慢性疲劳综合征的运动疗法
Exercise therapy for chronic fatigue syndrome.
作者信息
Larun Lillebeth, Brurberg Kjetil G, Odgaard-Jensen Jan, Price Jonathan R
机构信息
Division for Health Services, Norwegian Institute of Public Health, Oslo, Norway.
Medicinrådet, København Ø, Denmark.
出版信息
Cochrane Database Syst Rev. 2024 Dec 19;12(12):CD003200. doi: 10.1002/14651858.CD003200.pub9.
EDITORIAL NOTE
Editorial note (19 December 2024; amended 31 January 2025; amended 25 March 2025): This Cochrane review was published in 2019 and includes studies from searches up to 9 May 2014. A pilot project for engaging interest holders in the development of an update of this Cochrane review was initiated on 2 October 2019 and has now been discontinued. Editorial note (2 October 2019): A statement from the Editor in Chief about this review and its planned update is available at https://www.cochrane.org/news/cfs
BACKGROUND
Chronic fatigue syndrome (CFS) or myalgic encephalomyelitis (ME) is a serious disorder characterised by persistent postexertional fatigue and substantial symptoms related to cognitive, immune and autonomous dysfunction. There is no specific diagnostic test, therefore diagnostic criteria are used to diagnose CFS. The prevalence of CFS varies by type of diagnostic criteria used. Existing treatment strategies primarily aim to relieve symptoms and improve function. One treatment option is exercise therapy.
OBJECTIVES
The objective of this review was to determine the effects of exercise therapy for adults with CFS compared with any other intervention or control on fatigue, adverse outcomes, pain, physical functioning, quality of life, mood disorders, sleep, self-perceived changes in overall health, health service resources use and dropout.
SEARCH METHODS
We searched the Cochrane Common Mental Disorders Group controlled trials register, CENTRAL, and SPORTDiscus up to May 2014, using a comprehensive list of free-text terms for CFS and exercise. We located unpublished and ongoing studies through the World Health Organization International Clinical Trials Registry Platform up to May 2014. We screened reference lists of retrieved articles and contacted experts in the field for additional studies.
SELECTION CRITERIA
We included randomised controlled trials (RCTs) about adults with a primary diagnosis of CFS, from all diagnostic criteria, who were able to participate in exercise therapy.
DATA COLLECTION AND ANALYSIS
Two review authors independently performed study selection, 'Risk of bias' assessments and data extraction. We combined continuous measures of outcomes using mean differences (MDs) or standardised mean differences (SMDs). To facilitate interpretation of SMDs, we re-expressed SMD estimates as MDs on more common measurement scales. We combined dichotomous outcomes using risk ratios (RRs). We assessed the certainty of evidence using GRADE.
MAIN RESULTS
