Wardi Gabriel, Blanchard Daniel, Dittrich Teri, Kaushal Khushboo, Sell Rebecca
Department of Emergency Medicine, UC San Diego Health System, 200 West Arbor Drive, San Diego, CA 92103, United States; Division of Pulmonary and Critical Care Medicine, UC San Diego Health System, 200 West Arbor Drive, San Diego, CA 92103, United States.
Division of Cardiology, UC San Diego Health System, United States.
Resuscitation. 2016 Jun;103:71-74. doi: 10.1016/j.resuscitation.2016.03.009. Epub 2016 Apr 11.
To describe the echocardiographic parameters of the right ventricle (RV) in first 24h post-cardiac arrest (CA) in humans; to determine if the etiology of arrest predicts RV dysfunction; to quantify parameters of the right ventricle in the first 24h post-CA.
Retrospective cohort study. Arrests were categorized by as circulatory, respiratory, or arrhythmia. RV fractional area change (RVFAC), longitudinal strain (LS), tricuspid annular plane systolic excursion (TAPSE), and right ventricular dimensions were evaluated. We defined RV dysfunction as the presence of an abnormal RVFAC, TAPSE or LS based on the latest echocardiographic guidelines. Structural abnormalities were defined as the presence of abnormal longitudinal strain, RV mid-diameter, basal diameter and RV end diastole/systole.
Two academic inpatient facilities between 2010 and 2013.
All patients with successful resuscitation following CA with a technically adequate echocardiogram within 24h.
Fifty-nine patients met inclusion criteria. Nineteen subjects had CA from a circulatory etiology, 23 from arrhythmias, and 17 from respiratory causes. Fifty-two of 59 patients met criteria for having functional anomalies of the RV. There was no statistical difference between the etiology of CA and the presence of RV dysfunction (p=0.106). Fifty-seven of 59 patients had evidence of structural abnormalities.
RV dysfunction is present in the majority of post-CA patient regardless of the etiology of arrest. Further studies are needed to investigate if there are relationships between echocardiographic findings and survival and to assess temporal findings of RV function post-CA.
描述心脏骤停(CA)后首24小时内人类右心室(RV)的超声心动图参数;确定心脏骤停的病因是否可预测右心室功能障碍;量化心脏骤停后首24小时内右心室的参数。
回顾性队列研究。心脏骤停按循环、呼吸或心律失常进行分类。评估右心室面积变化分数(RVFAC)、纵向应变(LS)、三尖瓣环平面收缩期位移(TAPSE)和右心室尺寸。根据最新的超声心动图指南,我们将右心室功能障碍定义为存在异常的RVFAC、TAPSE或LS。结构异常定义为存在异常的纵向应变、右心室中径、基底直径和右心室舒张末期/收缩末期。
2010年至2013年期间的两家学术性住院医疗机构。
所有在心脏骤停后成功复苏且在24小时内有技术上足够的超声心动图检查的患者。
59名患者符合纳入标准。19名受试者因循环病因导致心脏骤停,23名因心律失常,17名因呼吸原因。59名患者中有52名符合右心室功能异常的标准。心脏骤停的病因与右心室功能障碍的存在之间无统计学差异(p=0.106)。59名患者中有57名有结构异常的证据。
无论心脏骤停的病因如何,大多数心脏骤停后患者都存在右心室功能障碍。需要进一步研究以调查超声心动图检查结果与生存率之间是否存在关系,并评估心脏骤停后右心室功能的时间变化情况。
