abstract |
A spinal correction element in a device and method of correcting spondylolistheses in a patient transitions between a first shape and a second shape while having a first portion fixed to a forwardly displaced vertebra and a second portion fixed to an undeformed portion of the spinal column to apply a corrective force bringing a displaced vertebra into alignment with the rest of the spinal column. A shape memory material in the spinal correction element transitions from a flexible martensitic state, in which the spinal correction element matches the shape of the deformity caused by the spondylolistheses, to a rigid austenitic state, in which the spinal correction element has the shape of an expected corrected spine, to apply a corrective force to the vertebral bodies fixed to the spinal correction element, thereby correcting the deformity caused by spondylolistheses. The shape memory material is induced to transition between the rigid austenitic state and the flexible martensitic state by changing the temperature, pressure, stress, chemistry and/or another parameter of the shape memory material. |