Rozycki H J, Narla L
Department of Pediatrics, Medical College of Virginia, Virginia Commonwealth University, Richmond 23298-0276, USA.
Pediatr Pulmonol. 1996 Jun;21(6):345-52. doi: 10.1002/(SICI)1099-0496(199606)21:6<345::AID-PPUL1>3.0.CO;2-K.
We developed a simple method to identify neonates at high risk of bronchopulmonary dysplasia (BPD) and determined whether early (8 hours) and late (14 days) risk assessment is equally useful. A retrospective cohort design was utilized of subjects enrolled in multi-dose surfactant trials to develop each risk identification model. Prospective testing of the late 14-day model was done to determine accuracy. The primary outcome variable (moderate to severe BPD) was defined as the need for oxygen and mechanical ventilation beyond 28 days of life and significant chest X-ray changes. Variables were screened for inclusion in the models by univariate and multiple regression analysis of data available at 14 days or 8 hours of life, converted to yes-no variables by the use of receiver-operator curves; the final model was based on those variables that gave the highest sensitivity and specificity for identifying BPD risk. Thirty-eight out of 116 of the 14-day model subjects developed BPD. The 14-day model (F1O2 > or = 0.30 and ventilation index (defined as 10,000/peak pressure x rate x PCO2) < 0.510 (or < 0.800 if previously septic)] had a sensitivity of 82% and specificity of 89%. It accurately identified 83% of cases (51/61) during at 1-year prospective test. The positive predictive value was 81% and negative predictive value 88%. Forty-four of the 698 early 8-hour model subjects developed BPD. The 8-hour model [gestational age < 31 weeks, 5-minute Apgar < 9, ventilator rate > 23 breaths/min, and ventilation index < 0.895] had a sensitivity of 73%, specificity of 83%, negative predictive value of 98% but positive predictive value of only 22%. These observation indicated that clinical data can create an accurate and simple model to classify infants into high- or low-risk groups for BPD. Using such models very early in life (e.g., at 8 hours) may lead to a high number of false-positive identifications.
我们开发了一种简单的方法来识别支气管肺发育不良(BPD)高危新生儿,并确定早期(8小时)和晚期(14天)风险评估是否同样有用。采用回顾性队列设计,对参加多剂量表面活性剂试验的受试者进行研究,以建立每个风险识别模型。对14天晚期模型进行前瞻性测试以确定其准确性。主要结局变量(中度至重度BPD)定义为出生28天后仍需要吸氧和机械通气,且胸部X线有明显变化。通过对出生14天或8小时时可用数据进行单变量和多变量回归分析,筛选纳入模型的变量,并通过使用受试者工作特征曲线将其转换为是-否变量;最终模型基于那些对识别BPD风险具有最高敏感性和特异性的变量。14天模型的116名受试者中有38名发生了BPD。14天模型(吸入氧分数≥0.30且通气指数(定义为10,000/峰值压力×呼吸频率×二氧化碳分压)<0.510(如果之前有败血症则<0.800))的敏感性为82%,特异性为89%。在1年的前瞻性测试中,它准确识别了83%(51/61)的病例。阳性预测值为81%,阴性预测值为88%。698名早期8小时模型受试者中有44名发生了BPD。8小时模型(胎龄<31周、5分钟阿氏评分<9、呼吸机频率>23次/分钟且通气指数<0.895)的敏感性为73%,特异性为83%,阴性预测值为98%,但阳性预测值仅为22%。这些观察结果表明,临床数据可以创建一个准确且简单的模型,将婴儿分为BPD的高危或低危组。在生命早期(如8小时)使用此类模型可能会导致大量假阳性识别。
