Données nouvelles sur la prévention nutritionnelle de l’ostéoporose

Véronique Coxam

doi:10.1051/medsci/2005213297

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Volume 21 / Numéro 3 (Mars 2005)

Med Sci (Paris), 21 3 (2005) 297-301

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Numéro		Med Sci (Paris) Volume 21, Numéro 3, Mars 2005


Page(s)		297 - 301
Section		M/S revues
DOI		https://doi.org/10.1051/medsci/2005213297
Publié en ligne		15 mars 2005

Rapport de la Communauté Européenne. Building strong bones and preventing fractures. Summary report on osteoporosis in the European Community. Action for prevention. Bruxelles : Communauté Européenne, 1999. [Google Scholar]
Meunier PJ, Hercberg S. La prévention nutritionnelle de l’ostéoporose. In : Comptes rendus des Entretiens de Bichat Thérapeutique. Paris : Expansion Scientifique Française, 1999. [Google Scholar]
Guéguen L. Calcium. In : Martin A, ed. Apports nutritionnels conseillés pour la population française, 3e ed. Paris : Éditions Tec et Doc, 2001 : 131–40. [Google Scholar]
Heaney RP. Prévention non médicamenteuse de l’ostéoporose : nutrition et exercice physique. In : Meunier PJ, ed. Ostéoporose : progrès dans le diagnostic et la prise en charge. Londres : Martin Dunitz, 1998 : 163–76. [Google Scholar]
Potier De Courcy G. Estimation du statut en vitamines et minéraux de la population française d’après des enquêtes récentes. Cahiers Nutr Diet 1999; 34 : 77–87. [Google Scholar]
Cruz JA, Moreiras-Varela O, Van Staveren WA, et al. Intake of vitamins and minerals. Eur J Clin Nutr 1991; 45 : 121–38. [Google Scholar]
Chapuy MC, Arlot M, Dubœuf F. Vitamin D3 and calcium to prevent hip fracture. N Engl J Med 1992; 327 : 1637–42. [Google Scholar]
Matkovic V, Ilich JZ, Andon MB. Urinary calcium, sodium, and bone mass of young females. Am J Clin Nutr 1995; 62 : 417–25. [Google Scholar]
Zarkadas M, Gougeon-Reyburn R, Marliss EB, et al. Sodium chloride supplementation and urinary calcium excretion in postmenopausal women. Am J Clin Nutr 1989; 50 : 1088–94. [Google Scholar]
Castenmiller JJ, Mensink RP, Van der Heijden L. The effect of dietary sodium on urinary calcium and potassium excretion in normotensive men with different calcium intakes. Am J Clin Nutr 1985; 41 : 52–60. [Google Scholar]
Palmieri GM, Pitcock JA. Osteoporosis and hypercalciuria secondary to excessive salt ingestion. J Lab Clin Med 1995; 126 : 503. [Google Scholar]
Frassetto LA, Todd KM, Morris RC, et al. Worldwide incidence of hip fracture in elderly women : relation to consumption of animal and vegetal foods. J Gerontol 2000; 55A : M585–92. [Google Scholar]
New SA, Mc Donald HM, Grubb DA, et al. Positive association between net endogenous noncarbonic acid production (NEAP) and bone health : further support for the importance of the skeleton to acid-base balance. Bone 2001; 28 : S94. [Google Scholar]
Bonjour JP, Schurch MA, Rizzoli R. Nutritional aspects of hip fractures. Bone 1996; 18 : 139–44. [Google Scholar]
Watkins BA, Lippman HE, Le Bouteiller LL, et al. Bioactive fatty acids : role in bone biology and bone cell function. Prog Lipid Res 2001; 40 : 125–48. [Google Scholar]
Mody N, Parhami F, Sarafian TA, et al. Oxidative stress modulates osteoblastic differentiation of vascular and bone cells. Free Radic Biol Med 2001; 31 : 509–19. [Google Scholar]
Horiuchi T, Onouchi T, Takahashi M, et al. Effect of soy protein on bone metabolism in postmenopausal Japanese women. Osteoporos Int 2000; 11 : 721–4. [Google Scholar]
Potter SM, Baun JA, Teng H, et al. Soy protein and isoflavones : their effects on blood lipids and bone density in postmenopausal women. Am J Clin Nutr 1998; 68 : 1375–9. [Google Scholar]
Alekel DL, St Germain A, Peterson CT, et al. Isoflavone-rich soy protein isolate attenuates bone loss in the lumbar spine of perimenopausal women. Am J Clin Nutr 2000; 72 : 844–52. [Google Scholar]
Somekawa Y, Chiguchi M, Ishibashi T, et al. Soy intake related to menopausal symptoms, serum lipids, and bone mineral density in postmenopausal Japanese women. Obstet Gynecol 2001; 97 : 109–15. [Google Scholar]
Greendale GA, Fitzgerald G, Huang MH, et al. Soy isoflavones and bone mineral density : results from the study of women’s health across the nation. Am J Epidemiol 2002; 155 : 746–54. [Google Scholar]
Morabito N, Crisafulli A, Vergara C, et al. Effects of genistein and hormone-replacment therapy on bone loss in early postmenopausal women : a randomized double-blind placebocontrolled study. J Bone Min Res 2002; 17 : 1904–12. [Google Scholar]
Branca F. Dietary phyto-estrogens and bone health. Proc Nutr Soc 2003; 62 : 877–87. [Google Scholar]
Setchell KD, Lydeking-Olsen E. Dietary phytoestrogens and their effect on bone : evidence from in vitro and in vivo, human observational, and dietary intervention studies. Am J Clin Nutr 2003; 78 (suppl) : S593S–609. [Google Scholar]
Tucker KL, Hannan MT, Chen H, et al. Potassium, magnesium, and fruit and vegetable intakes are associated with greater bone mineral density in elderly men and women. Am J Clin Nutr 1999; 69 : 727–36. [Google Scholar]
Horcajada-Molteni MN, Coxam V. Flavonols and iodoflavones prevent bone loss in the ovariectomized rat, a model for postmenopausal osteoporosis. In : Burkhardt F, ed. Nutritional aspects of osteoporosis. San Diego, CA : Academic Press, 2001 : 325–40. [Google Scholar]
Hall SL, Greendale GA. The relation of dietary vitamin C intake to bone mineral density : results from the PEPI study. Calcif Tissue Int 1998; 63 : 183–9. [Google Scholar]
Maenpaa PH, Pirhonen A, Pirskanen A, et al. Biochemical indicators related to antioxidant status and bone metabolic activity in Finnish elderly men. Int Vitam Nutr Res 1989; 59 : 14–9. [Google Scholar]
Vermeer C, Knapen MH, Jie KS. Increased vitamin K intake may retard post-menopausal loss of bone mass. In : Burckhardt P, Heaney RP, eds. Nutritional aspects of osteoporosis 94. Rome : Ares-Serono Symposia Publications, 1995 : 367–79. [Google Scholar]
Das UN. Essential fatty acids and osteoporosis. Nutrition 2000; 16 :386–90. [Google Scholar]

