Naghii Mohammad Reza, Torkaman Giti, Mofid Mahmood
Department of Nutrition, Faculty of Health, Baqiyatallah (a.s.) University of Medical Sciences, Tehran, Iran.
Biofactors. 2006;28(3-4):195-201. doi: 10.1002/biof.5520280306.
The objective of this study was to consider the effects of boron (B) and calcium (Ca) supplementation on mechanical properties of bone tissues and mineral content of the selected bones in rats.
Adult male Sprague Dawley rats underwent three different treatments with boron and calcium in their drinking water, while taking diet ad libitum for 4 weeks. Rats in the three treatment groups received 2 mg B/d, 300 mg Ca/d, and a combination of 2 mg B+ 300 mg Ca/d, respectively. After the experimental period body weights were recorded and bone mechanical properties were determined on the tibiae, femurs, and fifth lumbar vertebral bones and the mineral contents of these bones was calculated as the ash percentage.
Better measurement of bone mechanical properties were observed for boron supplementation. The stiffness of the lumbar vertebral bones tended to increase in all groups and was significant for Ca supplementation. The significant maximal load obtained for boron in all bones indicates higher strength and less strength for apparently a high level of calcium, while this negative defect in the case of lumbar vertebral bones was corrected in the presence of boron. Highest mean energy to maximal load was shown with boron supplementation, demonstrating significant values with Ca group, and lower energy for the lumbar vertebral bones in Ca group in comparison with the controls. Less deformation at the yield points was shown in Ca group. There were no significant differences in ash weights among the four groups.
Additional and longer studies are warranted to further determine the effects of supplemental boron with different calcium levels and possibly other minerals involved in bone mechanical properties in rats.
本研究的目的是探讨补充硼(B)和钙(Ca)对大鼠骨组织力学性能及所选骨骼矿物质含量的影响。
成年雄性Sprague Dawley大鼠在随意进食的同时,对其饮用水进行三种不同的硼和钙处理,持续4周。三个处理组的大鼠分别接受2毫克硼/天、300毫克钙/天以及2毫克硼+300毫克钙/天的组合处理。实验期结束后,记录体重,并测定胫骨、股骨和第五腰椎骨的骨力学性能,同时计算这些骨骼的矿物质含量,以灰分百分比表示。
补充硼后观察到骨力学性能的测量结果更佳。所有组腰椎骨的刚度均有增加趋势,补充钙的组差异显著。所有骨骼中硼的显著最大负荷表明其强度较高,而钙含量过高时强度较低,而在硼存在的情况下,腰椎骨的这种负面缺陷得到了纠正。补充硼时显示出最高的平均最大负荷能量,钙组也有显著值,与对照组相比,钙组腰椎骨的能量较低。钙组在屈服点的变形较小。四组之间的灰分重量无显著差异。
有必要进行更多和更长时间的研究,以进一步确定不同钙水平补充硼以及可能涉及大鼠骨力学性能的其他矿物质的影响。
