Bicarbonate from mineral water lowers bone resorption even in calcium sufficiency

International Congress Series

Volumn 1297, Issue , 2007, Pages 303-309

  Wynn Dumartheray, E ^a   Krieg, M A ^a   Burckhardt, P ^b  

^a LAUSANNE UNIVERSITY HOSPITAL   (Switzerland)

^b Clinique Bois Cerf   (Switzerland)

Author keywords

Acid base; Bicarbonate; Mineral water; Resorption markers

Indexed keywords

EID: 33947581998     PISSN: 05315131     EISSN: None     Source Type: Book Series    
DOI: 10.1016/j.ics.2006.09.001     Document Type: Article

References (17)

1. Guillemant J., et al. Mineral water as a source of dietary calcium: acute effects on parathyroid function and bone resorption in young men. American Journal of Clinical Nutrition 71 (2000) 999-1002
2. Cepollaro C., et al. Effect of calcium supplementation as a high-calcium mineral water on bone loss in early postmenopausal women. Calcified Tissue International 59 (1996) 238-239
3. Siener R., Jahnen A., and Hesse A. Influence of a mineral water rich in calcium, magnesium and bicarbonate on urine composition and the risk of calcium oxalate crystallization. European Journal of Clinical Nutrition 58 (2004) 270-276
4. Burckhardt P. Mineral waters: effects on bone and bone metabolism. In: Burckhardt P., Dawson-Hughes B., and Heaney R.P. (Eds). Nutritional Aspects of Osteoporosis (2004), Elsevier Science, USA
5. Krieger N., Frick K., and Bushinsky D. Mechanism of acid-induced bone resorption. Current Opinion in Nephrology and Hypertension 13 (2004) 423-436
6. Bushinsky D., and Frick K. The effects of acid on bone. Current Opinion in Nephrology and Hypertension 9 (2000) 369-379
7. Frassetto L., Curtis Morris R., and Sebastien A. Potassium bicarbonate reduces urinary nitrogen excretion in postmenopausal women. Journal of Clinical Endocrinology and Metabolism 82 1 (1997) 254-259
8. Frassetto L., Curtis Morris R., and Sebastian A. Effect of age on blood acid-base composition in adult humans: role of age-related renal functional decline. American Journal of Physiology 271 (1996) F1114-F1122
9. New S. Acid-base homeostasis and the skeleton: is there a fruit and vegetable link to bone health?. In: New S., and Bonjour J. (Eds). Nutritional Aspects of Bone Health (2003), The Royal Society of Chemistry, Cambridge 290-311
10. Sebastian A., et al. Improved mineral balance and skeletal metabolism in postmenopausal women treated with potassium bicarbonate. The New England Journal of Medicine 330 25 (1994) 1776-1781
11. Marangella M., et al. Effects of potassium citrate supplementation on bone metabolism. Calcified Tissue International 74 (2003) 330-335
12. Sellmeyer D., Schloetter M., and Sebastian A. Potassium citrate prevents increased urine calcium excretion and bone resorption induced by a high sodium chloride diet. The Journal of Clinical Endocrinology and Metabolism 87 5 (2002) 2008-2012
13. Tucker K., Hannan M., and Kiel D. The acid-base hypothesis: diet and bone in the Framingham Osteoporosis Study. European Journal of Nutrition 40 (2001) 231-237
14. New S. The role of the skeleton in acid-base homeostasis. Proceedings of the Nutrition Society 61 (2002) 151-164
15. Waldvogel S., et al. Bicarbonate in mineral water inhibits bone resorption. Journal of Bone and Mineral Research 17 (2002) S476-M360 (suppl)
16. Buclin T., et al. Diet acids and alkalis influence calcium retention in bone. Osteoporosis International 12 (2001) 493-499
17. Meunier P., et al. Consumption of a high calcium mineral water lowers biochemical indices of bone remodelling in postmenopausal women with low calcium intake. Osteoporosis International 16 (2005) 1203-1209