A Backward Walking Training Program to Improve Balance and Mobility in Acute Stroke: A Pilot Randomized Controlled Trial.
Study Goal
The researchers aimed to determine the feasibility of administering Backward Walking Training (BWT) during inpatient rehabilitation and compare its effectiveness to Standing Balance Training (SBT) on walking speed, balance, and balance-related efficacy in acute stroke patients.
Results Summary
BWT resulted in significantly greater improvements in both forward and backward walking speed compared to SBT at 1-month postintervention, with large effect sizes for balance confidence and moderate effects for balance and mobility. The study concluded that BWT is a feasible and beneficial addition to acute stroke rehabilitation.
Population
Eighteen individuals 1-week poststroke.
Effective Dosage
Eight, 30-minute sessions of BWT or SBT in addition to scheduled therapy.
Duration
8 sessions (exact timeframe not specified).
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
Backward Walking Training (BWT) | increase | forward walking speed | individuals 1-week poststroke | 0.75 m/s change | greater improvements | #1 |
Backward Walking Training (BWT) | increase | backward walking speed | individuals 1-week poststroke | 0.53 m/s change | greater improvements | #2 |
Standing Balance Training (SBT) | increase | forward walking speed | individuals 1-week poststroke | 0.41 m/s change | improvements | #3 |
Standing Balance Training (SBT) | increase | backward walking speed | individuals 1-week poststroke | 0.23 m/s change | improvements | #4 |
Backward Walking Training (BWT) | increase | Activities-Specific Balance Confidence Scale | individuals 1-week poststroke | large | group difference effect size was large | #5 |
Backward Walking Training (BWT) | increase | Berg Balance Scale | individuals 1-week poststroke | moderate | group difference effect size was moderate | #6 |
Backward Walking Training (BWT) | increase | Function Independence Measure-Mobility | individuals 1-week poststroke | moderate | group difference effect size was moderate | #7 |
Backward Walking Training (BWT) | increase | Sensory Organization Test | individuals 1-week poststroke | small | group difference effect size was small | #8 |
BACKGROUND AND PURPOSE: Strategies to address gait and balance deficits early poststroke are minimal. The postural and motor control requirements of Backward Walking Training (BWT) may provide benefits to improve balance and walking speed in this population. This pilot study (1) determined the feasibility of administering BWT during inpatient rehabilitation and (2) compared the effectiveness of BWT to Standing Balance Training (SBT) on walking speed, balance, and balance-related efficacy in acute stroke. METHODS: Eighteen individuals 1-week poststroke were randomized to eight, 30-minute sessions of BWT or SBT in addition to scheduled therapy. Five-Meter Walk Test, 3-Meter Backward Walk Test, Activities-Specific Balance Confidence Scale, Berg Balance Scale, Sensory Organization Test, and Function Independence Measure-Mobility were assessed pre- and postintervention and at 3 months poststroke. RESULTS: Forward gait speed change (BWT: 0.75 m/s; SBT: 0.41 m/s), assessed by the 5-Meter Walk Test, and backward gait speed change (BWT: 0.53 m/s; SBT: 0.23 m/s), assessed by the 3-Meter Backward Walk Test, preintervention to 1-month retention were greater for BWT than for SBT (P < 0.05). Group difference effect size from preintervention to 1-month retention was large for Activities-Specific Balance Confidence Scale, moderate for Berg Balance Scale and Function Independence Measure-Mobility, and small for Sensory Organization Test. DISCUSSION AND CONCLUSIONS: Individuals 1-week poststroke tolerated 30 min/d of additional therapy. At 1-month postintervention, BWT resulted in greater improvements in both forward and backward walking speed than SBT. Backward walking training is a feasible important addition to acute stroke rehabilitation. Future areas of inquiry should examine BWT as a preventative modality for future fall incidence.Video Abstract available for more insights from the authors (see Video, Supplemental Digital Content 1, http://links.lww.com/JNPT/A193).