Limb contribution to increased self-selected walking speeds during body weight support in individuals poststroke

Christopher P. Hurt*, Jamie K. Burgess, David A. Brown

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

10 Scopus citations


Individuals poststroke walk at faster self-selected speeds under some nominal level of body weight support (BWS) whereas nonimpaired individuals walk slower after adding BWS. The purpose of this study was to determine whether increases in self-selected overground walking speed under BWS conditions of individuals poststroke can be explained by changes in their paretic and nonparetic ground reaction forces (GRF). We hypothesize that increased self-selected walking speed, recorded at some nominal level of BWS, will relate to decreased braking GRFs by the paretic limb. We recruited 10 chronic (>12 months post-ictus, 57.5. ±. 9.6 y.o.) individuals poststroke and eleven nonimpaired participants (53.3. ±. 4.1 y.o.). Participants walked overground in a robotic device, the KineAssist Walking and Balance Training System that provided varying degrees of BWS (0-20% in 5% increments) while individuals self-selected their walking speed. Self-selected walking speed and braking and propulsive GRF impulses were quantified. Out of 10 poststroke individuals, 8 increased their walking speed 13% (p= 0.004) under some level of BWS (5% n= 2, 10% n= 3, 20% n= 3) whereas nonimpaired controls did not change speed (p= 0.470). In individuals poststroke, changes to self-selected walking speed were correlated with changes in paretic propulsive impulses (r= 0.68, p= 0.003) and nonparetic braking impulses (r= -0.80, p= 0.006), but were not correlated with decreased paretic braking impulses (r= 0.50 p= 0.14). This investigation demonstrates that when individuals poststroke are provided with BWS and allowed to self-select their overground walking speed, they are capable of achieving faster speeds by modulating braking impulses on the nonparetic limb and propulsive impulses of the paretic limb.

Original languageEnglish (US)
Pages (from-to)857-859
Number of pages3
JournalGait and Posture
Issue number3
StatePublished - Mar 1 2015


  • Body weight support
  • Gait speed
  • Ground reaction force
  • Poststroke

ASJC Scopus subject areas

  • Biophysics
  • Rehabilitation
  • Orthopedics and Sports Medicine


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