Micronutrient deficiencies – A major cause of DNA damage, Ann. N. Y. Acad. Sci., 1999; 889: 87-106

  28. Food and Nutrition Board, National Research Council. Reccommended Dietary Allowances, Washington, D. C.: National Academy Press, 1989

  29. Herbert V., Das K. C., Folic acid and vitamin B12. In: Shils M. E., Olson J. A., Shike M., eds, Modern Nutrition in Health and Disease, Philadelphia: Lea & Febiger, 1988:388-416

  30. Kim Y. I., Folate and carcinogenesis: Evidence, mechanisms, and implications, J. Nutr. Biochem., 1999; 10: 66-88

  31. Kim Y., Folate and cancer prevention: A new medical application of folate beyond hyperhomocysteinemia and neural tube defects, Nutrition reviews, 1999; 57: 314-21

  32. Glynn S. A., Albanes D., Folate and cancer: A review of the literature, Nutr. Cancer, 1994; 22: 101-19

  33. Mason J. B., Levesque T., Folate: effects on carcinogenesis and the potential for cancer chemoprevention, Oncology (Huntingt.), 1996; 10: 1727-3

  34. Fraga C. G., Motchnik P. A., Shigenaga M. K., Helbok H. J., Jacob R. A., Ames B. N., Ascorbic acid protects against endogenous oxidative DNA damage in human sperm, Proc. Natl. Acad. Sci. U.S.A., 1991; 88: 11003-6

  35. Cooke M. S., Evans M. D., Podmore I. D., et al., Novel repair action of vitamin C upon in vivo oxidative DNA damage, FEBS Lett., 1998; 439: 363-7

  36. Sweetman S. F., Strain J. J., McKelvey-Martin V. J., Effect of antioxidant vitamin supplementation on DNA damage and repair in human lymphoblastoid cells, Nutr. Cancer, 1997; 27: 122-30

  37. Matos H. R., Di Mascio P., Mcdciros M. G. H., Protective effect of lycopene on lipid peroxidation and oxidative DNA damage in cell culture, Archives of Biochemistry and Biophysics, 2000; 383: 56-9

  38. Porrini M., Riso P., Lymhocytic lycopene concentration and DNA protection from oxidative damage is increased in women after a short period of tomato consumption, J. Nutr., 2000; 130: 189-92

  39. Riso P., Pinder A., Santangelo A., Porrini M., Does tomato consumption effectively increase the resistance of lymphocytic DNA to oxidative damage?, Am. J. Clin. Nutr., 1999; 69: 712-8

  40. Giovannucci E., Tomatoes, tomato-based products, lycopene, and cancer: Review of the epidemiologic literature, J. Natl. Cancer Inst., 1999; 91: 317-31

  41. Rao A. V., Agarwal S., Role of lycopene as antioxidant carotenoid in the prevention of chronic diseases: A review, Nutr. Res., 1999; 19: 305-23

  42. Collins A. R., Olmedilla B., Southon S., Granado F., Duthie S. J., Serum carotenoids and oxidative DNA damage in human lymphocytes, Carcinogenesis, 1998; 19: 2159-62

  43. Haegele A. D., Gillette C., O’Neill C., et al., Plasma xanthophyll carotenoids correlate inversly with indices of oxidative DNA damage and lipid peroxidation, Cancer Epidemiol. Biomarkers Prev., 2000; 9: 421-5

  44. Pool-Zobel B. L., Bub A., Müller H., Wollowski I., Rechkemmer G., Consumption of vegetables reduces genetic damage in humans: first results of a human intervention trial with carotenoid-rich foods, Carcinogenesis, 1997; 18: 1847-50

  45. Hu J. J., Chi C. X., Frenkel K., et al., α-tocopherol dietary supplement decreases titers of antibody against 5-hydroxymethy-2’-deoxyuridine (HmdU), Cancer Epidemiol. Biomarkers Prev., 1999; 8: 693-8

  46. Lee B. M., Lee S. K., Kim H. S., Inhibition of oxidative DNA damage, 8-OhdG, and carbonyl contents in smokers treated with antioxidants (vitamin E, vitamin C, β-caroten and red ginseng), Cancer Lett., 1998; 132: 219-27

  47. Hartmann A., Niess A. M., Grunert-Fuchs M., Poch B., Speit G., Vitamin E prevents exercise-induced DNA damage, Mutat. Res., 1995; 346: 195-202

  48. Devasagayam T. P., Subramanian M., Pradhan D. S., Sies H., Prevention of singlet oxygen-induced DNA damage by lipoate, Chem. Biol. Interact., 1993; 86: 79-92

  49. Leanderson P, Faresjö Å. O., Tagesson C., Green tea polyphenols inhibit oxidant-induced DNA strand breakage in cultured lung cells, Free Radical Biol. Med., 1997;23: 235-42

