Fractal analysis of lumbar vertebral cancellous bone architecture

The trabeculae of the cancellous bone are formed along the direction of the lines of stresses to which a bone is subjected. The talus sustains the weight of the body and transmits the weight in different directions (i.e., the calcaneus and navicular). The aim of the present study was to investigate

Cancellous bone consists of a network of bony struts and plates that provide mechanical strength to much of the skeleton at minimum weight. It has been shown that loss in bone mass is accompanied by architectural changes that relate to both scale and topology of the network. In this paper, the conce

Ilepm~netit of Orthopedh, Schoof of Medidtie, Utiivem'o of Y u z h d Yd, lkti (C. I.) mid Iltpurftnetit of Orthopedics, Schoof of rlfedii-itie (#.R.C.) und Uepurtntevt of Atiufotny, School offhfisttry (H. i!.A'.), i~taivemi~ of Atikuru, Artkuru, Tudt-y Transpedicular spinal fixation is a widely use

The nanoindentation technique was used to characterize the variation in the elastic modulus and hardness of human lumbar vertebral cortical and trabecular bone. The elastic modulus (and in most cases, the hardness as well) of axially aligned trabeculae cut in the transverse direction was significant

## Background: Stereological analysis of trabecular bone structure may reveal information about regional variations in stress distribution, especially in areas like the zygomatic arch in which those variations are difficult to assess mechanically. this study investigates regional differences in tra