预测 100 例危重症儿童的液体反应性：基础收缩性的影响。

Predicting fluid responsiveness in 100 critically ill children: the effect of baseline contractility.

机构信息

Paediatric Intensive Care Unit, Evelina Children's Hospital, Guy's and St Thomas' NHS Foundation Trust, Westminster Bridge Road, London, SE1 7EH, UK.

出版信息

Intensive Care Med. 2015 Dec;41(12):2161-9. doi: 10.1007/s00134-015-4075-8. Epub 2015 Sep 28.

DOI:10.1007/s00134-015-4075-8

PMID:26415680

Abstract

PURPOSE

Fluid overload is a risk factor for poor outcome in intensive care; thus volume loading should be tailored towards patients who are likely to increase stroke volume. We aimed to evaluate the paediatric predictive ability (stroke volume increase of at least 15 % after fluid bolus) of novel and established volumetric and dynamic haemodynamic variables, and assess the influence of baseline contractility on response.

METHODS

We assessed 142 volume loading episodes (10 ml/kg crystalloid) in 100 critically ill ventilated children, median (interquartile) weight 10 (5.6-15) kg. Eight advanced haemodynamic variables were assessed using two commercially available devices. Systemic ventricular contractility was measured as the maximum rate of systolic arterial pressure rise.

RESULTS

Overall, predictive ability was poor, with volumetric variables performing better than dynamic (area under receiver operating characteristic curves ranged from 0.53 to 0.67). The best predictor was total end-diastolic volume index; however, this did not increase in a consistent way with volume loading, with change post volume being weakly related to baseline values (r = -0.19, p = 0.02). A multivariable model quantified the importance of contractility in stroke volume response. Children with high baseline contractility (≥75th centile) typically achieved a positive stroke volume response when end-diastolic volume values changed by 10-15 ml/m(2.6), whereas patients with low contractility (≤25th centile) typically required end-diastolic volume increases of 35-40 ml/m(2.6).

CONCLUSIONS

Current paediatric predictors of volume response perform poorly; prediction may be improved if baseline contractility is taken into account.

摘要

目的

液体超负荷是重症监护不良预后的一个危险因素；因此，容量负荷应针对那些可能增加每搏量的患者进行调整。我们旨在评估新型和已建立的容积和动力血流动力学变量对儿童的预测能力（液体冲击后每搏量增加至少 15%），并评估基础收缩性对反应的影响。

方法

我们评估了 100 例接受机械通气的危重症儿童 142 次容量负荷（10ml/kg 晶体液），中位数（四分位间距）体重为 10（5.6-15）kg。使用两种商业上可获得的设备评估了 8 个高级血流动力学变量。系统心室收缩性测量为收缩期动脉压上升的最大速率。

结果

总体而言，预测能力较差，容积变量的表现优于动力变量（接受者操作特征曲线下面积范围为 0.53 至 0.67）。最佳预测因子是总舒张末期容积指数；然而，它并没有随着容量负荷的增加而以一致的方式增加，负荷后变化与基线值的相关性较弱（r=-0.19，p=0.02）。多变量模型量化了收缩性在每搏量反应中的重要性。基线收缩性较高（≥第 75 百分位数）的儿童通常在舒张末期容积变化 10-15ml/m²（2.6）时会产生正的每搏量反应，而收缩性较低（≤第 25 百分位数）的儿童通常需要舒张末期容积增加 35-40ml/m²（2.6）。

结论

目前儿童容量反应的预测因子表现不佳；如果考虑到基础收缩性，预测可能会得到改善。

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预测 100 例危重症儿童的液体反应性：基础收缩性的影响。

Predicting fluid responsiveness in 100 critically ill children: the effect of baseline contractility.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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