Rose Michael R, Jones Katherine, Leong Kevin, Walter Maggie C, Miller James, Dalakas Marinos C, Brassington Ruth, Griggs Robert
King's College Hospital NHS Foundation Trust, Department of Neurology, Academic Neuroscience Centre, Denmark Hill, London, UK, SE5 9RS.
NHLI, Imperial College London, ICTEM Builiding; 4th Floor, Hammersmith Campus, W12 0HS, UK.
Cochrane Database Syst Rev. 2015 Jul 14;7(6):CD001555. doi: 10.1002/14651858.CD001555.pub5.
Inclusion body myositis (IBM) is a late-onset inflammatory muscle disease (myopathy) associated with progressive proximal and distal limb muscle atrophy and weakness. Treatment options have attempted to target inflammatory and atrophic features of this condition (for example with immunosuppressive and immunomodulating drugs, anabolic steroids, and antioxidant treatments), although as yet there is no known effective treatment for reversing or minimising the progression of inclusion body myositis. In this review we have considered the benefits, adverse effects, and costs of treatment in targeting cardinal effects of the condition, namely muscle atrophy, weakness, and functional impairment.
To assess the effects of treatment for IBM.
On 7 October 2014 we searched the Cochrane Neuromuscular Disease Group Specialized Register, the Cochrane Central Register for Controlled Trials (CENTRAL), MEDLINE, and EMBASE. Additionally in November 2014 we searched clinical trials registries for ongoing or completed but unpublished trials.
We considered randomised or quasi-randomised trials, including cross-over trials, of treatment for IBM in adults compared to placebo or any other treatment for inclusion in the review. We specifically excluded people with familial IBM and hereditary inclusion body myopathy, but we included people who had connective tissue and autoimmune diseases associated with IBM, which may or may not be identified in trials. We did not include studies of exercise therapy or dysphagia management, which are topics of other Cochrane systematic reviews.
We used standard Cochrane methodological procedures.
The review included 10 trials (249 participants) using different treatment regimens. Seven of the 10 trials assessed single agents, and 3 assessed combined agents. Many of the studies did not present adequate data for the reporting of the primary outcome of the review, which was the percentage change in muscle strength score at six months. Pooled data from two trials of interferon beta-1a (n = 58) identified no important difference in normalised manual muscle strength sum scores from baseline to six months (mean difference (MD) -0.06, 95% CI -0.15 to 0.03) between IFN beta-1a and placebo (moderate-quality evidence). A single trial of methotrexate (MTX) (n = 44) provided moderate-quality evidence that MTX did not arrest or slow disease progression, based on reported percentage change in manual muscle strength sum scores at 12 months. None of the fully published trials were adequately powered to detect a treatment effect. We assessed six of the nine fully published trials as providing very low-quality evidence in relation to the primary outcome measure. Three trials (n = 78) compared intravenous immunoglobulin (combined in one trial with prednisone) to a placebo, but we were unable to perform meta-analysis because of variations in study analysis and presentation of trial data, with no access to the primary data for re-analysis. Other comparisons were also reported in single trials. An open trial of anti-T lymphocyte immunoglobulin (ATG) combined with MTX versus MTX provided very low-quality evidence in favour of the combined therapy, based on percentage change in quantitative muscle strength sum scores at 12 months (MD 12.50%, 95% CI 2.43 to 22.57). Data from trials of oxandrolone versus placebo, azathioprine (AZA) combined with MTX versus MTX, and arimoclomol versus placebo did not allow us to report either normalised or percentage change in muscle strength sum scores. A complete analysis of the effects of arimoclomol is pending data publication. Studies of simvastatin and bimagrumab (BYM338) are ongoing. All analysed trials reported adverse events. Only 1 of the 10 trials interpreted these for statistical significance. None of the trials included prespecified criteria for significant adverse events.
AUTHORS' CONCLUSIONS: Trials of interferon beta-1a and MTX provided moderate-quality evidence of having no effect on the progression of IBM. Overall trial design limitations including risk of bias, low numbers of participants, and short duration make it difficult to say whether or not any of the drug treatments included in this review were effective. An open trial of ATG combined with MTX versus MTX provided very low-quality evidence in favour of the combined therapy based on the percentage change data given. We were unable to draw conclusions from trials of IVIg, oxandrolone, and AZA plus MTX versus MTX. We need more randomised controlled trials that are larger, of longer duration, and that use fully validated, standardised, and responsive outcome measures.
