极低出生体重儿脑、肾及内脏区域组织氧合的静态变异性

Quiescent variability of cerebral, renal, and splanchnic regional tissue oxygenation in very low birth weight neonates.

作者信息

Mintzer J P, Parvez B, Chelala M, Alpan G, LaGamma E F

机构信息

Department of Pediatrics, Division of Neonatal-Perinatal Medicine, Stony Brook Children's Hospital, Stony Brook, NY, USA.

Department of Pediatrics, Division of Newborn Medicine, The Regional Neonatal Intensive Care Unit, Maria Fareri Children's Hospital at Westchester Medical Center, Valhalla, NY, USA.

出版信息

J Neonatal Perinatal Med. 2014 Jan 1;7(3):199-206. doi: 10.3233/NPM-14814035.

DOI:10.3233/NPM-14814035

Abstract

OBJECTIVE

In extremely premature neonates, data concerning the normal baseline variability of near-infrared spectroscopy (NIRS)-derived regional oxygen saturation (rSO2) are lacking. We sought to determine: 1) the quiescent variability of cerebral, renal, and splanchnic rSO2 in clinically stable, undisturbed very low birth weight neonates and 2) the effects of different data averaging epochs on site-specific variability.

STUDY DESIGN

In this prospective, observational study, neonates between 500 and 1250 g underwent seven days of continuous, real-time cerebral, renal, and splanchnic NIRS monitoring starting within the first seventy-two postnatal hours. Demographic, cardiopulmonary, bedside care, and rSO2 data were collected. rSO2 variability was analyzed utilizing data from quiescent periods identified using pre-specified stability criteria. Between- and within-monitoring site comparisons of data averaging methods were made utilizing ANOVA.

RESULT

Twenty-four subjects (GA 27 ± 0.3 wk, birth weight 988 ± 34 g; mean ± SEM) were monitored. Coefficients of variation (CoVar = SD/mean) were calculated for each monitoring site using varied data averaging epochs. CoVar was lowest for cerebral, intermediate for renal, and highest for splanchnic rSO2 (P < 0.01). For renal and splanchnic sites, shorter epochs (5- and 15-min) resulted in significantly smaller CoVars [P < 0.01 and P < 0.05, respectively]. Splanchnic variability was highly dependent on epoch length, ranging from 16% over 5 min to 23% over 60 min.

CONCLUSION

rSO2 variability differs significantly between monitoring sites and 2) shorter data sampling epochs decrease rSO2 variability. These observations may assist clinicians in operationally defining minimally significant departures to enable medical decision making utilizing this monitoring technique.

摘要

目的

在极早产儿中，缺乏关于近红外光谱（NIRS）衍生的局部氧饱和度（rSO2）正常基线变异性的数据。我们试图确定：1）临床稳定、未受干扰的极低出生体重儿大脑、肾脏和内脏rSO2的静态变异性，以及2）不同数据平均时段对特定部位变异性的影响。

研究设计

在这项前瞻性观察研究中，出生体重在500至1250克之间的新生儿在出生后72小时内开始接受为期7天的大脑、肾脏和内脏NIRS连续实时监测。收集人口统计学、心肺、床边护理和rSO2数据。利用根据预先指定的稳定性标准确定的静态期数据，分析rSO2变异性。使用方差分析对数据平均方法进行监测部位间和部位内比较。

结果

对24名受试者（孕龄27±0.3周，出生体重988±34克；均值±标准误）进行了监测。使用不同的数据平均时段，计算每个监测部位的变异系数（CoVar =标准差/均值）。大脑rSO2的CoVar最低，肾脏的CoVar居中，内脏rSO2的CoVar最高（P<0.01）。对于肾脏和内脏部位，较短的时段（5分钟和15分钟）导致CoVar显著更小[分别为P<0.01和P<0.05]。内脏变异性高度依赖于时段长度，从5分钟内的16%到60分钟内的23%不等。

结论

1）监测部位之间rSO2变异性存在显著差异，以及2）较短的数据采样时段可降低rSO2变异性。这些观察结果可能有助于临床医生在操作上定义最小显著偏差，以便利用这种监测技术进行医疗决策。