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[1] Rapport de la Communauté Européenne. Building strong bones and preventing fractures. Summary report on osteoporosis in the European Community. Action for prevention. Bruxelles : Communauté Européenne, 1999. [Google Scholar]

[2] Meunier PJ, Hercberg S. La prévention nutritionnelle de l’ostéoporose. In : Comptes rendus des Entretiens de Bichat Thérapeutique. Paris : Expansion Scientifique Française, 1999. [Google Scholar]

[3] Guéguen L. Calcium. In : Martin A, ed. Apports nutritionnels conseillés pour la population française, 3e ed. Paris : Éditions Tec et Doc, 2001 : 131–40. [Google Scholar]

[4] Heaney RP. Prévention non médicamenteuse de l’ostéoporose : nutrition et exercice physique. In : Meunier PJ, ed. Ostéoporose : progrès dans le diagnostic et la prise en charge. Londres : Martin Dunitz, 1998 : 163–76. [Google Scholar]

[5] Potier De Courcy G. Estimation du statut en vitamines et minéraux de la population française d’après des enquêtes récentes. Cahiers Nutr Diet 1999; 34 : 77–87. [Google Scholar]

[6] Cruz JA, Moreiras-Varela O, Van Staveren WA, et al. Intake of vitamins and minerals. Eur J Clin Nutr 1991; 45 : 121–38. [Google Scholar]

[7] Chapuy MC, Arlot M, Dubœuf F. Vitamin D3 and calcium to prevent hip fracture. N Engl J Med 1992; 327 : 1637–42. [Google Scholar]

[8] Matkovic V, Ilich JZ, Andon MB. Urinary calcium, sodium, and bone mass of young females. Am J Clin Nutr 1995; 62 : 417–25. [Google Scholar]

[9] Zarkadas M, Gougeon-Reyburn R, Marliss EB, et al. Sodium chloride supplementation and urinary calcium excretion in postmenopausal women. Am J Clin Nutr 1989; 50 : 1088–94. [Google Scholar]

[10] Castenmiller JJ, Mensink RP, Van der Heijden L. The effect of dietary sodium on urinary calcium and potassium excretion in normotensive men with different calcium intakes. Am J Clin Nutr 1985; 41 : 52–60. [Google Scholar]