  50. Sai K. Kai S., Umemura T., et al., Protective effects of green tea on hepatotoxicity, oxidative DNA damage, and cell proliferation in the rat liver, induced by repeated oral administration of 2-nitropropane, Food Chem. Toxicol., 1998; 36: 1043-5

  51. Johnson M. K., Loo G., Effects of epigallocatechin gallate and quercetin on oxidative damage to cellular DNA, Mutat. Res. DNA Repair, 2000; 459: 211-8

  52. Klaunig J. E., Xu Y., Han C., et al., The effect of tea consumption on oxidative stress in smokers and and nonsmokersm Proc. Soc. Exp. Biol. Med., 1999; 220: 249-54

  53. Dithie S. J., Collins A. R., Duthie G. G., Dodson V. L., Quarcetin and myricetin protect against hydrogen peroxide-induced DNA damage (strand breaks and oxidized pyrimidines) in human lymphocytes, Mutat. Res. Genet. Toxicol. Environ. Mutagen., 1997; 393: 223-31

  54. Lean M. E., Narozzi M, Kelly I., et al., Dietary flavonols protect diabetic human lymphocytes against oxidative damage to DNA, Diabetes, 1999; 48: 176-81

  55. Cai Q. Y., Rahn R. O., Zhang R. W., Dietary flavonoids, quercetin, luteolin and genistein, reduce oxidative DNA damage and lipid peroxidation and quench free radicals, Cancer Lett., 1997; 119: 99-107

  56. Giles D., Wei H., Effect of structurally related flavons-isoflavones on hydrogen peroxide production and oxidative DNA damage in phorbol ester-stimulated HL-60 cells, Nutr. Cancer, 1997; 29: 77-82

  57. Duthie S. J., Ma A., Ross M. A., Collins A. R., Antioxidant supplementation decreases oxidative DNA damage in human lymphocytes, Cancer Res., 1996; 56: 1291-5

  58. Huang H. E., Helzlsouer K. J., Appel L. J., The effects of vitamin C and vitamin E on oxidative DNA damage: Results from randomized controlled trial, Cancer Epidemiol. Biomarkers Prev., 2000; 9: 647-52

  59. Prieme H., Loft S., Nyyssonen K., Salonen J. T., Poulsen H. E., No effect of supplementation with vitamin E, ascorbic acid, or coenzyme Q10 on oxidative DNA damage estimated by 8-oxo—7,8-dihydro-2’-deoxyguanosine excretion in smokers, Am. J. Clin. Nutr., 1997; 65: 503-7

  60. Sastre J., Pallardó F. V., de la Asunción J. G., Viña J., Mitochondria, oxidative stress, and aging, Free Radic. Res., 2000; 32: 189-98

  61. Lenaz G., D’Aurelio M., Pilch M. M., et al., Mitochondrial bioenergetics in aging, Biochim. Biophys. Acta Bio-Energetics, 2000; 1459: 397-404

  62. Shigenega M. K., Hagen T. M., Ames B. N., Oxidative damage and mitochondrial decay in aging, Proc. Natl. Acad. Sci. U.S.A., 1994; 91: 10771-8

  63. Hagen T. M., Wehr C. M., Ames B. N., Mitochondrial decay in aging, Ann. N. Y. Acad. Sci., 1998; 854: 214-23

  64. Packer L., Witt E. H., Tritschler H. J., Alpha-lipoic acid as a biological antioxidant, Free Radic. Biol. Med., 1995; 19: 227-50

  65. Suziki Y. J., Tsuchiya M., Packer L., Thioctic acid and dihydrolipoic acid are novel antioxidants which interact with reactive oxygen species, Free Radic. Res. Commun., 1991; 15: 255-63

  66. Hagen T. M., Ingersoll R.T., Lykkesfeldt J., et al. ( R ) –α-lipoic acid-supplemented old rats have improved mitochondrial function, decreased oxidative damage, and increased metabolic rate, FASEB J., 1999; 13: 411-8

  67. Khanna S., Atalay M., Laaksonen D. E., Gul M., Roy S., Sen C. K., α-lipoic acid supplementation: tissue glutathione homeostasis at rest and after exercise, J. Appl. Physiol., 1999; 86: 1191-6

  68. Sen C. K., Glutathione homeostasis in response to exercise training and nutritional supplements, Mol. Cell. Biochem., 1999; 196: 31-42

  69. Nohl H., Gille L., Evaluation of the antioxidant capacity of ubiquinol and dihydrolipoic acid, Z. Naturforsch. ( C ), 1998; 53: 250-3

