THE STRENGTH PROFILE OF THE THORACOLUMBAR ENDPLATE REFLECTS THE SAGITTAL CONTOURS OF THE SPINE

The purpose of this study was to investigate the strength profile of the thoracolumbar endplate. Indentation testing was performed on the T9, T12, and L2 endplates of six fresh-frozen human cadaver vertebrae. Indentations were performed in a standardized rectangular grid pattern of seven columns and five rows. There was an incremental increase in the strength of each row moving anterior and posterior from the central row. The relative strength of the anterior regions of the endplate increased with rostral ascent into the thoracic spine. The purpose of this study was to map the strength profile of the thoracolumbar endplates using indentation testing. Indentation testing was performed on the T9, T12, and L2 endplates of six fresh-frozen human cadaver spines using a materials testing machine (Dynamight, Instrom Corporation, Canton, MA). A minimum of twenty-five indentations was performed in a rectangular grid (seven columns by five rows). A 3mm hemispherical indendor was lowered at 0.2mm/s to a depth of 3mm producing endplate failure. The failure load significantly varied with the AP and LAT positions (p The periphery of the thoracolumbar endplate is stronger than the centre. The interaction identified between position and level suggests a relative strength increase in the anterior aspect of the endplate with rostral ascent into the thoracic spine. This knowledge may assist in preventing intervertebral inplant subsidence by influencing implant positioning and design. Funding: Canadian Institutes of Health Research Please contact author for figures and/or graphs.