McTague Amy, Martland Timothy, Appleton Richard
Molecular Neurosciences, Developmental Neurosciences Programme, UCL Great Ormond Street Institute of Child Health, London, UK.
Cochrane Database Syst Rev. 2018 Jan 10;1(1):CD001905. doi: 10.1002/14651858.CD001905.pub3.
Tonic-clonic convulsions and convulsive status epilepticus (currently defined as a tonic-clonic convulsion lasting at least 30 minutes) are medical emergencies and require urgent and appropriate anticonvulsant treatment. International consensus is that an anticonvulsant drug should be administered for any tonic-clonic convulsion that has been continuing for at least five minutes. Benzodiazepines (diazepam, lorazepam, midazolam) are traditionally regarded as first-line drugs and phenobarbital, phenytoin and paraldehyde as second-line drugs. This is an update of a Cochrane Review first published in 2002 and updated in 2008.
To evaluate the effectiveness and safety of anticonvulsant drugs used to treat any acute tonic-clonic convulsion of any duration, including established convulsive (tonic-clonic) status epilepticus in children who present to a hospital or emergency medical department.
For the latest update we searched the Cochrane Epilepsy Group's Specialised Register (23 May 2017), the Cochrane Central Register of Controlled Trials (CENTRAL) via the Cochrane Register of Studies Online (CRSO, 23 May 2017), MEDLINE (Ovid, 1946 to 23 May 2017), ClinicalTrials.gov (23 May 2017), and the WHO International Clinical Trials Registry Platform (ICTRP, 23 May 2017).
Randomised and quasi-randomised trials comparing any anticonvulsant drugs used for the treatment of an acute tonic-clonic convulsion including convulsive status epilepticus in children.
Two review authors independently assessed trials for inclusion and extracted data. We contacted study authors for additional information.
The review includes 18 randomised trials involving 2199 participants, and a range of drug treatment options, doses and routes of administration (rectal, buccal, nasal, intramuscular and intravenous). The studies vary by design, setting and population, both in terms of their ages and also in their clinical situation. We have made many comparisons of drugs and of routes of administration of drugs in this review; our key findings are as follows:(1) This review provides only low- to very low-quality evidence comparing buccal midazolam with rectal diazepam for the treatment of acute tonic-clonic convulsions (risk ratio (RR) for seizure cessation 1.25, 95% confidence interval (CI) 1.13 to 1.38; 4 trials; 690 children). However, there is uncertainty about the effect and therefore insufficient evidence to support its use. There were no included studies which compare intranasal and buccal midazolam.(2) Buccal and intranasal anticonvulsants were shown to lead to similar rates of seizure cessation as intravenous anticonvulsants, e.g. intranasal lorazepam appears to be as effective as intravenous lorazepam (RR 0.96, 95% CI 0.82 to 1.13; 1 trial; 141 children; high-quality evidence) and intranasal midazolam was equivalent to intravenous diazepam (RR 0.98, 95% CI 0.91 to 1.06; 2 trials; 122 children; moderate-quality evidence).(3) Intramuscular midazolam also showed a similar rate of seizure cessation to intravenous diazepam (RR 0.97, 95% CI 0.87 to 1.09; 2 trials; 105 children; low-quality evidence).(4) For intravenous routes of administration, lorazepam appears to be as effective as diazepam in stopping acute tonic clonic convulsions: RR 1.04, 95% CI 0.94 to 1.16; 3 trials; 414 children; low-quality evidence. Furthermore, we found no statistically significant or clinically important differences between intravenous midazolam and diazepam (RR for seizure cessation 1.08, 95% CI 0.97 to 1.21; 1 trial; 80 children; moderate-quality evidence) or intravenous midazolam and lorazepam (RR for seizure cessation 0.98, 95% CI 0.91 to 1.04; 1 trial; 80 children; moderate-quality evidence). In general, intravenously-administered anticonvulsants led to more rapid seizure cessation but this was usually compromised by the time taken to establish intravenous access.(5) There is limited evidence from a single trial to suggest that intranasal lorazepam may be more effective than intramuscular paraldehyde in stopping acute tonic-clonic convulsions (RR 1.22, 95% CI 0.99 to 1.52; 160 children; moderate-quality evidence).(6) Adverse side effects were observed and reported very infrequently in the included studies. Respiratory depression was the most common and most clinically relevant side effect and, where reported, the frequency of this adverse event was observed in 0% to up to 18% of children. None of the studies individually demonstrated any difference in the rates of respiratory depression between the different anticonvulsants or their different routes of administration; but when pooled, three studies (439 children) provided moderate-quality evidence that lorazepam was significantly associated with fewer occurrences of respiratory depression than diazepam (RR 0.72, 95% CI 0.55 to 0.93).Much of the evidence provided in this review is of mostly moderate to high quality. However, the quality of the evidence provided for some important outcomes is low to very low, particularly for comparisons of non-intravenous routes of drug administration. Low- to very low-quality evidence was provided where limited data and imprecise results were available for analysis, methodological inadequacies were present in some studies which may have introduced bias into the results, study settings were not applicable to wider clinical practice, and where inconsistency was present in some pooled analyses.
