小儿院内心脏骤停后获取神经影像学检查的实践模式
Practice patterns for acquiring neuroimaging after pediatric in-hospital cardiac arrest.
作者信息
Kirschen Matthew P, Ullman Natalie L, Reeder Ron W, Ahmed Tageldin, Bell Michael J, Berg Robert A, Burns Candice, Carcillo Joseph A, Carpenter Todd C, Wesley Diddle J, Federman Myke, Fink Ericka L, Frazier Aisha H, Friess Stuart H, Graham Kathryn, Horvat Christopher M, Huard Leanna L, Kilbaugh Todd J, Maa Tensing, Manga Arushi, McQuillen Patrick S, Meert Kathleen L, Morgan Ryan W, Mourani Peter M, Nadkarni Vinay M, Naim Maryam Y, Notterman Daniel, Palmer Chella A, Pollack Murray M, Sapru Anil, Sharron Matthew P, Srivastava Neeraj, Tilford Bradley, Viteri Shirley, Wolfe Heather A, Yates Andrew R, Topjian Alexis, Sutton Robert M, Press Craig A
机构信息
Department of Anesthesiology and Critical Care Medicine, The Children's Hospital of Philadelphia University of Pennsylvania Philadelphia PA USA; Division of Neurology, Department of Pediatrics, The Children's Hospital of Philadelphia University of Pennsylvania Philadelphia PA USA.
Division of Neurology, Department of Pediatrics, The Children's Hospital of Philadelphia University of Pennsylvania Philadelphia PA USA.
出版信息
Resuscitation. 2025 Feb;207:110506. doi: 10.1016/j.resuscitation.2025.110506. Epub 2025 Jan 21.
AIMS
To determine which patient and cardiac arrest factors were associated with obtaining neuroimaging after in-hospital cardiac arrest, and among those patients who had neuroimaging, factors associated with which neuroimaging modality was obtained.
METHODS
Retrospective cohort study of patients who survived in-hospital cardiac arrest (IHCA) and were enrolled in the ICU-RESUS trial (NCT02837497).
RESULTS
We tabulated ultrasound (US), CT, and MRI frequency within 7 days following IHCA and identified patient and cardiac arrest factors associated with neuroimaging modalities utilized. Multivariable models determined which factors were associated with obtaining neuroimaging. Of 1000 patients, 44% had ≥ 1 neuroimaging study (US in 31%, CT in 18%, and MRI in 6% of patients). Initial USs were performed a median of 0.3 [0.1,0.5], CTs 1.4 [0.4,2.8], and MRIs 4.1 [2.2,5.1] days post-arrest. Neuroimaging timing and frequency varied by site. Factors associated with greater odds of neuroimaging were cardiac arrest in CICU (versus PICU), longer duration CPR, receiving ECMO post-arrest, and post-arrest care with targeted temperature management or EEG monitoring. US performance was associated with congenital heart disease. CT was associated with age ≥ 1-month, greater pre-arrest disability, and receiving CPR for ≥ 16 min. MRI utilization increased with pre-existing respiratory insufficiency and respiratory decompensation as arrest cause, and medical cardiac and surgical non-cardiac or trauma illness category. Overall, if neuroimaging was obtained, US was more common in CICU while CT/MRI were utilized more in PICU.
CONCLUSIONS
Practice patterns for acquiring neuroimaging after IHCA are variable and influenced by patient, cardiac arrest, and site factors.
目的
确定哪些患者和心脏骤停因素与院内心脏骤停后进行神经影像学检查相关,以及在那些进行了神经影像学检查的患者中,与采用何种神经影像学检查方式相关的因素。
方法
对院内心脏骤停(IHCA)存活且纳入ICU-RESUS试验(NCT02837497)的患者进行回顾性队列研究。
结果
我们统计了IHCA后7天内超声(US)、CT和MRI的检查频率,并确定了与所采用的神经影像学检查方式相关的患者和心脏骤停因素。多变量模型确定了哪些因素与进行神经影像学检查相关。在1000例患者中,44%进行了≥1次神经影像学检查(31%的患者进行了US检查,18%进行了CT检查,6%进行了MRI检查)。首次US检查在心脏骤停后中位数为0.3[0.1,0.5]天进行,CT检查在1.4[0.4,2.8]天进行,MRI检查在4.1[2.2,5.1]天进行。神经影像学检查的时间和频率因地点而异。与进行神经影像学检查几率较高相关的因素包括在心脏重症监护病房(CICU)发生心脏骤停(相对于儿科重症监护病房[PICU])、心肺复苏持续时间较长、心脏骤停后接受体外膜肺氧合(ECMO)治疗以及心脏骤停后采用目标温度管理或脑电图监测的后续治疗。US检查的实施与先天性心脏病相关。CT检查与年龄≥1个月、心脏骤停前残疾程度较高以及接受心肺复苏≥16分钟相关。MRI检查的使用随着既往存在呼吸功能不全和因呼吸代偿失调导致心脏骤停以及医学性心脏疾病、外科非心脏疾病或创伤性疾病类别而增加。总体而言,如果进行了神经影像学检查,US检查在CICU中更常见,而CT/MRI检查在PICU中使用得更多。
结论
院内心脏骤停后进行神经影像学检查的实践模式存在差异,且受患者、心脏骤停和地点因素影响。
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