Portfolio

Upcoming Event

Johnson & Johnson Mechanical Testing and Analysis Summit 
Robb Colbrunn, Ph.D., Guest Speaker
Director of BioRobotics and Mechanical Testing Core
Medical Device Solutions (MDS) Cleveland Clinic
Adjunct Assistant Professor, Cleveland Clinic Lerner College of Medicine of Case Western Reserve University
September 18-20, 2018
Syracuse, IN

BME GUEST SPEAKER SEMINAR
"Back to Metabolism Basics:Transport and Bioenergetics in Tumors and Brain Endothelial Cells"
Lester R. Drewes, Ph.D.
Professor of 
Biochemistry & Molecular Biology
Director, Graduate Programs, MSD
Department of Biomedical Sciences
University of Minnesota Medical School Duluth
Hosted by Chaitali Ghosh, PhD.
September 28, 2018



Biomechanical Analysis of a Unique Interspinous Fixation Device Intended for Minimally Invasive Spinal Fusion.

Client: Lars Gilbertson Ph.D. / Cleveland Clinic and Bill Marras Ph.D. / The Ohio State University

Services Provided: Experiment Design / Robotic Spine Joint Testing / Data Analysis / Manuscript Preparation

Stabilization has proven to increase the fusion rates in the lumbar spine. Surgeons are continuously trying to achieve the goals of spine surgery using less invasive techniques. A new minimally invasive device has been approved to fixate two adjacent interspinous (IS) processes while the fusion occurs between the 2 vertebrae. The purpose of performing this study is to biomechanically compare different fixation systems for the stability supplementation in a Transforaminal Lumbar Interbody Fusions (TLIF). Cadaveric specimens from T12 to the sacrum were mounted to the robot. A stability comparison, through measuring the amount of motion between the instrumented vertebral segments, was done among the following scenarios: 1) intact spine, 2) TLIF, 3) TLIF with IS Fixation Device (ISD), 4) TLIF with ISD and unilateral pedicle screws, 5) TLIF with bilateral pedicle screws. The robot applied pure moment ±6Nm cycles in flexion-extension (FE), lateral bending (LB) and axial rotation (AR). The relative vertebral motion was captured using an optoelectronic camera system. The study showed that the ISD in conjunction with unilateral pedicle-screw fixation was statistically comparable to the stand alone bilateral pedicle-screw fixation in all planes of motion, flexion-extension, lateral bending and axial rotation.