Service de Réanimation Pédiatrique, Univ Lille Nord de France, UDSL, EA2694, CHU Lille, Avenue Eugène Avinée, 59037 Lille, France.
Crit Care. 2010;14(6):R202. doi: 10.1186/cc9323. Epub 2010 Nov 9.
The multiple organ dysfunction syndrome (MODS) is a major cause of death for patients admitted to pediatric intensive care units (PICU). The Pediatric Logistic Organ Dysfunction (PELOD) score has been validated in order to describe and quantify the severity of organ dysfunction (OD). There are several physiological differences between neonates and older children. The objective of the study was to determine whether there are differences in incidence of ODs and mortality rate between full-term neonates (age <28 days) and older children.
In a prospective, observational study, 1806 patients, admitted to seven PICUs between September 1998 and February 2000 were included. The PELOD score, which includes six organ dysfunctions and 12 variables, was recorded daily. For each variable, the most abnormal value was used to define the daily OD. For each OD, the most abnormal value each day and that during the entire stay were used in calculating the daily PELOD and PELOD scores, respectively. The relationships between OD, daily OD, PELOD, daily PELOD and mortality were compared between the two strata (neonates, older children) based on the discrimination power, logistic and multiple regression analyses.
Of the 1806 enrolled patients 171 (9.5%) were neonates. Incidence of MODS and mortality rate were higher among neonates than in older children (14.6% vs. 5.5%, P < 10(-7); 75.4%, vs. 50.9%, P < 10(-4); respectively). Daily PELOD scores were significantly higher in neonates from day 1 to day 4. Daily cardiovascular, respiratory and renal dysfunction scores from day 1 to day 4 as well as the PELOD score for the entire pediatric intensive care unit stay were also significantly higher in neonates. Neurological, cardiovascular, and hepatic dysfunctions were independent predictors of death among neonates while all ODs significantly contributed to the risk of mortality in older children.
Our data demonstrate that incidence of MODS and mortality rate are higher among neonates compared to older children. Neurological, cardiovascular, and hepatic dysfunctions were the only significant contributors to neonatal mortality. Stratification for neonates versus older children might be useful in clinical trials where MODS is considered as an outcome measure.
多器官功能障碍综合征(MODS)是儿科重症监护病房(PICU)患者死亡的主要原因。为了描述和量化器官功能障碍(OD)的严重程度,已经验证了儿科逻辑器官功能障碍(PELOD)评分。新生儿和较大儿童之间存在多种生理差异。本研究的目的是确定足月新生儿(年龄<28 天)和较大儿童之间器官功能障碍的发生率和死亡率是否存在差异。
在一项前瞻性、观察性研究中,纳入了 1998 年 9 月至 2000 年 2 月期间在 7 个 PICU 住院的 1806 名患者。PELOD 评分包括 6 个器官功能障碍和 12 个变量,每天记录。对于每个变量,使用最异常的值来定义每日 OD。对于每个 OD,使用每天和整个住院期间最异常的值来计算每日 PELOD 和 PELOD 评分。基于区分能力、逻辑和多元回归分析,比较了两个分层(新生儿、较大儿童)之间 OD、每日 OD、PELOD、每日 PELOD 和死亡率之间的关系。
在纳入的 1806 名患者中,有 171 名(9.5%)是新生儿。新生儿的 MODS 发生率和死亡率高于较大儿童(14.6% vs. 5.5%,P<10(-7);75.4% vs. 50.9%,P<10(-4))。从第 1 天到第 4 天,新生儿的每日 PELOD 评分明显较高。从第 1 天到第 4 天的每日心血管、呼吸和肾功能评分以及整个儿科重症监护病房住院期间的 PELOD 评分也明显较高。新生儿的神经系统、心血管和肝功能障碍是死亡的独立预测因素,而所有器官功能障碍都显著增加了较大儿童的死亡风险。
我们的数据表明,与较大儿童相比,新生儿的 MODS 发生率和死亡率更高。神经系统、心血管和肝功能障碍是新生儿死亡的唯一重要因素。新生儿与较大儿童的分层可能对 MODS 作为结局指标的临床试验有用。
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