Martin R Shayn, Kilgo Patrick D, Miller Preston R, Hoth J Jason, Meredith J Wayne, Chang Michael C
Department of Surgery, Wake Forest University School of Medicine, Winston-Salem, North Carolina 27157, USA.
Shock. 2005 Aug;24(2):114-8. doi: 10.1097/01.shk.0000169726.25189.b1.
Severe injury and shock are frequently associated with abnormalities in patient body temperature. Substantial increases in mortality have been associated with profound hypothermia, especially below 35 degrees C. The purpose of this study was to further characterize the impact of hypothermia in a large dataset of trauma patients. This study was a retrospective analysis of the 2004 version of the National Trauma Data Bank (NTDB), which contains approximately 1.1 million patients from over 400 trauma centers. Admission temperature was analyzed with respect to mortality, injury severity score (ISS), base deficit (BD), Glasgow Coma Score (GCS), and hospital outcomes. The NTDB contained 701,491 patients with temperatures recorded upon trauma center admission. Of these, 11,026 patients had admission temperatures <35 degrees C, and 802 had temperatures <32 degrees C. Comparison of core temperature versus mortality revealed that as temperature decreased, the mortality rate increased, reaching approximately 39% at 32 degrees C, and remained constant at lower temperatures. Surprisingly, 477 patients (59.5%) survived with temperatures <32 degrees C. Similarly, BD increased as hypothermia worsened until body temperature reached 31 degrees C, below which there was little further increase. Patients with admission temperatures less than 35 degrees C had significantly greater mortality (25.5% vs. 3.0%, P < 0.001) and BD (7.8 vs. 3.7, P < 0.001) when compared with patients with temperatures >or=35 degrees C. In survivors, average ventilator days and intensive care unit (ICU) days were 14.4 and 12.8, respectively, for patients with temperatures <35 degrees C as opposed to more normothermic patients who demonstrated an average of 9.5 ventilator days and 9.1 ICU days (P < 0.001). When grouped by individual ISS, BD level, and GCS motor score, mortality was significantly greater when admission temperature was below 35 degrees C (ISS mean difference = 11.4%, BD mean difference = 22.8%, and GCS motor mean difference = 9.85%). Logistic regression revealed that hypothermia remains an independent determinant of mortality after correction for confounding variables (odds ratio = 1.54, 95% confidence interval 1.40-1.71). Admission hypothermia is associated with greater mortality, increased injury severity, more profound acidosis, and prolonged ICU/ventilator courses. However, although mortality at <32 degrees C is high, patients with temperatures this low do survive. As temperatures drop below 32 degrees C, mortality rates remain constant, which may indicate a threshold below which physiologic mechanisms are unable to correct body temperature regardless of injury severity. Although shock severity is highly indicative of outcome, hypothermia independently contributes to the substantial mortality associated with severe injury.
严重损伤和休克常伴有患者体温异常。严重低温,尤其是体温低于35摄氏度时,死亡率会大幅上升。本研究的目的是在一个大型创伤患者数据集中进一步明确低温的影响。本研究是对2004版国家创伤数据库(NTDB)的回顾性分析,该数据库包含来自400多个创伤中心的约110万名患者。分析了入院时的体温与死亡率、损伤严重程度评分(ISS)、碱缺失(BD)、格拉斯哥昏迷评分(GCS)以及医院结局之间的关系。NTDB中有701491名患者在创伤中心入院时记录了体温。其中,11026名患者入院时体温<35摄氏度,802名患者体温<32摄氏度。核心体温与死亡率的比较显示,随着体温下降,死亡率上升,在32摄氏度时达到约39%,在更低温度时保持稳定。令人惊讶的是,477名患者(59.5%)体温<32摄氏度时存活。同样,随着低温加重,BD升高,直到体温达到31摄氏度,低于该温度后几乎不再进一步升高。入院时体温低于35摄氏度的患者与体温>或 = 35摄氏度的患者相比,死亡率显著更高(25.5%对3.0%,P < 0.001),BD也更高(7.8对3.7,P < 0.001)。在幸存者中,体温<35摄氏度的患者平均呼吸机使用天数和重症监护病房(ICU)住院天数分别为14.4天和12.8天,而体温更接近正常的患者平均呼吸机使用天数和ICU住院天数分别为9.5天和9.1天(P < 0.001)。按个体ISS、BD水平和GCS运动评分分组时,入院体温低于35摄氏度时死亡率显著更高(ISS平均差异 = 11.4%,BD平均差异 = 22.8%,GCS运动平均差异 = 9.85%)。逻辑回归显示,校正混杂变量后,低温仍然是死亡率的独立决定因素(优势比 = 1.54,95%置信区间1.40 - 1.71)。入院时低温与更高的死亡率、更严重的损伤、更严重的酸中毒以及更长的ICU/呼吸机使用疗程相关。然而,尽管体温<32摄氏度时死亡率很高,但体温这么低的患者确实有存活的情况。当体温降至32摄氏度以下时,死亡率保持稳定,这可能表明存在一个阈值,低于该阈值,无论损伤严重程度如何,生理机制都无法调节体温。尽管休克严重程度高度预示结局,但低温独立地导致了与严重损伤相关的高死亡率。
