Grande Antonio Jose, Keogh Justin, Silva Valter, Scott Anna M
Universidade Estadual de Mato Grosso do Sul, Laboratory of Evidence-Based Practice, Av. Dom Antônio Barbosa, 4155, Vila Santo Amaro, Campo Grande, Mato Grosso do Sul, Brazil, 79115-898.
Bond University, Faculty of Health Sciences and Medicine, 14 University Drive, Gold Coast, Queensland, Australia, 4229.
Cochrane Database Syst Rev. 2020 Apr 4;4(4):CD010596. doi: 10.1002/14651858.CD010596.pub3.
Acute respiratory infections (ARIs) last for less than 30 days and are the most common acute diseases affecting people. Exercise has been shown to improve health generally, but it is uncertain whether exercise may be effective in reducing the occurrence, severity, and duration of ARIs. This is an update of our review published in 2015.
To evaluate the effectiveness of exercise for altering the occurrence, severity, or duration of acute respiratory infections.
We searched CENTRAL (2020, Issue 2), MEDLINE (1948 to March week 1, 2020), Embase (1974 to 05 March 2020), CINAHL (1981 to 05 March 2020), LILACS (1982 to 05 March 2020), SPORTDiscus (1985 to 05 March 2020), PEDro (searched 05 March 2020), OTseeker (searched 05 March 2020), and the World Health Organization (WHO) International Clinical Trials Registry Platform (ICTRP) and ClinicalTrials.gov (searched 05 March 2020).
Randomised controlled trials (RCTs) and quasi-RCTs (method of allocation that is not truly random, e.g. based on date of birth, medical record number) of exercise for ARIs in the general population.
Two review authors independently extracted data from the included trials using a standard form. One review author entered data, which a second review author checked. We contacted trial authors to request missing data. There were sufficient differences in the populations trialed and in the nature of the interventions to use the random-effects model (which makes fewer assumptions than the fixed-effect model) in the analysis.
We included three new trials for this update (473 participants) for a total of 14 trials involving 1377 adults, published between 1990 and 2018. Nine trials were conducted in the USA, and one each in Brazil, Canada, Portugal, Spain, and Turkey. Sample sizes ranged from 16 to 419 participants, aged from 18 to 85 years. The proportion of female participants ranged from 52% to 100%. Follow-up duration ranged from 1 to 36 weeks (median = 12 weeks). Moderate-intensity aerobic exercise (walking, bicycling, treadmill, or a combination) was evaluated in 11 trials, and was most commonly prescribed at least three times a week for 30 to 45 minutes. There was no difference between exercise and no exercise in the number of ARI episodes per person per year (risk ratio (RR) 1.00, 95% confidence interval (CI) 0.77 to 1.30; 4 trials; 514 participants; low-certainty evidence); proportion of participants who experienced at least one ARI over the study period (RR 0.88, 95% CI 0.72 to 1.08; 5 trials; 520 participants; low-certainty evidence); and the number of symptom days per episode of illness (mean difference (MD) -0.44 day, 95% CI -2.33 to 1.46; 6 trials; 557 participants; low-certainty evidence). Exercise reduced the severity of ARI symptoms measured on the Wisconsin Upper Respiratory Symptom Survey (WURSS-24) (MD -103.57, 95% CI -198.28 to -8.87; 2 trials; 373 participants; moderate-certainty evidence) and the number of symptom days during follow-up period (MD -2.24 days, 95% CI -3.50 to -0.98; 4 trials; 483 participants; low-certainty evidence). Excercise did not have a significant effect on laboratory parameters (blood lymphocytes, salivary secretory immunoglobulin, and neutrophils), quality of life outcomes, cost-effectiveness, and exercise-related injuries. There was no difference in participant dropout between the intervention and control groups. Overall, the certainty of the evidence was low, downgraded mainly due to limitations in study design and implementation, imprecision, and inconsistency. Seven trials were funded by public agencies; five trials did not report funding; and two trials were funded by private companies.
AUTHORS' CONCLUSIONS: Exercise did not reduce the number of ARI episodes, proportion of participants experiencing at least one ARI during the study, or the number of symptom days per episode of illness. However, exercise reduced the severity of ARI symptoms (two studies) and the number of symptom days during the study follow-up period (four studies). Small study size, risk of bias, and heterogeneity in the populations studied contributed to the uncertainty of the findings. Larger trials that are designed to avoid risk of bias associated with participant selection, blinding of outcomes assessors, and with adequate reporting of all outcomes proposed for measurement in trials, would help to provide more robust evidence.