  70. Packer L., Protective role of vitamin E in biological systems, Am. J. Clin. Nutr., 1991; 53: 1050S-5S

  71. Sies H., Stahl W., Sandquist A. R., Antioxidant functions of vitamins. Vitamins E and C, beta-carotene, and other carotenoids, Ann. N. Y. Acad. Sci., 1992; 669: 7-33

  72. Frei B., Reactive oxygen species and antioxidant vitamins: Mechanisms of action, Am. J. Med., 1994; 97 Suppl. 3A: 5S-13S

  73. Beyer R. E., The role of ascorbate in antioxidant protection of biomembranes: Interaction with vitamin E and coenzyme Q. J. Bioenerg. Biomembr., 1994; 26: 349-58

  74. Friedrichson T., Kalbach H. L., Buck P., van Kuijk K. J., Vitamin E in macular and peripheral tissues of the human eye, Curr. Eye Res., 1995; 14: 693-701

  75. Kritschevky S. B., Shimakowa T., Tell G. S., et al., Dietary antioxidants and carotenoid artery wall thickness,. The ARIC Study,. Atherosclerosis Risk in Communities Study, Circulation, 1995; 92: 2141-50

  76. Carpenter K. L. H., Cheeseman K. H., Van der Veen C., Taylor S. E., Walker M. K., Mitschinson M. J., Depletion of alpha-tocopherol in human atherosclerotic lesions, Free Radic. Res.,1995; 23: 549-58

  77. Deveraj S., jialal I., The effects of alpha-tocopherol on critical cells in atherogenesis, Curr. Opin. Lipodol., 1998; 9: 11-5

  78. Diaz M. N., Frei B., Vita J. A., Keancy J. F. J., Antioxidants and atherosclerotic heart disease, N. Engl. J. Med., 1997; 337: 408-416

  79. Esterbauer H., Striegl G., Puhl H., et al., The role of vitamin E and carotenoids in preventing oxidation of low density lipoproteins, Ann. N. Y. Acad. Sci., 1989; 570: 254-67

  80. Jialal I., Fuller C. J., Effect of vitamin E, vitamin C and beta-carotene on LDL oxidation and atherosclerosis, Can. J. Cardiol., 1995; 11 SupplG: 97G-103G

  81. Androne L., Gavan N. A., Veresiu I. A., Orasan R., In vivo effect of lipoic acid on lipid peroxidation in patients with diabetic neuropathy, In Vivo, 2000; 14: 327-30

  82. Biewenga G. P., Haenen G. R., Bast A., The role of lipoic acid in the treatment of diabetic polyneuropathy, Drug Metab. Rev., 1997; 29: 1025-54

  83. Borcea V., Nourooz-Zadeh J., Wolff S. P., et al., α-lipoic acid decreases oxidative stress even in diabetic patients with poor glycemic control and albuminuria, Free Radic. Biol. Med., 1999; 26: 1495-500

  84. Low P. A., Nickander K. K., Trischler H. J., The role of oxidative stress and antioxidant treatment in experimental diabetic neuropathy, Diabetes, 1997; 46: S38-S42

  85. Mistui Y., Schmelzer J. D., Zollman O. J., Mitsui M., Trischler H. J., Low P. A., Alpha-lipoic acid provides neuroprotection from ischemia-reperfusion injury of perpheral nerve, J. Neurol. Sci., 1999; 163: 11-6

  86. Ziegler D., Reljanovic M., Mehnert H., Gries F. A., α-lipoic acid in the treatment of diabetic polyneuropathy in Germany: Current evidence from clinical trials, Exp. Clin. Endocrinol. Diabetes, 1999; 107: 421-30

  87. Packer L., Trischler H. J., Wessel K., Neuroprotection by metabolic antioxidant α-lipoic acid, Free Radical. Biol. Med., 1997; 22: 359-78

  88. Ames B. N., Shigenaga M. K., Hagen T. M., Oxidants, antioxidants, and the degenerative diseases of aging, Proc. Natl. Acad. Sci. U.S.A., 1993; 90: 7915-22

  89. Hankinson S. E., Stamfer M. J., Seddon J. M., et al., Nutrient intake and cataract extraction in women: a prospective study, Brit. Med. J., 1992; 305: 335-9

  90. Jacques P. F., Taylor A., Hankinson S. E., et al., Long-term vitamin C supplement use and prevalence of early age-related lens opacities, Am. J. Clin. Nutr., 1997; 66: 911-6

  91. Knekt P., Heliovaara M, Rissanen A., Aromaa A., Aaran R. K., Serum antioxidant vitamins and risk of cataract, Brit. Med. J., 1992; 305: 1392-4

  92. Leske M. C., Chylack L. T., He Q. M., et al., Anioxidant vitamins and nuclear opacities – The longitudinal study of cataract, Ophthamology, 1998; 105: 831-6
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