We included eight RCTs with data from 1518 participants. Exercise therapy lasted from 12 weeks to 26 weeks. The studies measured effect at the end of the treatment and at long-term follow-up, after 50 weeks or 72 weeks. Seven studies used aerobic exercise therapies such as walking, swimming, cycling or dancing, provided at mixed levels in terms of intensity of the aerobic exercise from very low to quite rigorous, and one study used anaerobic exercise. Control groups consisted of passive control, including treatment as usual, relaxation or flexibility (eight studies); cognitive behavioural therapy (CBT) (two studies); cognitive therapy (one study); supportive listening (one study); pacing (one study); pharmacological treatment (one study) and combination treatment (one study). Most studies had a low risk of selection bias. All had a high risk of performance and detection bias. Exercise therapy compared with 'passive' control Exercise therapy probably reduces fatigue at end of treatment (SMD -0.66, 95% CI -1.01 to -0.31; 7 studies, 840 participants; moderate-certainty evidence; re-expressed MD -3.4, 95% CI -5.3 to -1.6; scale 0 to 33). We are uncertain if fatigue is reduced in the long term because the certainty of the evidence is very low (SMD -0.62, 95 % CI -1.32 to 0.07; 4 studies, 670 participants; re-expressed MD -3.2, 95% CI -6.9 to 0.4; scale 0 to 33). We are uncertain about the risk of serious adverse reactions because the certainty of the evidence is very low (RR 0.99, 95% CI 0.14 to 6.97; 1 study, 319 participants). Exercise therapy may moderately improve physical functioning at end of treatment, but the long-term effect is uncertain because the certainty of the evidence is very low. Exercise therapy may also slightly improve sleep at end of treatment and at long term. The effect of exercise therapy on pain, quality of life and depression is uncertain because evidence is missing or of very low certainty. Exercise therapy compared with CBT Exercise therapy may make little or no difference to fatigue at end of treatment (MD 0.20, 95% CI -1.49 to 1.89; 1 study, 298 participants; low-certainty evidence), or at long-term follow-up (SMD 0.07, 95% CI -0.13 to 0.28; 2 studies, 351 participants; moderate-certainty evidence). We are uncertain about the risk of serious adverse reactions because the certainty of the evidence is very low (RR 0.67, 95% CI 0.11 to 3.96; 1 study, 321 participants). The available evidence suggests that there may be little or no difference between exercise therapy and CBT in physical functioning or sleep (low-certainty evidence) and probably little or no difference in the effect on depression (moderate-certainty evidence). We are uncertain if exercise therapy compared to CBT improves quality of life or reduces pain because the evidence is of very low certainty. Exercise therapy compared with adaptive pacing Exercise therapy may slightly reduce fatigue at end of treatment (MD -2.00, 95% CI -3.57 to -0.43; scale 0 to 33; 1 study, 305 participants; low-certainty evidence) and at long-term follow-up (MD -2.50, 95% CI -4.16 to -0.84; scale 0 to 33; 1 study, 307 participants; low-certainty evidence). We are uncertain about the risk of serious adverse reactions (RR 0.99, 95% CI 0.14 to 6.97; 1 study, 319 participants; very low-certainty evidence). The available evidence suggests that exercise therapy may slightly improve physical functioning, depression and sleep compared to adaptive pacing (low-certainty evidence). No studies reported quality of life or pain. Exercise therapy compared with antidepressants We are uncertain if exercise therapy, alone or in combination with antidepressants, reduces fatigue and depression more than antidepressant alone, as the certainty of the evidence is very low. The one included study did not report on adverse reactions, pain, physical functioning, quality of life, sleep or long-term results.
