| dc.description | Bone mass (BM) determination according to kineantropometric methods is usually made on each model of a new corporal fractionation. The cadaverous validation of these methods is scarce, except from the model of <A HREF="#kerr88">KERR (1988)</A> and the cadaverous study of Brussels, <A HREF="#clarys">CLARYS et al. (1984)</A>, therefore, to attain a validation according to modern methodology and up to date could contribute important background in the study of the osteo-calcic metabolism. Nowadays, the evaluation of the bone mineral density (BMD) and the bone mineral content (BMC) by means of the fotonic dual absorciometry, widely known as osseous densitometry (OD) are recognised; consequently, the validation of the antropometric formulae of MO v/s DO could contribute reliable data of the osseous condition of the body. The subjects are 19 volleyball players, 10 men and 9 women, from university teams, whom were first kineantropometrically evaluated-according to the rules of the International Society for Advances in Kineatropometry (ISAK)- and, immediately after, underwent a full-length DO in a Fotonic Dual Densytometer (NORLAND XR 26, Mark II, 1994). We set up the correlations between the BMC and the BMD v/s the following antropometric estimations of MO: D. Kerr, Von Dobeln and Makiegka modified by <A HREF="#martin">A. Martin (1984)</A>. The results show correlations statistically significant among the different models v/s DO (p<0.05); however, the determination coefficient (r2) do not reach 50%. These results suggest that when there is a relation statistically significant, the MO antropometric models for the estimation of the MO could not estimate BMC nor BMD, this is because the concept of the osseous density is not related with the osseous weight in a 100%, since this one, apart from containing minerals, contains water and organic matter | |