包涵体肌炎(IBM)是一种迟发性炎性肌肉疾病(肌病),与进行性近端和远端肢体肌肉萎缩及无力相关。尽管目前尚无已知的有效治疗方法来逆转或最小化包涵体肌炎的进展,但治疗方案已尝试针对该病症的炎症和萎缩特征(例如使用免疫抑制和免疫调节药物、合成代谢类固醇以及抗氧化治疗)。在本综述中,我们考虑了针对该病症主要影响因素(即肌肉萎缩、无力和功能障碍)进行治疗的益处、不良反应及成本。
评估针对IBM的治疗效果。
2014年10月7日,我们检索了Cochrane神经肌肉疾病组专业注册库、Cochrane对照试验中央注册库(CENTRAL)、MEDLINE和EMBASE。此外,2014年11月,我们检索了临床试验注册库,以查找正在进行或已完成但未发表的试验。
我们纳入了针对成人IBM治疗的随机或半随机试验,包括交叉试验,与安慰剂或任何其他纳入本综述的治疗方法进行比较。我们特别排除了家族性IBM和遗传性包涵体肌病患者,但纳入了患有与IBM相关的结缔组织和自身免疫性疾病的患者,这些疾病在试验中可能会被识别,也可能不会。我们未纳入运动疗法或吞咽困难管理的研究,这些是其他Cochrane系统评价的主题。
我们采用了标准的Cochrane方法学程序。
该综述纳入了10项使用不同治疗方案的试验(249名参与者)。10项试验中有7项评估单一药物,3项评估联合药物。许多研究未提供足够数据来报告综述的主要结局,即六个月时肌肉力量评分的百分比变化。两项干扰素β-1a试验(n = 58)的汇总数据显示,从基线到六个月,干扰素β-1a与安慰剂相比,标准化手动肌力总和评分无显著差异(平均差(MD)-0.06,95%置信区间-0.15至0.03)(中等质量证据)。一项甲氨蝶呤(MTX)试验(n = 44)提供了中等质量证据,表明基于12个月时报告的手动肌力总和评分的百分比变化,MTX并未阻止或减缓疾病进展。所有已完全发表的试验均未具备足够的检验效能来检测治疗效果。我们评估了9项已完全发表试验中的6项,认为它们在主要结局测量方面提供的证据质量极低。三项试验(n = 78)将静脉注射免疫球蛋白(一项试验中与泼尼松联合使用)与安慰剂进行了比较,但由于研究分析和试验数据呈现方式的差异,且无法获取原始数据进行重新分析,我们无法进行荟萃分析。其他比较也在单一试验中有所报告。一项抗T淋巴细胞免疫球蛋白(ATG)联合MTX与MTX的开放试验,基于12个月时定量肌力总和评分的百分比变化,提供了极低质量证据支持联合治疗(MD 12.50%,95%置信区间2.43至22.57)。氧雄龙与安慰剂、硫唑嘌呤(AZA)联合MTX与MTX以及阿利克仑莫与安慰剂试验的数据,均无法让我们报告肌力总和评分的标准化或百分比变化。阿利克仑莫效果的完整分析有待数据发表。辛伐他汀和比马鲁单抗(BYM338)的研究正在进行中。所有分析的试验均报告了不良事件。10项试验中只有1项对这些不良事件进行了统计学意义的解释。没有一项试验纳入了显著不良事件的预先设定标准。
干扰素β-1a和MTX试验提供了中等质量证据,表明它们对IBM的进展没有影响。总体试验设计存在局限性,包括偏倚风险、参与者数量少和持续时间短,这使得很难确定本综述中包含的任何药物治疗是否有效。一项ATG联合MTX与MTX的开放试验,基于给出的百分比变化数据,提供了极低质量证据支持联合治疗。我们无法从静脉注射免疫球蛋白试验、氧雄龙试验以及AZA加MTX与MTX试验中得出结论。我们需要更多规模更大、持续时间更长且使用经过充分验证、标准化和反应性结局测量的随机对照试验。
