Evaluation of an Ionic Calcium Fiber Supplement and Its Impact on Bone Health Preservation in a Dietary Calcium Deficiency Mice Model.
Sara Elisa Herrera-RodríguezEristeo García-MárquezEduardo Padilla-CamberosHugo Espinosa AndrewsPublished in: Nutrients (2022)
Ionic calcium can help in the prevention of the process of osseous decalcification. This study aimed to evaluate the physicochemical properties and toxic effects of ionic calcium-fiber supplement ( ICa + ) and its impact on bone health preservation in mice C57/BL6 fed a calcium-deficient diet. Physicochemical properties include FTIR, apparent calcium solubility estimated by the calcium ratio obtained by ionization chromatography and atomic absorption. In vitro genotoxicity and cytotoxicity of the IC a + were assessed. Twenty-five 7-week-old C57/BL6 mice were fed calcium-free diet (CFD) or CFD plus CaCO 3 (1.33 mg Ca) or CFD plus ICa + (1.33-6.66 mg Ca) for six weeks. After that, bone mass and microstructure parameters were assessed. Histological staining was performed to determine calcium deposits. ICa + (100%) exhibited an apparent calcium solubility higher than CaCO 3 (12.3%). ICa + showed no cytotoxic and genotoxic in vitro activities. Histomorphometry analysis showed that the ICa + treated group displayed a higher trabecular number than the trabecular space. Also, the ratio BV/TV was increased compared with all treatments. Ionic calcium-fiber supplementation prevents bone deterioration compared to mice fed a calcium-deficient diet.