BACKGROUND: Supplementation of individual micronutrient is inadequate for maintaining bone function because single micronutrient can not contribute significantly a positive remodeling balance. OBJECTIVE: We developed the highly integrated, stably dietary multi-micronutrients with good bioavailability and low adverse effect on the improvement of bone consolidation in osteoporosis. METHODS: The trace element-codoped calcium phosphate (teCaP) particles were prepared in the modified body fluid and carefully evaluated. Rats, aged 3 months, were ovariectomized and when 6 month intervened with the conditioned, low, moderate, and high teCaP diets. RESULTS: The teCaP particles showed highly dissolvable in stomach juice-mimicing acidic solutions. Three months after intervention, the body weight increase showed remarkable differences among the low teCaP diet (~52 g), moderate teCaP diet (~34 g) and high teCaP diet (~23 g) group. In particular, the intake of moderate teCaP greatly improved the retention of trace elements in femural bone for better protection against the skeletal weakening, and resulted in a significant increase of bone mineral density (104.06%) in comparison with the conventional high calcium plus vitamin D3 diet (Control group). CONCLUSIONS: These investigations improve our understanding of micronutrient retention on bone consolidation in osteoporotic bone tissue, and also provide new mild wet-chemical approach to prepare potent nutritionally effective edible complements to synergistically relieve bone degeneration and prevent osteoporosis.
BACKGROUND: Supplementation of individual micronutrient is inadequate for maintaining bone function because single micronutrient can not contribute significantly a positive remodeling balance. OBJECTIVE: We developed the highly integrated, stably dietary multi-micronutrients with good bioavailability and low adverse effect on the improvement of bone consolidation in osteoporosis. METHODS: The trace element-codoped calcium phosphate (teCaP) particles were prepared in the modified body fluid and carefully evaluated. Rats, aged 3 months, were ovariectomized and when 6 month intervened with the conditioned, low, moderate, and high teCaP diets. RESULTS: The teCaP particles showed highly dissolvable in stomach juice-mimicing acidic solutions. Three months after intervention, the body weight increase showed remarkable differences among the low teCaP diet (~52 g), moderate teCaP diet (~34 g) and high teCaP diet (~23 g) group. In particular, the intake of moderate teCaP greatly improved the retention of trace elements in femural bone for better protection against the skeletal weakening, and resulted in a significant increase of bone mineral density (104.06%) in comparison with the conventional high calcium plus vitamin D3 diet (Control group). CONCLUSIONS: These investigations improve our understanding of micronutrient retention on bone consolidation in osteoporotic bone tissue, and also provide new mild wet-chemical approach to prepare potent nutritionally effective edible complements to synergistically relieve bone degeneration and prevent osteoporosis.
Authors: K M Davies; R P Heaney; R R Recker; J M Lappe; M J Barger-Lux; K Rafferty; S Hinders Journal: J Clin Endocrinol Metab Date: 2000-12 Impact factor: 5.958
Authors: Florentine M Hilty; Myrtha Arnold; Monika Hilbe; Alexandra Teleki; Jesper T N Knijnenburg; Felix Ehrensperger; Richard F Hurrell; Sotiris E Pratsinis; Wolfgang Langhans; Michael B Zimmermann Journal: Nat Nanotechnol Date: 2010-04-25 Impact factor: 39.213
Authors: C Capuccini; P Torricelli; F Sima; E Boanini; C Ristoscu; B Bracci; G Socol; M Fini; I N Mihailescu; A Bigi Journal: Acta Biomater Date: 2008-05-23 Impact factor: 8.947