[Animals and environmentalist ethics].

While environmental ethics and animal ethics have a common source of inspiration, they do not agree on the question of the status of animals. Environmental ethicists criticise the narrowness of the reason, focused on pain, given by animal ethicists and their strictly individual point of view; they maintain that their ethical concept is less emotional and more informed by science, with a broad point of view taking natural networks into account. Animal ethicists respond critically, accusing the environmental ethicists of not having any ethical foundation.

Effect on knee motion of gradual intramedullary femoral lengthening.

Gradual femoral lengthening causes loss of knee motion due to soft tissue tightness. Lengthening with an intramedullary device would be expected to retain good knee movements since it avoids soft tissue transfixation. To ascertain this we looked at the knee movements recorded in 27 patients before, during and after bilateral simultaneous femoral lengthening using Albizzia nails.

[Cellular aspects of bone regeneration: role of bone marrow periostium].

Bone regeneration is only possible if stem cells give rise to progenitors of osteoblasts, chondroblasts or chondroidocytes. Stem cells and osteogenic progenitors were evidenced in bone marrow while only progenitors can be found in periosteum. Bone marrow stem cells did show an amazing plasticity and some cells of the bone surrounding tissues such as perivascular cells, adipocytes, muscle cells or even circulating cells are able to transdifferentiate in osteoblasts when submitted to an osteogenic environment.

Effect of the foot on the mechanical alignment of the lower limbs.

The authors evaluated the effect of the foot on the loading axis of the lower limb measured from radiographs in 30 pediatric patients. Deviation at the knee was calculated for the hip-ankle (traditional) and the hip-foot lines (heel lined up with a metal wire). A trigonometric model of the limb loading axis was developed with predicted mechanical axis deviations at the knee.

Gradual femoral lengthening with the Albizzia intramedullary nail.

Background: Gradual limb lengthening with currently used external fixation techniques can result in less than optimal outcomes, with complications including infection, stiffness of adjacent joints, and secondary axial deviation of the extremity. We describe a totally implantable lengthening device designed to provide results similar to those achieved with external fixation devices, with fewer complications and improved outcomes.

Methods: Between 1993 and 1997, thirty-one patients (forty-one femora) underwent limb lengthening with a new internal fixation technique (Albizzia) to treat a congenitally short extremity (thirteen patients), post-traumatic limb-length inequality (eleven patients), or developmental problems (seven patients).