When a random-effects model was applied the results were similar (MD = 0.10 m/s, 95% CI 0.00 to 0.21) ( Figure 4a, see also Figure 5a on eAddenda for detailed forest plot). The long-term effect of mechanically assisted walking on walking speed was examined see more by pooling data from three studies (Ada et al 2010, Ng et al 2008, Pohl et al 2007), involving the 172
participants who could walk independently at 6 months. Mechanically assisted walking increased walking speed by 0.12 m/s (95% CI 0.02 to 0.21) more than overground walking (Figure 4b, see also Figure 5b on eAddenda for detailed forest plot). Walking capacity: The short-term effect of mechanically assisted walking on walking capacity was examined by pooling data from two studies ( Schwartz et al 2009, Pohl et al 2007), involving the 88 participants who could walk independently at 4 weeks. Mechanically assisted walking increased walking capacity by 35 m (95% CI –13 to 84) more than overground walking ( Figure 6a, see also Figure www.selleckchem.com/products/bmn-673.html 7a on eAddenda for detailed forest plot). The long-term effect of mechanically assisted walking on walking capacity was examined by pooling data from two studies (Ada et al 2010, Pohl et al 2007), involving the 152 participants who could walk independently
at 6 months. Mechanically assisted walking increased walking capacity by 55 m (95% CI 15 to 96) more than overground walking (Figure 6b, see also Figure 7b on eAddenda for detailed forest plot). The strength of this systematic review is that it has pooled data from randomised trials of mechanically assisted walking (and included both treadmill and electromechanical gait trainers) with body weight support compared with the usual practice of overground walking in non-ambulatory people during the subacute phase of stroke. It includes
six studies of reasonable size that have investigated the effect of mechanically assisted walking with body weight support on independence, speed and capacity of walking. The review provides evidence that mechanically assisted walking with body weight support Etomidate increases the amount of independent walking without being detrimental to walking speed or capacity after 4 weeks of intervention. Furthermore, the benefits appear to be maintained at 6 months with walking speed and capacity being superior in patients who received mechanically assisted walking during inpatient rehabilitation. The six studies included in this review were of moderate to good methodological quality. Given that 8 was the likely maximum PEDro score achievable (because it is not usually possible to blind the therapist or the participants), the mean score of 6.7 suggest that the findings are credible. There were sufficient data for a meta-analysis to be performed on each outcome measure.