Larkins Nicholas G, Liu Isaac D, Willis Narelle S, Craig Jonathan C, Hodson Elisabeth M
Princess Margaret Hospital, Department of Nephrology, Roberts Rd, Subiaco, WA, Australia, 6008.
National University Health System, Department of Paediatrics, 1E Kent Ridge Road, NUHS Tower Block, Level 12, Singapore, Singapore, 119228.
Cochrane Database Syst Rev. 2020 Apr 16;4(4):CD002290. doi: 10.1002/14651858.CD002290.pub5.
About 80% of children with steroid-sensitive nephrotic syndrome (SSNS) have relapses. Of these children, half relapse frequently, and are at risk of adverse effects from corticosteroids. While non-corticosteroid immunosuppressive medications prolong periods of remission, they have significant potential adverse effects. Currently, there is no consensus about the most appropriate second-line agent in children who are steroid sensitive, but who continue to relapse. In addition, these medications could be used with corticosteroids in the initial episode of SSNS to prolong the period of remission. This is the fourth update of a review first published in 2001 and updated in 2005, 2008 and 2013.
To evaluate the benefits and harms of non-corticosteroid immunosuppressive medications in SSNS in children with a relapsing course of SSNS and in children with their first episode of nephrotic syndrome.
We searched the Cochrane Kidney and Transplant Register of Studies up to 10 March 2020 through contact with the Information Specialist using search terms relevant to this review. Studies in the Register are identified through searches of CENTRAL, MEDLINE, and EMBASE, conference proceedings, the International Clinical Trials Register (ICTRP) Search Portal and ClinicalTrials.gov.
Randomised controlled trials (RCTs) or quasi-RCTs were included if they involved children with SSNS and compared non-corticosteroid immunosuppressive medications with placebo, corticosteroids (prednisone or prednisolone) or no treatment; compared different non-corticosteroid immunosuppressive medications or different doses, durations or routes of administration of the same non-corticosteroid immunosuppressive medication.
Two authors independently assessed study eligibility, risk of bias of the included studies and extracted data. Statistical analyses were performed using a random-effects model and results expressed as risk ratio (RR) for dichotomous outcomes or mean difference (MD) for continuous outcomes with 95% confidence intervals (CI). The certainty of the evidence was assessed using GRADE.
We identified 43 studies (91 reports) and included data from 2428 children. Risk of bias assessment indicated that 21 and 24 studies were at low risk of bias for sequence generation and allocation concealment respectively. Nine studies were at low risk of performance bias and 10 were at low risk of detection bias. Thirty-seven and 27 studies were at low risk of incomplete and selective reporting respectively. Rituximab (in combination with calcineurin inhibitors (CNI) and prednisolone) versus CNI and prednisolone probably reduces the number of children who relapse at six months (5 studies, 269 children: RR 0.23, 95% CI 0.12 to 0.43) and 12 months (3 studies, 198 children: RR 0.63, 95% CI 0.42 to 0.93) (moderate certainty evidence). At six months, rituximab resulted in 126 children/1000 relapsing compared with 548 children/1000 treated with conservative treatments. Rituximab may result in infusion reactions (4 studies, 252 children: RR 5.83, 95% CI 1.34 to 25.29). Mycophenolate mofetil (MMF) and levamisole may have similar effects on the number of children who relapse at 12 months (1 study, 149 children: RR 0.90, 95% CI 0.70 to 1.16). MMF may have a similar effect on the number of children relapsing compared to cyclosporin (2 studies, 82 children: RR 1.90, 95% CI 0.66 to 5.46) (low certainty evidence). MMF compared to cyclosporin is probably less likely to result in hypertrichosis (3 studies, 140 children: RR 0.23, 95% CI 0.10 to 0.50) and gum hypertrophy (3 studies, 144 children: RR 0.09, 95% CI 0.07 to 0.42) (low certainty evidence). Levamisole compared with steroids or placebo may reduce the number of children with relapse during treatment (8 studies, 474 children: RR 0.52, 95% CI 0.33 to 0.82) (low certainty evidence). Levamisole compared to cyclophosphamide may make little or no difference to the risk for relapse after 6 to 9 months (2 studies, 97 children: RR 1.17, 95% CI 0.76 to 1.81) (low certainty evidence). Cyclosporin compared with prednisolone may reduce the number of children who relapse (1 study, 104 children: RR 0.33, 95% CI 0.13 to 0.83) (low certainty evidence). Alkylating agents compared with cyclosporin may make little or no difference to the risk of relapse during cyclosporin treatment (2 studies, 95 children: RR 0.91, 95% CI 0.55 to 1.48) (low certainty evidence) but may reduce the risk of relapse at 12 to 24 months (2 studies, 95 children: RR 0.51, 95% CI 0.35 to 0.74), suggesting that the benefit of the alkylating agents may be sustained beyond the on-treatment period (low certainty evidence). Alkylating agents (cyclophosphamide and chlorambucil) compared with prednisone probably reduce the number of children, who experience relapse at six to 12 months (6 studies, 202 children: RR 0.44, 95% CI 0.32 to 0.60) and at 12 to 24 months (4 studies, 59 children: RR 0.20, 95% CI 0.09 to 0.46) (moderate certainty evidence). IV cyclophosphamide may reduce the number of children with relapse compared with oral cyclophosphamide at 6 months (2 studies, 83 children: RR 0.54, 95% CI 0.34 to 0.88), but not at 12 to 24 months (2 studies, 83 children: RR 0.99, 95% CI 0.76 to 1.29) and may result in fewer infections (2 studies, 83 children: RR 0.14, 95% CI 0.03 to 0.72) (low certainty evidence). Cyclophosphamide compared to chlorambucil may make little or no difference in the risk of relapse after 12 months (1 study, 50 children: RR 1.31, 95% CI 0.80 to 2.13) (low certainty evidence).
