CarterD. R.FyhrieD. P.WhalenR. T. (1987) Trabecular bone density and loading history: Regulation of connective tissue biology by mechanical energy, J. Biomech., 20, 785–794.
2.
CarterD. R.HayesW. C. (1976) Bone compressive strength: The influence of density and strain rate, Science, 194, 1174–1176.
3.
CarterD. R.HayesW. C. (1977) The compressive behavior of bone as a two-phase porous structure, J. Bone Jt Surg., 59-A, 954–962.
4.
CooperR. A.WeekesA. J. (1983) Data, models, and statistical analysis, Philip Allan, London.
5.
GibsonL. J. (1985) The mechanical behaviour of cancellous bone, J. Biomech., 18, 317–328.
6.
GoldsteinS. A. (1987) The mechanical properties of trabecular bone: Dependence on anatomic location and function, J. Biomech., 20, 1055–1061.
7.
HarveyP. H.MaceG. M. (1982) Comparisons between taxa and adaptive trends: Problems of methodology, in Current problems in sociobiology (Edited by Kings College Sociobiology Group). Cambridge University press, pp. 343–361.
8.
HayesW. C.CarterD. R. (1976) Postyield behavior of subchondral trabecular bone, J. biomed. Mat. Res. Symp., 7, 537–544.
9.
LindeF.HvidI. (1987) Stiffness behaviour of trabecular bone specimens, J. Biomech., 20, 83–89.
10.
LindeF.BentzenS.GothgenC. B.HvidI.PongsoipetchB. (1988) Mechanical properties of trabecular bones by a non-destructive compression testing approach, Engng Med., 17, 23–30.
11.
RaynerJ. M. V. (1985) Linear relations in biomechanics: The statistics of scaling functions, J. Zool., Lond. A., 206, 415–439.
12.
RiceJ. C.CowinS. C.BowmanJ. A. (1988) On the dependence of the elasticity and strength of cancellous bone on apparent density, J. Biomech., 21, 155–168.
