Spine Simulator
The Osman Laboratory features a custom-built, multi-axis spine simulator designed to enable high-precision biomechanical research on human spinal motion and loading.
This advanced apparatus can simulate cervical, lumbar, full-torso, and pelvis/sacroiliac motion while recording detailed kinetic and kinematic data, thanks to features like a 6-degree-of-freedom load cell, stepper-motor-driven mobility control, pneumatic actuation for axial and muscle-like loading, and full 3D motion capture capabilities. Researchers use the simulator to systematically investigate how spinal segments, surgical implants, and fixation constructs respond to complex forces and movements, generating data that support the development and evaluation of new treatments, devices, and surgical techniques for spine disorders.