[11] Palmieri GM, Pitcock JA. Osteoporosis and hypercalciuria secondary to excessive salt ingestion. J Lab Clin Med 1995; 126 : 503. [Google Scholar]

[12] Frassetto LA, Todd KM, Morris RC, et al. Worldwide incidence of hip fracture in elderly women : relation to consumption of animal and vegetal foods. J Gerontol 2000; 55A : M585–92. [Google Scholar]

[13] New SA, Mc Donald HM, Grubb DA, et al. Positive association between net endogenous noncarbonic acid production (NEAP) and bone health : further support for the importance of the skeleton to acid-base balance. Bone 2001; 28 : S94. [Google Scholar]

[14] Bonjour JP, Schurch MA, Rizzoli R. Nutritional aspects of hip fractures. Bone 1996; 18 : 139–44. [Google Scholar]

[15] Watkins BA, Lippman HE, Le Bouteiller LL, et al. Bioactive fatty acids : role in bone biology and bone cell function. Prog Lipid Res 2001; 40 : 125–48. [Google Scholar]

[16] Mody N, Parhami F, Sarafian TA, et al. Oxidative stress modulates osteoblastic differentiation of vascular and bone cells. Free Radic Biol Med 2001; 31 : 509–19. [Google Scholar]

[17] Horiuchi T, Onouchi T, Takahashi M, et al. Effect of soy protein on bone metabolism in postmenopausal Japanese women. Osteoporos Int 2000; 11 : 721–4. [Google Scholar]

[18] Potter SM, Baun JA, Teng H, et al. Soy protein and isoflavones : their effects on blood lipids and bone density in postmenopausal women. Am J Clin Nutr 1998; 68 : 1375–9. [Google Scholar]

[19] Alekel DL, St Germain A, Peterson CT, et al. Isoflavone-rich soy protein isolate attenuates bone loss in the lumbar spine of perimenopausal women. Am J Clin Nutr 2000; 72 : 844–52. [Google Scholar]

[20] Somekawa Y, Chiguchi M, Ishibashi T, et al. Soy intake related to menopausal symptoms, serum lipids, and bone mineral density in postmenopausal Japanese women. Obstet Gynecol 2001; 97 : 109–15. [Google Scholar]

[21] Greendale GA, Fitzgerald G, Huang MH, et al. Soy isoflavones and bone mineral density : results from the study of women’s health across the nation. Am J Epidemiol 2002; 155 : 746–54. [Google Scholar]

[22] Morabito N, Crisafulli A, Vergara C, et al. Effects of genistein and hormone-replacment therapy on bone loss in early postmenopausal women : a randomized double-blind placebocontrolled study. J Bone Min Res 2002; 17 : 1904–12. [Google Scholar]

[23] Branca F. Dietary phyto-estrogens and bone health. Proc Nutr Soc 2003; 62 : 877–87. [Google Scholar]

[24] Setchell KD, Lydeking-Olsen E. Dietary phytoestrogens and their effect on bone : evidence from in vitro and in vivo, human observational, and dietary intervention studies. Am J Clin Nutr 2003; 78 (suppl) : S593S–609. [Google Scholar]

[25] Tucker KL, Hannan MT, Chen H, et al. Potassium, magnesium, and fruit and vegetable intakes are associated with greater bone mineral density in elderly men and women. Am J Clin Nutr 1999; 69 : 727–36. [Google Scholar]

[26] Horcajada-Molteni MN, Coxam V. Flavonols and iodoflavones prevent bone loss in the ovariectomized rat, a model for postmenopausal osteoporosis. In : Burkhardt F, ed. Nutritional aspects of osteoporosis. San Diego, CA : Academic Press, 2001 : 325–40. [Google Scholar]

[27] Hall SL, Greendale GA. The relation of dietary vitamin C intake to bone mineral density : results from the PEPI study. Calcif Tissue Int 1998; 63 : 183–9. [Google Scholar]

[28] Maenpaa PH, Pirhonen A, Pirskanen A, et al. Biochemical indicators related to antioxidant status and bone metabolic activity in Finnish elderly men. Int Vitam Nutr Res 1989; 59 : 14–9. [Google Scholar]

[29] Vermeer C, Knapen MH, Jie KS. Increased vitamin K intake may retard post-menopausal loss of bone mass. In : Burckhardt P, Heaney RP, eds. Nutritional aspects of osteoporosis 94. Rome : Ares-Serono Symposia Publications, 1995 : 367–79. [Google Scholar]

[30] Das UN. Essential fatty acids and osteoporosis. Nutrition 2000; 16 :386–90. [Google Scholar]