Hypothermia for neuroprotection in children after cardiopulmonary arrest

Barnaby Scholefield, Heather Duncan, Paul Davies, Fang Gao Smith, Khalid Khan, Gavin D Perkins, Kevin Morris
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引用次数: 0

Abstract

Background

Cardiopulmonary arrest in paediatric patients often results in death or survival with severe brain injury. Therapeutic hypothermia, lowering of the core body temperature to 32 °C to 34 °C, may reduce injury to the brain in the period after the circulation has been restored. This therapy has been effective in neonates with hypoxic ischaemic encephalopathy and adults after witnessed ventricular fibrillation cardiopulmonary arrest. The effect of therapeutic hypothermia after cardiopulmonary arrest in paediatric patients is unknown.

Objectives

To assess the clinical effectiveness of therapeutic hypothermia after paediatric cardiopulmonary arrest.

Search methods

We searched the Cochrane Anaesthesia Review Group Specialized Register; Cochrane Central Register of Controlled Trials (CENTRAL) (The Cochrane Library 2011, Issue 11); Ovid MEDLINE (1966 to December 2011); Ovid EMBASE (1980 to December 2011); Ovid CINAHL (1982 to December 2011); Ovid BIOSIS (1923 to December 2011); and Web of Science (1945 to December 2011). We searched the trials registry databases for ongoing trials. We also contacted international experts in therapeutic hypothermia and paediatric critical care to locate further published and unpublished studies.

Selection criteria

We planned to include randomized and quasi-randomized controlled trials comparing therapeutic hypothermia with normothermia or standard care in children, aged 24 hours to 18 years, after paediatric cardiopulmonary arrest.

Data collection and analysis

Two authors independently assessed articles for inclusion.

Main results

We found no studies that satisfied the inclusion criteria. We found four on-going randomized controlled trials which may be available for analysis in the future. We excluded 18 non-randomized studies. Of these 18 non-randomized studies, three compared therapeutic hypothermia with standard therapy and demonstrated no difference in mortality or the proportion of children with a good neurological outcome; a narrative report was presented.  

Authors' conclusions

Based on this review, we are unable to make any recommendations for clinical practice. Randomized controlled trials are needed and the results of on-going trials will be assessed when available.

Plain Language Summary

Therapeutic hypothermia as a neuroprotective therapy after cardiopulmonary arrest in children

Cardiopulmonary arrest in children is uncommon however the numbers of children who survive are very low. Resulting brain injury in the survivors can be devastating for the child and family. Cooling the patient to a temperature of 32 °C to 34 °C, which is 3 °C to 4 °C below normal (therapeutic hypothermia), has previously been found to improve survival and reduce brain injury in newborn infants who were deprived of oxygen during birth, and also in adults following cardiopulmonary arrest. The causes of cardiopulmonary arrest are different in children than in adults, and asphyxia at birth is also different, so the effect of therapeutic hypothermia on the proportion of children who survive or who have brain injury is unclear.

We therefore conducted a Cochrane systematic review of the literature, searching medical databases (CENTRAL, MEDLINE, EMBASE) until December 2011 and contacting international experts for high quality published and unpublished evidence. Our searches failed to find any randomized controlled studies that met our inclusion criteria. However, we found four on-going trials which, when completed, may contribute to our review.

At present there is no evidence from randomized controlled trials to support or refute the use of therapeutic hypothermia within a few hours after return of spontaneous blood flow following cardiopulmonary arrest in children. International resuscitation guidelines currently recommend that doctors consider using the therapy in infants and children although more research is needed to be sure this is the correct recommendation with the lack of treatment options other than supportive care in an intensive care unit that are available.

低温在儿童心肺骤停后的神经保护中的应用
背景:小儿心肺骤停常导致严重脑损伤患者死亡或存活。治疗性低温,将核心体温降至32℃至34℃,可在血液循环恢复后的一段时间内减少对大脑的损伤。这种疗法对新生儿缺氧缺血性脑病和成人心室颤动心肺骤停后有效。小儿心肺骤停后低温治疗的效果尚不清楚。目的探讨小儿心肺骤停后低温治疗的临床效果。检索方法检索Cochrane麻醉评论组专业注册;Cochrane中央对照试验登记册(Central) (Cochrane图书馆2011年第11期);Ovid MEDLINE(1966年至2011年12月);Ovid EMBASE(1980 - 2011年12月);Ovid CINAHL(1982 - 2011年12月);Ovid BIOSIS(1923 - 2011年12月);Web of Science(1945年至2011年12月)。我们检索了正在进行的试验注册数据库。我们还联系了治疗性低温和儿科重症监护方面的国际专家,以找到进一步发表和未发表的研究。我们计划纳入随机和准随机对照试验,比较24小时至18岁儿童心肺骤停后治疗性低温与常温或标准护理。资料收集与分析两位作者独立评估文章纳入。我们没有发现符合纳入标准的研究。我们发现了四个正在进行的随机对照试验,这些试验可能在将来用于分析。我们排除了18项非随机研究。在这18项非随机研究中,有3项比较了治疗性低温疗法与标准疗法,结果显示在死亡率或具有良好神经预后的儿童比例方面没有差异;提出了一份叙述性报告。基于这篇综述,我们无法对临床实践提出任何建议。需要进行随机对照试验,并在可用时对正在进行的试验的结果进行评估。摘要治疗性低温作为儿童心肺骤停后的神经保护治疗儿童心肺骤停并不常见,但存活的儿童数量非常低。对幸存者造成的脑损伤对孩子和家庭来说可能是毁灭性的。将患者冷却至32°C至34°C,比正常温度低3°C至4°C(治疗性低温),先前已发现可提高出生时缺氧的新生儿的生存率并减少脑损伤,也可用于心肺骤停后的成人。儿童发生心肺骤停的原因与成人不同,出生时的窒息也不同,因此治疗性低温对儿童存活或脑损伤比例的影响尚不清楚。因此,我们对文献进行了Cochrane系统评价,检索了医学数据库(CENTRAL, MEDLINE, EMBASE),直到2011年12月,并联系了国际专家以获取高质量的已发表和未发表的证据。我们的搜索没有找到任何符合我们纳入标准的随机对照研究。然而,我们发现了四个正在进行的试验,完成后可能有助于我们的综述。目前,没有随机对照试验的证据支持或反对在儿童心肺骤停后恢复自发血流后几小时内使用治疗性低温。国际复苏指南目前建议医生考虑在婴儿和儿童中使用这种疗法,尽管需要更多的研究来确保这是正确的建议,因为除了在重症监护病房提供的支持性护理之外,缺乏其他治疗选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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