Ryan Jennifer M, Cassidy Elizabeth E, Noorduyn Stephen G, O'Connell Neil E
Institute of Environment, Health and Societies, Brunel University London, Kingston Lane, Uxbridge, Middlesex, UK, UB8 3PH.
Cochrane Database Syst Rev. 2017 Jun 11;6(6):CD011660. doi: 10.1002/14651858.CD011660.pub2.
Cerebral palsy (CP) is a neurodevelopmental disorder resulting from an injury to the developing brain. It is the most common form of childhood disability with prevalence rates of between 1.5 and 3.8 per 1000 births reported worldwide. The primary impairments associated with CP include reduced muscle strength and reduced cardiorespiratory fitness, resulting in difficulties performing activities such as dressing, walking and negotiating stairs.Exercise is defined as a planned, structured and repetitive activity that aims to improve fitness, and it is a commonly used intervention for people with CP. Aerobic and resistance training may improve activity (i.e. the ability to execute a task) and participation (i.e. involvement in a life situation) through their impact on the primary impairments of CP. However, to date, there has been no comprehensive review of exercise interventions for people with CP.
To assess the effects of exercise interventions in people with CP, primarily in terms of activity, participation and quality of life. Secondary outcomes assessed body functions and body structures. Comparators of interest were no treatment, usual care or an alternative type of exercise intervention.
In June 2016 we searched CENTRAL, MEDLINE, Embase, nine other databases and four trials registers.
We included randomised controlled trials (RCTs) and quasi-RCTs of children, adolescents and adults with CP. We included studies of aerobic exercise, resistance training, and 'mixed training' (a combination of at least two of aerobic exercise, resistance training and anaerobic training).
Two review authors independently screened titles, abstracts and potentially relevant full-text reports for eligibility; extracted all relevant data and conducted 'Risk of bias' and GRADE assessments.
We included 29 trials (926 participants); 27 included children and adolescents up to the age of 19 years, three included adolescents and young adults (10 to 22 years), and one included adults over 20 years. Males constituted 53% of the sample. Five trials were conducted in the USA; four in Australia; two in Egypt, Korea, Saudi Arabia, Taiwan, the Netherlands, and the UK; three in Greece; and one apiece in India, Italy, Norway, and South Africa.Twenty-six trials included people with spastic CP only; three trials included children and adolescents with spastic and other types of CP. Twenty-one trials included people who were able to walk with or without assistive devices, four trials also included people who used wheeled mobility devices in most settings, and one trial included people who used wheeled mobility devices only. Three trials did not report the functional ability of participants. Only two trials reported participants' manual ability. Eight studies compared aerobic exercise to usual care, while 15 compared resistance training and 4 compared mixed training to usual care or no treatment. Two trials compared aerobic exercise to resistance training. We judged all trials to be at high risk of bias overall.We found low-quality evidence that aerobic exercise improves gross motor function in the short term (standardised mean difference (SMD) 0.53, 95% confidence interval (CI) 0.02 to 1.04, N = 65, 3 studies) and intermediate term (mean difference (MD) 12.96%, 95% CI 0.52% to 25.40%, N = 12, 1 study). Aerobic exercise does not improve gait speed in the short term (MD 0.09 m/s, 95% CI -0.11 m/s to 0.28 m/s, N = 82, 4 studies, very low-quality evidence) or intermediate term (MD -0.17 m/s, 95% CI -0.59 m/s to 0.24 m/s, N = 12, 1 study, low-quality evidence). No trial assessed participation or quality of life following aerobic exercise.We found low-quality evidence that resistance training does not improve gross motor function (SMD 0.12, 95% CI -0.19 to 0.43, N = 164, 7 studies), gait speed (MD 0.03 m/s, 95% CI -0.02 m/s to 0.07 m/s, N = 185, 8 studies), participation (SMD 0.34, 95% CI -0.01 to 0.70, N = 127, 2 studies) or parent-reported quality of life (MD 12.70, 95% CI -5.63 to 31.03, n = 12, 1 study) in the short term. There is also low-quality evidence that resistance training does not improve gait speed (MD -0.03 m/s, 95% CI -0.17 m/s to 0.11 m/s, N = 84, 3 studies), gross motor function (SMD 0.13, 95% CI -0.30 to 0.55, N = 85, 3 studies) or participation (MD 0.37, 95% CI -6.61 to 7.35, N = 36, 1 study) in the intermediate term.We found low-quality evidence that mixed training does not improve gross motor function (SMD 0.02, 95% CI -0.29 to 0.33, N = 163, 4 studies) or gait speed (MD 0.10 m/s, -0.07 m/s to 0.27 m/s, N = 58, 1 study) but does improve participation (MD 0.40, 95% CI 0.13 to 0.67, N = 65, 1 study) in the short-term.There is no difference between resistance training and aerobic exercise in terms of the effect on gross motor function in the short term (SMD 0.02, 95% CI -0.50 to 0.55, N = 56, 2 studies, low-quality evidence).Thirteen trials did not report adverse events, seven reported no adverse events, and nine reported non-serious adverse events.