AUTHORS' CONCLUSIONS: New studies incorporated in this review indicate that rituximab is a valuable additional agent for managing children with steroid-dependent nephrotic syndrome. However, the treatment effect is temporary, and many children will require additional courses of rituximab. The long-term adverse effects of this treatment are not known. Comparative studies of CNIs, MMF, levamisole and alkylating agents have demonstrated little or no differences in efficacy but, because of insufficient power; clinically important differences in treatment effects have not been completely excluded.
约80%的激素敏感型肾病综合征(SSNS)患儿会复发。在这些复发的患儿中,半数复发频繁,存在因使用糖皮质激素而出现不良反应的风险。虽然非糖皮质激素免疫抑制药物可延长缓解期,但它们有显著的潜在不良反应。目前,对于激素敏感但仍持续复发的儿童,尚无关于最合适二线药物的共识。此外,这些药物可与糖皮质激素联合用于SSNS的初始发作期,以延长缓解期。这是一篇综述的第四次更新,该综述首次发表于2001年,并于2005年、2008年和2013年进行了更新。
评估非糖皮质激素免疫抑制药物对复发型SSNS患儿以及首次发作肾病综合征患儿的益处和危害。
我们通过与信息专家联系,使用与本综述相关的检索词,检索了截至2020年3月10日的Cochrane肾脏与移植研究注册库。注册库中的研究通过检索CENTRAL、MEDLINE、EMBASE、会议论文集、国际临床试验注册平台(ICTRP)检索入口和ClinicalTrials.gov来识别。
纳入随机对照试验(RCT)或半随机对照试验,条件为研究涉及SSNS患儿,并将非糖皮质激素免疫抑制药物与安慰剂、糖皮质激素(泼尼松或泼尼松龙)或不治疗进行比较;或将不同的非糖皮质激素免疫抑制药物或同一非糖皮质激素免疫抑制药物的不同剂量、疗程或给药途径进行比较。
两位作者独立评估研究的纳入资格、纳入研究的偏倚风险并提取数据。采用随机效应模型进行统计分析,结果以二分类结局的风险比(RR)或连续结局的平均差(MD)及95%置信区间(CI)表示。使用GRADE评估证据的确定性。
我们识别出43项研究(91份报告),纳入了2428名儿童的数据。偏倚风险评估表明,分别有21项和24项研究在序列产生和分配隐藏方面偏倚风险较低。9项研究在实施偏倚方面风险较低,10项研究在检测偏倚方面风险较低。37项和27项研究在不完整报告和选择性报告方面风险较低。利妥昔单抗(联合钙调神经磷酸酶抑制剂(CNI)和泼尼松龙)与CNI及泼尼松龙相比,可能会减少6个月时复发的儿童数量(5项研究,269名儿童:RR 0.23,95%CI 0.12至0.43)以及12个月时复发的儿童数量(3项研究,198名儿童:RR 0.63,95%CI 0.42至0.93)(中等确定性证据)。在6个月时,每1000名利妥昔单抗治疗的儿童中有126名复发,而接受保守治疗的每1000名儿童中有548名复发。利妥昔单抗可能会导致输液反应(4项研究,252名儿童:RR 5.83,95%CI 1.34至25.29)。霉酚酸酯(MMF)和左旋咪唑对12个月时复发儿童数量的影响可能相似(1项研究,149名儿童:RR 0.90,95%CI 0.70至1.16)。与环孢素相比,MMF对复发儿童数量的影响可能相似(2项研究,82名儿童:RR 1.90,95%CI 0.66至5.46)(低确定性证据)。与环孢素相比,MMF导致多毛症(3项研究,140名儿童:RR 0.23,95%CI 0.10至0.50)和牙龈增生(3项研究,144名儿童:RR 0.09,95%CI 0.07至0.42)的可能性可能较小(低确定性证据)。与类固醇或安慰剂相比,左旋咪唑可能会减少治疗期间复发的儿童数量(8项研究,474名儿童:RR 0.52,95%CI 0.33至0.82)(低确定性证据)。与环磷酰胺相比,左旋咪唑在6至9个月后复发风险方面可能几乎没有差异或差异不大(2项研究,97名儿童:RR 1.17,95%CI 0.76至1.81)(低确定性证据)。与泼尼松龙相比,环孢素可能会减少复发的儿童数量(1项研究,104名儿童:RR 0.33,95%CI 0.13至0.83)(低确定性证据)。与环孢素相比,烷化剂在环孢素治疗期间的复发风险方面可能几乎没有差异或差异不大(2项研究,95名儿童:RR 0.91,95%CI 0.55至1.48)(低确定性证据),但可能会降低12至24个月时的复发风险(2项研究