AUTHORS' CONCLUSIONS: Exercise therapy probably has a positive effect on fatigue in adults with CFS compared to usual care or passive therapies. The evidence regarding adverse effects is uncertain. Due to limited evidence it is difficult to draw conclusions about the comparative effectiveness of CBT, adaptive pacing or other interventions. All studies were conducted with outpatients diagnosed with 1994 criteria of the Centers for Disease Control and Prevention or the Oxford criteria, or both. Patients diagnosed using other criteria may experience different effects.
编者注
编者注(2024年12月19日;2025年1月31日修订;2025年3月25日修订):本Cochrane系统评价发表于2019年,纳入的研究截至2014年5月9日的检索结果。2019年10月2日启动了一项吸引利益相关者参与更新本Cochrane系统评价的试点项目,现已终止。编者注(2019年10月2日):主编关于本评价及其计划更新的声明可在https://www.cochrane.org/news/cfs获取。
背景
慢性疲劳综合征(CFS)或肌痛性脑脊髓炎(ME)是一种严重疾病,其特征为运动后持续疲劳以及与认知、免疫和自主神经功能障碍相关的大量症状。尚无特异性诊断检测方法,因此使用诊断标准来诊断CFS。CFS的患病率因所使用的诊断标准类型而异。现有治疗策略主要旨在缓解症状和改善功能。运动疗法是一种治疗选择。
目的
本系统评价的目的是确定与任何其他干预措施或对照相比,运动疗法对成年CFS患者在疲劳、不良结局、疼痛、身体功能、生活质量、情绪障碍、睡眠、自我感知的总体健康变化、卫生服务资源使用及退出治疗方面的影响。
检索方法
我们检索了Cochrane常见精神障碍组对照试验注册库、CENTRAL和SPORTDiscus,截至2014年5月,使用了一份关于CFS和运动的自由文本术语综合列表。我们通过世界卫生组织国际临床试验注册平台检索截至2014年5月的未发表和正在进行的研究。我们筛选了检索到的文章的参考文献列表,并联系该领域的专家以获取更多研究。
选择标准
我们纳入了所有诊断标准下、能够参与运动疗法的成年原发性CFS诊断患者的随机对照试验(RCT)。
数据收集与分析
两名系统评价作者独立进行研究选择、“偏倚风险”评估和数据提取。我们使用均数差(MD)或标准化均数差(SMD)合并结局的连续测量指标。为便于解释SMD,我们将SMD估计值重新表示为更常见测量量表上的MD。我们使用风险比(RR)合并二分结局。我们使用GRADE评估证据的确定性。
主要结果
我们纳入了8项RCT,涉及1518名参与者的数据。运动疗法持续12周至26周。研究在治疗结束时以及50周或72周后的长期随访时测量效果。7项研究使用有氧运动疗法,如步行、游泳、骑自行车或跳舞,有氧运动强度从非常低到相当严格不等,1项研究使用无氧运动。对照组包括被动对照,如常规治疗、放松或柔韧性训练(8项研究);认知行为疗法(CBT)(2项研究);认知疗法(1项研究);支持性倾听(1项研究);节奏疗法(1项研究);药物治疗(1项研究)和联合治疗(1项研究)。大多数研究的选择偏倚风险较低。所有研究的实施和检测偏倚风险较高。
运动疗法与“被动”对照相比:运动疗法可能在治疗结束时减轻疲劳(SMD -0.66,95%CI -1.01至-0.31;7项研究,840名参与者;中等确定性证据;重新表示的MD -3.4,95%CI -5.3至-1.6;量表0至33)。我们不确定长期来看疲劳是否减轻,因为证据的确定性非常低(SMD -0.62,95%CI -1.32至0.07;4项研究,670名参与者;重新表示的MD -3.2,95%CI -6.9至0.4;量表0至33)。我们不确定严重不良反应的风险,因为证据的确定性非常低(RR 0.99,95%CI 0.14至6.97;1项研究,319名参与者)。运动疗法可能在治疗结束时适度改善身体功能,但长期效果不确定,因为证据的确定性非常低。运动疗法在治疗结束时和长期也可能轻微改善睡眠。运动疗法对疼痛、生活质量和抑郁的影响不确定,因为证据缺失或确定性非常低。
运动疗法与CBT相比:运动疗法在治疗结束时对疲劳可能几乎没有影响或无差异(MD 0.20,95%CI -1.49至1.89;1项研究,298名参与者;低确定性证据),或在长期随访时(SMD 0.07,95%CI -0.13至0.28;2项研究,351名参与者;中等确定性证据)。我们不确定严重不良反应的风险,因为证据的确定性非常低(RR 0.67,95%CI 0.11至3.96;1项研究,321名参与者)。现有证据表明,运动疗法与CBT在身体功能或睡眠方面可能几乎没有差异或无差异(低确定性证据),对抑郁的影响可能也几乎没有差异或无差异(中等确定性证据)。我们不确定与CBT相比,运动疗法是否能改善生活质量或减轻疼痛,因为证据的确定性非常低。
运动疗法与适应性节奏疗法相比
运动疗法在治疗结束时可能轻微减轻疲劳(MD -2.00,95%CI -3.57至-0.43;量表0至33;1项研究,305名参与者;低确定性证据),在长期随访时(MD -2.50,95%CI -4.16至-0.84;量表0至33;1项研究,307名参与者;低确定性证据)。我们不确定严重不良反应的风险(RR 0.99,95%CI 0.14至6.97;1项研究,319名参与者;极低确定性证据)。现有证据表明,与适应性节奏疗法相比,运动疗法可能轻微改善身体功能、抑郁和睡眠(低确定性证据)。没有研究报告生活质量或疼痛情况。
运动疗法与抗抑郁药相比
我们不确定运动疗法单独或与抗抑郁药联合使用是否比单独使用抗抑郁药更能减轻疲劳和抑郁,因为证据的确定性非常低。纳入的一项研究未报告不良反应、疼痛、身体功能、生活质量、睡眠或长期结果。
作者结论
与常规护理或被动疗法相比,运动疗法可能对成年CFS患者的疲劳有积极影响。关于不良反应的证据不确定。由于证据有限,难以得出关于CBT、适应性节奏疗法或其他干预措施比较效果的结论。所有研究均针对根据美国疾病控制与预防中心1994年标准或牛津标准或两者诊断为门诊患者进行。使用其他标准诊断的患者可能会有不同的效果。
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