Manuscript accepted in Spine

/ April 12, 2022

In Vivo Evidence of Early Instability and Late Stabilization in Motion Segments Immediately Superior to Anterior Cervical Arthrodesis. Chen S, LeVasseur C, Pitcairn S, Munsch M, Couch B, Kanter A, Okonkwo D, Shaw J, Donaldson W, Lee J, Anderst W.

Manuscript accepted in Journal of Biomechanics

/ March 10, 2022

Implant Characteristics Affect In Vivo Shoulder Kinematics During Multiplanar Functional Motions After Reverse Shoulder Arthroplasty. Como C, LeVasseur C, Kane G, Rai A, Munsch M, Gabrielli A, Hughes J, Anderst W, Lin A

Manuscript accepted in Journal of Biomechanics

/ January 17, 2022

The effects of pathology and one-level versus two-level arthrodesis on cervical spine intervertebral helical axis of motion. LeVasseur C, Pitcairn S, Shaw J, Donaldson W, Lee J, Anderst W.

Manuscript accepted in Journal of Biomechanics

/ October 19, 2021

Residual limb shear strain during gait is correlated with patient reported outcomes for persons with transfemoral amputation. Gale T, Yang S, McGough R, Fielder G, Anderst W.

Manuscript accepted in Journal of Orthopaedic Research

/ August 13, 2021

Symmetry and Sex Differences in Knee Kinematics and ACL Elongation in Healthy Collegiate Athletes During High Impact Activities Revealed Through Dynamic Biplane Radiography. Nishida K, Xu C, Gale T, Anderst W, Fu F.

Manuscript accepted in Arthroscopy

/ July 1, 2021

Improved outcomes following arthroscopic superior capsular reconstruction may not be associated with changes in shoulder kinematics: an in vivo study. Kane G, LeVasseur C, Hughes J, Gabrielli A, Popchak A, Anderst W, Lin A.

Manuscript accepted in Spine

/ March 18, 2021

Surgery Related Factors Do Not Affect Short Term Adjacent Segment Kinematics After Anterior Cervical Arthrodesis. Chen S, LeVasseur C, Pitcairn S, Kanter S, Okonkwo D, Shaw J, Donaldson W, Lee J, Anderst W.

NIH NINDS U19 grant awarded

/ September 26, 2019

The Biodynamics Lab will be part of a project funded by NIH Grant #U19AR076725. HEALing LB3P: Profiling Biomechanical, Biological and Behavioral phenotypes Read more about the project here.