|Joanne Wagner, PT, PhD|
The Saint Louis University Program in Physical Therapy in partnership with Oregon Health & Science University hosted the 3rd International Symposium on Gait and Balance in Multiple Sclerosis on October 18 and 19 in the Allied Health Building.
The conference was attended by physicians, physical therapists, occupational therapists and rehabilitation scientists. The morning session focused on measurement tools for gait and balance in multiple sclerosis and featured the latest data from the European Rehabilitation in Multiple Sclerosis (RIMS) Special Interest Group on Mobility. The afternoon session focused on the contributions of ataxia to gait and balance dysfunction in people with MS.
Joanne Wagner, PT, PhD, Assistant Professor in the Program in Physical Therapy, is a founding member of the organizing committee. The 3rd International Symposium on Gait and Balance was a unique and exciting meeting which brought together a multi-disciplinary group of researchers and clinicians dedicated to understanding the mechanisms contributing to gait and balance dysfunction in those living with MS and developing therapies to improve mobility function in this patient population.
The objectives of the conference were to describe and discuss the attributes of a good measure, available measurement toolboxes for gait and balance, lessons learned about the measurement of gait and balance from the Rehabilitation in Multiple Sclerosis multicenter trials and the contributions of ataxia to gait and balance dysfunction in MS.
Presenters at the symposium included faculty from Saint Louis University, Cleveland Clinic’s Mellen Center for Multiple Sclerosis, Samuel Merrit University, Hasselt University’s REVAL Research Institute (Belgium), University of Delaware, Washington University School of Medicine, Johns Hopkins University/Kennedy Krieger Institute, Oregon Health & Science University and University of California San Francisco.
The 2014 Symposium will be hosted by the Cleveland Clinic’s Mellen Center for Multiple Sclerosis.