小儿血红蛋白测量金标准与临床标准(床旁血气分析)及无创血红蛋白测量(SpHb)的比较:一项前瞻性诊断观察性研究。
Comparison of the gold standard of hemoglobin measurement with the clinical standard (BGA) and noninvasive hemoglobin measurement (SpHb) in small children: a prospective diagnostic observational study.
作者信息
Wittenmeier Eva, Bellosevich Sophia, Mauff Susanne, Schmidtmann Irene, Eli Michael, Pestel Gunther, Noppens Ruediger R
机构信息
Department of Anesthesiology, University Medical Center of the Johannes Gutenberg-University, Mainz, Germany.
Biostatistician Institute of Medical Biostatistics, Epidemiology and Informatics, Medical Centre of the Johannes Gutenberg-University, Mainz, Germany.
出版信息
Paediatr Anaesth. 2015 Oct;25(10):1046-53. doi: 10.1111/pan.12683. Epub 2015 Jul 14.
INTRODUCTION
Collecting a blood sample is usually necessary to measure hemoglobin levels in children. Especially in small children, noninvasively measuring the hemoglobin level could be extraordinarily helpful, but its precision and accuracy in the clinical environment remain unclear. In this study, noninvasive hemoglobin measurement and blood gas analysis were compared to hemoglobin measurement in a clinical laboratory.
METHODS
In 60 healthy preoperative children (0.2-7.6 years old), hemoglobin was measured using a noninvasive method (SpHb; Radical-7 Pulse Co-Oximeter), a blood gas analyzer (clinical standard, BGAHb; ABL 800 Flex), and a laboratory hematology analyzer (reference method, labHb; Siemens Advia). Agreement between the results was assessed by Bland-Altman analysis and by determining the percentage of outliers.
RESULTS
Sixty SpHb measurements, 60 labHb measurements, and 59 BGAHb measurements were evaluated. In 38% of the children, the location of the SpHb sensor had to be changed more than twice for the signal quality to be sufficient. The bias/limits of agreement between SpHb and labHb were -0.65/-3.4 to 2.1 g·dl(-1) . Forty-four percent of the SpHb values differed from the reference value by more than 1 g·dl(-1) . Age, difficulty of measurement, and the perfusion index (PI) had no influence on the accuracy of SpHb. The bias/limits of agreement between BGAHb and labHb were 1.14/-1.6 to 3.9 g·dl(-1) . Furthermore, 66% of the BGAHb values differed from the reference values by more than 1 g·dl(-1) . The absolute mean difference between SpHb and labHb (1.1 g·dl(-1) ) was smaller than the absolute mean difference between BGAHb and labHb (1.5 g·dl(-1) /P = 0.024).
CONCLUSION
Noninvasive measurement of hemoglobin agrees more with the reference method than the measurement of hemoglobin using a blood gas analyzer. However, both methods can show clinically relevant differences from the reference method (ClinicalTrials.gov: NCT01693016).
引言
通常需要采集血样来检测儿童的血红蛋白水平。尤其是对于幼儿来说,非侵入性测量血红蛋白水平可能会非常有帮助,但在临床环境中其精度和准确性仍不明确。在本研究中,将非侵入性血红蛋白测量和血气分析与临床实验室中的血红蛋白测量进行了比较。
方法
对60名健康的术前儿童(0.2 - 7.6岁)进行研究,使用非侵入性方法(SpHb;Radical - 7脉搏血氧仪)、血气分析仪(临床标准,BGAHb;ABL 800 Flex)和实验室血液学分析仪(参考方法,labHb;西门子Advia)测量血红蛋白。通过Bland - Altman分析和确定异常值百分比来评估结果之间的一致性。
结果
共评估了60次SpHb测量、60次labHb测量和59次BGAHb测量。在38%的儿童中,SpHb传感器的位置不得不更改两次以上,以确保信号质量足够。SpHb与labHb之间的偏差/一致性界限为 - 0.65/-3.4至2.1 g·dl(-1)。44%的SpHb值与参考值相差超过1 g·dl(-)1。年龄、测量难度和灌注指数(PI)对SpHb的准确性没有影响。BGAHb与labHb之间的偏差/一致性界限为1.14/-1.6至3.9 g·dl(-1)。此外,66%的BGAHb值与参考值相差超过1 g·dl(-1)。SpHb与labHb之间的绝对平均差异(1.1 g·dl(-1))小于BGAHb与labHb之间的绝对平均差异(1.5 g·dl(-1)/P = 0.024)。
结论
与使用血气分析仪测量血红蛋白相比,非侵入性血红蛋白测量与参考方法的一致性更高。然而,两种方法与参考方法相比都可能显示出临床相关差异(ClinicalTrials.gov:NCT01693016)。
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