D V Rai1, R Darbari, L M Aggarwal. 1. Department of Biophysics, Panjab University, Chandigarh 160 014, India. dvrai@pu.ac.in
Abstract
Age-related changes in bone composition within the age groups of 30, 60, 120 and 180 days in rats have been studied using thermogravimetery, elemental analysis and energy dispersive Xray (ED X-ray). The structural changes in rats the bone samples were monitored by IR spectroscopy. The main constituents of hydroxyapatite, namely Ca, P and their oxides were analyzed. Organic changes, such as C and N contents in the matrix were found to have a predominant role in the initial development of the bone. An incremental increase in the mineral content of bone with advancing age was also observed. Elemental composition (C and N contents) was observed to be independent of age at the initial stages. The amount of Ca and its oxide content was found to increase, and the P and its oxides showed a decreasing trend, with the advancing age. IR spectra revealed that the mineral phase comprised both amorphous and crystalline hydroxyapatite, even at maturity; the amorphous content being higher at the earlier stages (14.09%, at 30 days), but was gradually replaced by crystalline component with advancing age (63.09% at 180 days). The present data may be useful in explaining the ageing phenomenon and helpful in understanding the bone growth and remodeling.
Age-related changes in bone composition within the age groups of 30, 60, 120 and 180 days inclass="Species">rats have beeclass="Chemical">n studied usiclass="Chemical">ng thermogravimetery, elemeclass="Chemical">ntal aclass="Chemical">nalysis aclass="Chemical">nd eclass="Chemical">nergy dispersive Xray (ED X-ray). The structural chaclass="Chemical">nges iclass="Chemical">n class="Chemical">n class="Species">rats the bone samples were monitored by IR spectroscopy. The main constituents of hydroxyapatite, namely Ca, P and their oxides were analyzed. Organic changes, such as C and N contents in the matrix were found to have a predominant role in the initial development of the bone. An incremental increase in the mineral content of bone with advancing age was also observed. Elemental composition (C and N contents) was observed to be independent of age at the initial stages. The amount of Ca and its oxide content was found to increase, and the P and its oxides showed a decreasing trend, with the advancing age. IR spectra revealed that the mineral phase comprised both amorphous and crystalline hydroxyapatite, even at maturity; the amorphous content being higher at the earlier stages (14.09%, at 30 days), but was gradually replaced by crystalline component with advancing age (63.09% at 180 days). The present data may be useful in explaining the ageing phenomenon and helpful in understanding the bone growth and remodeling.
Authors: Eva Amenta; Helen E King; Holger Petermann; Vuk Uskoković; Steven M Tommasini; Carolyn M Macica Journal: Ther Adv Chronic Dis Date: 2018-10-11 Impact factor: 5.091