Insertion loads of the X STOP interspinous process distraction system designed to treat neurogenic intermittent claudication.

An interspinous process implant has been developed to treat patients suffering from neurogenic intermittent claudication secondary to lumbar spinal stenosis. As most patients who suffer from spinal stenosis are over the age of 50 and may have weaker bones, it is imperative to know how bone mineral density (BMD) correlates with lateral spinous process strength. The study was undertaken to characterize the lateral failure loads of the spinous process, correlate the failure loads to BMD, and compare the failure loads to the loads required to insert an interspinous process implant.

The effect of an interspinous process implant on facet loading during extension.

Study Design: Facet loading parameters of lumbar cadaver spines were measured during extension before and after placement of an interspinous process implant.

Objective: The study was undertaken to quantify the influence of an interspinous implant on facet loading at the implanted and adjacent levels during extension.

Summary Of Background Data: Facet loading is increased during extension and decreased during flexion.

Induction of a neoarthrosis by precisely controlled motion in an experimental mid-femoral defect.

Bone regeneration during fracture healing has been demonstrated repeatedly, yet the regeneration of articular cartilage and joints has not yet been achieved. It has been recognized however that the mechanical environment during fracture healing can be correlated to the contributions of either the endochondral or intramembranous processes of bone formation, and to resultant tissue architecture. Using this information, the goal of this study was to test the hypothesis that induced motion can directly regulate osteogenic and chondrogenic tissue formation in a rat mid-femoral bone defect and thereby influence the anatomical result.