AUTHORS' CONCLUSIONS: We have not identified any new high-quality evidence on the efficacy or safety of an anticonvulsant in stopping an acute tonic-clonic convulsion that would inform clinical practice. There appears to be a very low risk of adverse events, specifically respiratory depression. Intravenous lorazepam and diazepam appear to be associated with similar rates of seizure cessation and respiratory depression. Although intravenous lorazepam and intravenous diazepam lead to more rapid seizure cessation, the time taken to obtain intravenous access may undermine this effect. In the absence of intravenous access, buccal midazolam or rectal diazepam are therefore acceptable first-line anticonvulsants for the treatment of an acute tonic-clonic convulsion that has lasted at least five minutes. There is no evidence provided by this review to support the use of intranasal midazolam or lorazepam as alternatives to buccal midazolam or rectal diazepam.
强直阵挛性惊厥和惊厥持续状态(目前定义为持续至少30分钟的强直阵挛性惊厥)属于医疗急症,需要紧急且适当的抗惊厥治疗。国际共识是,对于持续至少五分钟的任何强直阵挛性惊厥,均应给予抗惊厥药物治疗。苯二氮䓬类药物(地西泮、劳拉西泮、咪达唑仑)传统上被视为一线药物,苯巴比妥、苯妥英和副醛则为二线药物。这是一篇Cochrane系统评价的更新版,该评价首次发表于2002年,2008年进行过更新。
评估用于治疗任何持续时间的急性强直阵挛性惊厥(包括已确诊的惊厥性(强直阵挛性)癫痫持续状态)的抗惊厥药物的有效性和安全性,这些惊厥发生在前往医院或急诊科就诊的儿童中。
为进行最新更新,我们检索了Cochrane癫痫小组专业注册库(2017年5月23日)、通过Cochrane在线研究注册库(CRSO,2017年5月23日)检索的Cochrane系统评价集中的对照试验注册库(CENTRAL)、MEDLINE(Ovid,1946年至2017年5月23日)、ClinicalTrials.gov(2017年5月23日)以及世界卫生组织国际临床试验注册平台(ICTRP,2017年5月23日)。
比较用于治疗急性强直阵挛性惊厥(包括儿童惊厥性癫痫持续状态)的任何抗惊厥药物的随机和半随机试验。
两位综述作者独立评估试验是否纳入并提取数据。我们联系了研究作者以获取更多信息。
该综述纳入了18项随机试验,涉及2199名参与者,以及一系列药物治疗方案、剂量和给药途径(直肠、颊部、鼻腔、肌肉注射和静脉注射)。这些研究在设计、环境和人群方面存在差异,包括年龄和临床情况。在本综述中,我们对药物以及药物给药途径进行了多次比较;我们的主要发现如下:(1)本综述仅提供了低至极低质量的证据,比较了颊部咪达唑仑与直肠地西泮治疗急性强直阵挛性惊厥的效果(惊厥停止的风险比(RR)为1.25,95%置信区间(CI)为1.13至1.38;4项试验;690名儿童)。然而,效果存在不确定性,因此证据不足以支持其使用。没有纳入比较鼻内和颊部咪达唑仑的研究。(2)颊部和鼻内抗惊厥药物导致惊厥停止的发生率与静脉注射抗惊厥药物相似,例如鼻内劳拉西泮似乎与静脉注射劳拉西泮效果相同(RR为0.96,95%CI为0.82至1.13;1项试验;141名儿童;高质量证据),鼻内咪达唑仑与静脉注射地西泮等效(RR为0.98,95%CI为0.91至1.06;2项试验;122名儿童;中等质量证据)。(3)肌肉注射咪达唑仑导致惊厥停止的发生率也与静脉注射地西泮相似(RR为0.97,