Centre for Clinical Brain Sciences, University of Edinburgh, Edinburgh, UK.
Centre for Population Health Sciences, University of Edinburgh, Edinburgh, UK.
Health Technol Assess. 2018 Aug;22(45):1-134. doi: 10.3310/hta22450.
Traumatic brain injury (TBI) is a major cause of disability and death in young adults worldwide. It results in around 1 million hospital admissions annually in the European Union (EU), causes a majority of the 50,000 deaths from road traffic accidents and leaves a further ≈10,000 people severely disabled.
The Eurotherm3235 Trial was a pragmatic trial examining the effectiveness of hypothermia (32-35 °C) to reduce raised intracranial pressure (ICP) following severe TBI and reduce morbidity and mortality 6 months after TBI.
An international, multicentre, randomised controlled trial.
Specialist neurological critical care units.
We included adult participants following TBI. Eligible patients had ICP monitoring in place with an ICP of > 20 mmHg despite first-line treatments. Participants were randomised to receive standard care with the addition of hypothermia (32-35 °C) or standard care alone. Online randomisation and the use of an electronic case report form (CRF) ensured concealment of random treatment allocation. It was not possible to blind local investigators to allocation as it was obvious which participants were receiving hypothermia. We collected information on how well the participant had recovered 6 months after injury. This information was provided either by the participant themself (if they were able) and/or a person close to them by completing the Glasgow Outcome Scale - Extended (GOSE) questionnaire. Telephone follow-up was carried out by a blinded independent clinician.
The primary intervention to reduce ICP in the hypothermia group after randomisation was induction of hypothermia. Core temperature was initially reduced to 35 °C and decreased incrementally to a lower limit of 32 °C if necessary to maintain ICP at < 20 mmHg. Rewarming began after 48 hours if ICP remained controlled. Participants in the standard-care group received usual care at that centre, but without hypothermia.
The primary outcome measure was the GOSE [range 1 (dead) to 8 (upper good recovery)] at 6 months after the injury as assessed by an independent collaborator, blind to the intervention. A priori subgroup analysis tested the relationship between minimisation factors including being aged < 45 years, having a post-resuscitation Glasgow Coma Scale (GCS) motor score of < 2 on admission, having a time from injury of < 12 hours and patient outcome.
We enrolled 387 patients from 47 centres in 18 countries. The trial was closed to recruitment following concerns raised by the Data and Safety Monitoring Committee in October 2014. On an intention-to-treat basis, 195 participants were randomised to hypothermia treatment and 192 to standard care. Regarding participant outcome, there was a higher mortality rate and poorer functional recovery at 6 months in the hypothermia group. The adjusted common odds ratio (OR) for the primary statistical analysis of the GOSE was 1.54 [95% confidence interval (CI) 1.03 to 2.31]; when the GOSE was dichotomised the OR was 1.74 (95% CI 1.09 to 2.77). Both results favoured standard care alone. In this pragmatic study, we did not collect data on adverse events. Data on serious adverse events (SAEs) were collected but were subject to reporting bias, with most SAEs being reported in the hypothermia group.
In participants following TBI and with an ICP of > 20 mmHg, titrated therapeutic hypothermia successfully reduced ICP but led to a higher mortality rate and worse functional outcome.
Inability to blind treatment allocation as it was obvious which participants were randomised to the hypothermia group; there was biased recording of SAEs in the hypothermia group. We now believe that more adequately powered clinical trials of common therapies used to reduce ICP, such as hypertonic therapy, barbiturates and hyperventilation, are required to assess their potential benefits and risks to patients.
Current Controlled Trials ISRCTN34555414.
This project was funded by the National Institute for Health Research (NIHR) Health Technology Assessment programme and will be published in full in ; Vol. 22, No. 45. See the NIHR Journals Library website for further project information. The European Society of Intensive Care Medicine supported the pilot phase of this trial.
创伤性脑损伤(TBI)是全球年轻成年人残疾和死亡的主要原因。在欧盟(EU),每年约有 100 万人因 TBI 住院,造成 5 万道路交通死亡事故中的大多数,并导致另外约 1 万人严重残疾。
Eurotherm3235 试验是一项实用性试验,旨在检查亚低温(32-35°C)是否能降低严重 TBI 后的颅内压(ICP),并降低 TBI 后 6 个月的发病率和死亡率。
一项国际性、多中心、随机对照试验。
神经重症监护病房。
我们纳入了 TBI 后的成年参与者。有资格的患者在接受一线治疗的情况下,ICP 仍>20mmHg 时,需要进行 ICP 监测。参与者被随机分配接受标准治疗加亚低温(32-35°C)或标准治疗。在线随机化和电子病例报告表(CRF)的使用确保了随机治疗分配的隐藏。由于很明显哪些参与者正在接受亚低温,因此无法对当地研究人员进行盲法。我们收集了受伤后 6 个月参与者康复情况的信息。这些信息要么由参与者本人(如果他们能够)和/或他们亲近的人通过完成格拉斯哥预后评分-扩展版(GOSE)问卷提供。通过一名盲法独立临床医生进行电话随访。
在随机分组后,低温组降低 ICP 的主要干预措施是诱导低温。核心温度最初降至 35°C,如果需要将 ICP 维持在<20mmHg 以下,则逐渐降至较低的下限 32°C。如果 ICP 得到控制,在 48 小时后开始复温。标准治疗组的患者在该中心接受常规治疗,但不接受亚低温。
主要观察结果是由独立合作者在损伤后 6 个月使用 GOSE[范围 1(死亡)至 8(上佳恢复)]进行评估,独立合作者对干预措施不知情。预先设定的亚组分析测试了最小化因素(包括年龄<45 岁、入院时格拉斯哥昏迷量表(GCS)运动评分<2、损伤后时间<12 小时和患者结局)之间的关系。
我们从 18 个国家的 47 个中心纳入了 387 名患者。2014 年 10 月,数据和安全监测委员会提出关切后,试验停止招募。根据意向治疗原则,195 名参与者被随机分配到亚低温治疗组,192 名参与者被随机分配到标准治疗组。关于参与者的结局,亚低温组的死亡率和 6 个月时的功能恢复较差。GOSE 的主要统计分析的调整后的常见比值比(OR)为 1.54[95%置信区间(CI)1.03 至 2.31];当 GOSE 被二分类时,OR 为 1.74(95% CI 1.09 至 2.77)。这两个结果都有利于单独的标准治疗。在这项实用研究中,我们没有收集不良事件的数据。收集了关于严重不良事件(SAE)的数据,但存在报告偏倚,大多数 SAE 报告在亚低温组。
在 TBI 后 ICP>20mmHg 的患者中,经滴定的治疗性低温成功降低了 ICP,但导致死亡率更高和功能结局更差。
无法对治疗分配进行盲法,因为很明显哪些参与者被随机分配到亚低温组;亚低温组对 SAE 的记录存在报告偏倚。我们现在认为,需要进行更多的、足够强大的临床试验,评估诸如高渗治疗、巴比妥酸盐和过度通气等常见降低 ICP 的治疗方法的潜在益处和风险,以评估它们对患者的潜在益处和风险。
当前对照试验 ISRCTN34555414。
本项目由英国国家卫生研究院(NIHR)卫生技术评估计划资助,将在;第 22 卷,第 45 期全文发表。请访问 NIHR 期刊库网站了解该试验的进一步项目信息。欧洲重症监护医学学会支持了该试验的试点阶段。
