47 (95% CI 0 20 to 0 73) (Figure 4, see also Figure 5 on the eAdd

47 (95% CI 0.20 to 0.73) (Figure 4, see also Figure 5 on the eAddenda for a detailed forest plot.) The effect of exercise training on the ‘sleep latency’ subscale of the Pittsburgh Sleep Quality Index was examined by pooling data from 239 participants across five trials. Participation in exercise training reduced (ie, improved) sleep latency, with an SMD of

0.58 (95% Cl 0.08 to 1.08) (Figure 6, see also Figure 7 on the eAddenda for a detailed forest plot.) Exercise training also reduced the use of medication to assist sleeping, with an SMD of 0.44 (95% Cl 0.14 to GS-7340 concentration 0.74) on the ‘use of sleep medication’ subscale of the Pittsburgh Sleep Quality Index. This was based on pooled data from 196 participants across four trials (Figure 8, see also Figure 9 on the eAddenda for a detailed forest plot.) Exercise training did not cause significant improvement in other domains of the Pittsburgh Sleep Quality Index, including sleep duration, sleep efficiency, sleep disturbance, and daytime functioning Everolimus purchase (see Figures 10 to 13 on the eAddenda.) Objective sleep quality: Only one trial measured sleep quality objectively ( King et al 2008). Polysomnography indicated that the subjects who had participated in exercise training spent a significantly lower percentage of time in Stage 1 sleep (between-group difference 2.3%, 95% Cl 0.7 to 4.0,

effect size = 0.66) and a greater percentage in Stage 2 sleep (between-group difference 3.2%, 95% Cl 0.6 to 5.7, effect size = 0.41) relative to the control subjects. However, the study identified no other significant group differences regarding other polysomnographic parameters,

such as sleep latency and efficiency after participation in the 12-month exercise training program. This meta-analysis provides a comprehensive review of randomised trials examining the effects of an exercise training program on sleep quality in middle-aged and older adults with sleep complaints including insomnia, depression, and poor sleep quality. Pooled analyses of the results indicate that exercise training has a moderate beneficial effect on sleep quality, as indicated 4-Aminobutyrate aminotransferase by decreases in the global Pittsburgh Sleep Quality Index score, as well as its subdomains of subjective sleep quality, sleep latency, and sleep medication usage. Other sleep time parameters, including sleep duration, efficiency, and disturbance, were not found to improve significantly. These findings demonstrate that the participants did not sleep for a longer duration after participation in exercise training but they nevertheless perceived better sleep quality. Since poor sleep quality and total sleep time each predict adverse health outcomes in the elderly (Pollack et al 1990, Manabe et al 2000), optimal insomnia treatment should not only aim to improve quantity but also self-reported quality of sleep.

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