急性呼吸道感染(ARIs)持续时间不足30天,是影响人群的最常见急性疾病。运动已被证明总体上可改善健康状况,但运动是否能有效降低急性呼吸道感染的发生率、严重程度和持续时间尚不确定。这是我们2015年发表的综述的更新版本。
评估运动对改变急性呼吸道感染的发生率、严重程度或持续时间的有效性。
我们检索了Cochrane系统评价数据库(CENTRAL,2020年第2期)、医学期刊数据库(MEDLINE,1948年至2020年3月第1周)、荷兰医学文摘数据库(Embase,1974年至2020年3月5日)、护理学与健康领域数据库(CINAHL,1981年至2020年3月5日)、拉丁美洲和加勒比地区健康科学文献数据库(LILACS,1982年至2020年3月5日)、体育与运动医学数据库(SPORTDiscus,1985年至2020年3月5日)、循证医学数据库(PEDro,检索日期为2020年3月5日)、职业疗法探索者数据库(OTseeker,检索日期为2020年3月5日),以及世界卫生组织(WHO)国际临床试验注册平台(ICTRP)和美国国立医学图书馆临床试验数据库(ClinicalTrials.gov,检索日期为2020年3月5日)。
针对普通人群急性呼吸道感染进行运动干预的随机对照试验(RCTs)和半随机对照试验(分配方法并非真正随机,例如基于出生日期、病历号)。
两名综述作者使用标准表格独立从纳入的试验中提取数据。一名综述作者录入数据,另一名综述作者进行核对。我们联系试验作者索要缺失数据。由于所试验人群和干预措施性质存在足够差异,因此在分析中使用随机效应模型(该模型比固定效应模型假设更少)。
本次更新纳入了三项新试验(473名参与者),总共14项试验涉及1377名成年人,这些试验发表于1990年至2018年之间。九项试验在美国进行,巴西、加拿大、葡萄牙、西班牙和土耳其各进行了一项试验。样本量从16名至419名参与者不等,年龄在18岁至85岁之间。女性参与者比例从52%至100%不等。随访时间从1周至36周(中位数 = 12周)。11项试验评估了中等强度有氧运动(步行、骑自行车、跑步机运动或多种方式结合),最常见的是每周至少进行三次,每次30至45分钟。运动组和非运动组在每人每年急性呼吸道感染发作次数上无差异(风险比(RR)1.00,95%置信区间(CI)0.77至1.30;4项试验;514名参与者;低确定性证据);在研究期间经历至少一次急性呼吸道感染的参与者比例方面无差异(RR 0.88,95% CI 0.72至1.08;5项试验;520名参与者;低确定性证据);在每次疾病发作的症状天数方面无差异(平均差(MD) -0.44天,95% CI -2.33至1.46;6项试验;557名参与者;低确定性证据)。运动降低了威斯康星上呼吸道症状问卷(WURSS - 24)所测量的急性呼吸道感染症状严重程度(MD -103.57,95% CI -198.28至 -8.87;2项试验;373名参与者;中等确定性证据)以及随访期间的症状天数(MD -2.24天,95% CI -3.50至 -0.98;4项试验;483名参与者;低确定性证据)。运动对实验室参数(血液淋巴细胞、唾液分泌型免疫球蛋白和中性粒细胞)、生活质量结局、成本效益以及运动相关损伤没有显著影响。干预组和对照组在参与者退出率方面无差异。总体而言,证据的确定性较低,主要由于研究设计和实施的局限性、不精确性以及不一致性而被降级。七项试验由公共机构资助;五项试验未报告资金来源;两项试验由私人公司资助。
运动并未减少急性呼吸道感染发作次数、研究期间经历至少一次急性呼吸道感染的参与者比例或每次疾病发作的症状天数。然而,运动降低了急性呼吸道感染症状的严重程度(两项研究)以及研究随访期间的症状天数(四项研究)。研究规模小、存在偏倚风险以及所研究人群的异质性导致了研究结果的不确定性。设计旨在避免与参与者选择、结局评估者盲法以及充分报告试验中提议测量的所有结局相关的偏倚风险的更大规模试验,将有助于提供更有力的证据。