AUTHORS' CONCLUSIONS: The quality of evidence for all conclusions is low to very low. As included trials have small sample sizes, heterogeneity may be underestimated, resulting in considerable uncertainty relating to effect estimates. For children with CP, there is evidence that aerobic exercise may result in a small improvement in gross motor function, though it does not improve gait speed. There is evidence that resistance training does not improve gait speed, gross motor function, participation or quality of life among children with CP.Based on the evidence available, exercise appears to be safe for people with CP; only 55% of trials, however, reported adverse events or stated that they monitored adverse events. There is a need for large, high-quality, well-reported RCTs that assess the effectiveness of exercise in terms of activity and participation, before drawing any firm conclusions on the effectiveness of exercise for people with CP. Research is also required to determine if current exercise guidelines for the general population are effective and feasible for people with CP.
脑瘫(CP)是一种因发育中的大脑受损而导致的神经发育障碍。它是儿童残疾最常见的形式,全球报道的发病率为每1000例出生中有1.5至3.8例。与脑瘫相关的主要损伤包括肌肉力量下降和心肺适能降低,导致在诸如穿衣、行走和上下楼梯等活动中出现困难。运动被定义为旨在提高适能的有计划、有组织且重复的活动,它是脑瘫患者常用的干预措施。有氧运动和抗阻训练可能通过对脑瘫主要损伤的影响来改善活动能力(即执行任务的能力)和参与度(即参与生活情境)。然而,迄今为止,尚未对针对脑瘫患者的运动干预进行全面综述。
评估运动干预对脑瘫患者的影响,主要涉及活动能力、参与度和生活质量。次要结局评估身体功能和身体结构。感兴趣的对照措施为不治疗、常规护理或另一种类型的运动干预。
2016年6月,我们检索了Cochrane系统评价数据库、医学期刊数据库、荷兰医学文摘数据库、其他九个数据库以及四个试验注册库。
我们纳入了针对儿童、青少年和成人脑瘫患者的随机对照试验(RCT)和半随机对照试验。我们纳入了有氧运动、抗阻训练以及“混合训练”(有氧运动、抗阻训练和无氧训练中至少两种的组合)的研究。
两位综述作者独立筛选标题、摘要和潜在相关的全文报告以确定其是否符合纳入标准;提取所有相关数据并进行“偏倚风险”和GRADE评估。
我们纳入了29项试验(926名参与者);27项试验纳入了19岁及以下的儿童和青少年,3项试验纳入了青少年和青年成人(10至22岁),1项试验纳入了20岁以上的成人。样本中男性占53%。5项试验在美国进行;4项在澳大利亚进行;2项在埃及、韩国、沙特阿拉伯、台湾、荷兰和英国进行;3项在希腊进行;印度、意大利、挪威和南非各有1项试验。26项试验仅纳入了痉挛型脑瘫患者;3项试验纳入了痉挛型和其他类型脑瘫的儿童和青少年。21项试验纳入了能够使用或不使用辅助设备行走的人群,4项试验还纳入了在大多数情况下使用轮式移动设备的人群,1项试验仅纳入了使用轮式移动设备的人群。3项试验未报告参与者的功能能力。仅有2项试验报告了参与者的手动能力。8项研究将有氧运动与常规护理进行比较,15项研究比较了抗阻训练,4项研究将混合训练与常规护理或不治疗进行比较。2项试验将有氧运动与抗阻训练进行比较。我们判断所有试验总体上存在高偏倚风险。我们发现低质量证据表明,有氧运动在短期内可改善粗大运动功能(标准化均数差(SMD)0.53,95%置信区间(CI)0.02至1.04,N = 65,3项研究)和中期(均数差(MD)12.96%,95%CI 0.52%至25.40%,N = 12,1项研究)。有氧运动在短期内(MD 0.09 m/s,95%CI -0.11 m/s至0.28 m/s,N = 82,4项研究,极低质量证据)或中期(MD -0.