Marshall J C, Cook D J, Christou N V, Bernard G R, Sprung C L, Sibbald W J
Department of Surgery, University of Toronto, ON, Canada.
Crit Care Med. 1995 Oct;23(10):1638-52. doi: 10.1097/00003246-199510000-00007.
To develop an objective scale to measure the severity of the multiple organ dysfunction syndrome as an outcome in critical illness.
Systematic literature review; prospective cohort study.
Surgical intensive care unit (ICU) of a tertiary-level teaching hospital.
All patients (n = 692) admitted for > 24 hrs between May 1988 and March 1990.
None.
Computerized database review of MEDLINE identified clinical studies of multiple organ failure that were published between 1969 and 1993. Variables from these studies were evaluated for construct and content validity to identify optimal descriptors of organ dysfunction. Clinical and laboratory data were collected daily to evaluate the performance of these variables individually and in aggregate as an organ dysfunction score. Seven systems defined the multiple organ dysfunction syndrome in more than half of the 30 published reports reviewed. Descriptors meeting criteria for construct and content validity could be identified for five of these seven systems: a) the respiratory system (Po2/FIO2 ratio); b) the renal system (serum creatinine concentration); c) the hepatic system (serum bilirubin concentration); d) the hematologic system (platelet count); and e) the central nervous system (Glasgow Coma Scale). In the absence of an adequate descriptor of cardiovascular dysfunction, we developed a new variable, the pressure-adjusted heart rate, which is calculated as the product of the heart rate and the ratio of central venous pressure to mean arterial pressure. These candidate descriptors of organ dysfunction were then evaluated for criterion validity (ICU mortality rate) using the clinical database. From the first half of the database (the development set), intervals for the most abnormal value of each variable were constructed on a scale from 0 to 4 so that a value of 0 represented essentially normal function and was associated with an ICU mortality rate of < 5%, whereas a value of 4 represented marked functional derangement and an ICU mortality rate of > or = 50%. These intervals were then tested on the second half of the data set (the validation set). Maximal scores for each variable were summed to yield a Multiple Organ Dysfunction Score (maximum of 24). This score correlated in a graded fashion with the ICU mortality rate, both when applied on the first day of ICU admission as a prognostic indicator and when calculated over the ICU stay as an outcome measure. For the latter, ICU mortality was approximately 25% at 9 to 12 points, 50% at 13 to 16 points, 75% at 17 to 20 points, and 100% at levels of > 20 points. The score showed excellent discrimination, as reflected in areas under the receiver operating characteristic curve of 0.936 in the development set and 0.928 in the validation set. The incremental increase in scores over the course of the ICU stay (calculated as the difference between maximal scores and those scores obtained on the first day [i.e., the delta Multiple Organ Dysfunction Score]) also demonstrated a strong correlation with the ICU mortality rate. In a logistic regression model, this incremental increase in scores accounted for more of the explanatory power than admission severity indices.
This multiple organ dysfunction score, constructed using simple physiologic measures of dysfunction in six organ systems, mirrors organ dysfunction as the intensivist sees it and correlates strongly with the ultimate risk of ICU mortality and hospital mortality. The variable, delta Multiple Organ Dysfunction Score, reflects organ dysfunction developing during the ICU stay, which therefore is potentially amenable to therapeutic manipulation. (ABSTRACT TRUNCATED)
制定一种客观的量表来衡量多器官功能障碍综合征的严重程度,将其作为危重病的一项预后指标。
系统文献综述;前瞻性队列研究。
一所三级教学医院的外科重症监护病房(ICU)。
1988年5月至1990年3月期间收治且住院时间超过24小时的所有患者(n = 692)。
无。
通过计算机化数据库检索MEDLINE,找出1969年至1993年间发表的关于多器官功能衰竭的临床研究。对这些研究中的变量进行结构效度和内容效度评估,以确定器官功能障碍的最佳描述指标。每天收集临床和实验室数据,以单独评估这些变量以及将它们汇总作为器官功能障碍评分时的表现。在30篇已发表报告中的半数以上报告中,七个系统被用于定义多器官功能障碍综合征。可以为这七个系统中的五个系统确定符合结构效度和内容效度标准的描述指标:a)呼吸系统(动脉血氧分压/吸入氧分数比);b)肾脏系统(血清肌酐浓度);c)肝脏系统(血清胆红素浓度);d)血液系统(血小板计数);e)中枢神经系统(格拉斯哥昏迷量表)。由于缺乏心血管功能障碍的合适描述指标,我们开发了一个新变量——压力校正心率,其计算方法为心率与中心静脉压与平均动脉压比值的乘积。然后,利用临床数据库对这些器官功能障碍的候选描述指标进行效标效度(ICU死亡率)评估。根据数据库的前半部分(开发集),为每个变量的最异常值构建一个从0到4的量表区间,使得0分代表基本正常的功能,且与ICU死亡率<5%相关,而4分代表明显的功能紊乱,且与ICU死亡率≥50%相关。然后在数据集的后半部分(验证集)对这些区间进行测试。将每个变量的最高得分相加得出多器官功能障碍评分(最高24分)。该评分与ICU死亡率呈分级相关,无论是在ICU入院第一天作为预后指标应用时,还是在整个ICU住院期间作为预后指标计算时。对于后者,ICU死亡率在9至12分时约为25%,13至16分时为50%,17至20分时为75%,>20分时为100%。该评分显示出良好的区分度,开发集的受试者工作特征曲线下面积为0.936,验证集为0.928。在ICU住院期间评分的增量增加(计算为最高得分与第一天获得的得分之差[即Δ多器官功能障碍评分])也与ICU死亡率密切相关。在逻辑回归模型中,评分的这种增量增加比入院严重程度指数具有更强的解释力。
这种多器官功能障碍评分采用六个器官系统功能障碍的简单生理学指标构建,反映了重症监护医师所观察到的器官功能障碍情况,并且与ICU死亡率和医院死亡率的最终风险密切相关。变量Δ多器官功能障碍评分反映了在ICU住院期间发生的器官功能障碍,因此可能适合进行治疗干预。(摘要截选)
