RH15 Spatio-Temporal Gait Parameters: Impact of Speed Instruction and Walking History

Thursday, May 30, 2013
Peter Feys, Associatie Professor in Rehabiltitation Sciences and Physiotherapy , REVAL/BIOMED, Hasselt University, Diepenbeek, Belgium
Inez Wens, PhD Student , REVAL/BIOMED, Hasselt University, Diepenbeek, Belgium
Deborah Severijns, PhD Student in PT , REVAL/BIOMED, Hasselt University, Diepenbeek, Belgium
Dennis Hannes, Msc PT , Physiotherapy, Rehabilitation and MS Center Overpelt, Diepenbeek, Belgium
Kathy Knuts, Msc PT , Physiotherapy, Rehabilitation and MS Center Overpelt, Overpelt, Belgium
Stefanie Vantenderloo, MsC PT , REVAL/BIOMED, Hasselt University, Diepenbeek, Belgium
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Background: Different walking capacity test formats are applied, but their impact on the gait pattern in persons with MS (pwMS) has not yet been investigated according to baseline velocity performance.

Objectives: To assess, in pwMS with different ambulation dysfunction, the impact of speed instructions and previous walking tests (2 and 6 minute walking test; 2MWT and 6MWT) on spatiotemporal gait parameters.

Methods: 27 participants, divided in three groups based on usual gait speed (Most Limited Community Walkers; MLCW<0,82m/s, CW>1,14m/s, LCW show intermediate values), completed the 2MWT and 6MWT. Before and after each test, they walked on the GAITRite walkway system at both usual and fastest speed. Spatio-temporal gait parameters were measured and analyzed with ANOVA.

Results: All gait parameters in the MLCW were significant different from other groups. In contrast to the MLCW, the LCW and CW subgroup showed greater velocity in the fastest compared to usual speed condition, associated with a significant increase in cadence and step length. After the 6MWT, small changes in cadence at usual speed and step time at fastest speed were observed in the MLCW subgroup only. No impact of the 2MWT on gait parameters was found in any group.

Conclusions: The ability to accelerate was dependent on the severity of ambulatory dysfunction. Prolonged walking during the 6MWT has, in contrast to the 2MWT, some impact on gait parameters in the most disabled group only.