新生儿心电测量中人体测量变异的计算机模拟评估
In-Silico Evaluation of Anthropomorphic Measurement Variations on Electrical Cardiometry in Neonates.
作者信息
Healy David B, Dempsey Eugene M, O'Toole John M, Schwarz Christoph E
机构信息
Department of Neonatology, Cork University Maternity Hospital, Wilton, T12 K8AF Cork, Ireland.
Department of Paediatrics & Child Health, University College Cork, T12 K8AF Cork, Ireland.
出版信息
Children (Basel). 2021 Oct 18;8(10):936. doi: 10.3390/children8100936.
Non-invasive cardiac output methods such as Electrical Cardiometry (EC) are relatively novel assessment tools for neonates and they enable continuous monitoring of stroke volume (SV). An in-silico comparison of differences in EC-derived SV in relation to preset length and weight was performed. EC (ICON, Osypka Medical) was simulated using the "demo" mode for various combinations of length and weight representative of term and preterm infants. One-centimetre length error resulted in a SV-change of 1.8-3.6% (preterm) or 1.6-2.0% (term) throughout the tested weight ranges. One-hundred gram error in weight measurement resulted in a SV-change of 5.0-7.1% (preterm) or 1.5-1.8% (term) throughout the tested length ranges. Algorithms to calculate EC-derived SV incorporate anthropomorphic measurements. Therefore, inaccuracy in physical measurement can impact absolute EC measurements. This should be considered in the interpretation of previous findings and the design of future clinical studies of EC-derived cardiac parameters in neonates, particularly in the preterm cohorts where a proportional change was noted to be greatest.
诸如心电心输出量测定法(EC)等非侵入性心输出量测量方法,对于新生儿来说是相对新颖的评估工具,它们能够持续监测每搏输出量(SV)。针对与预设身长和体重相关的EC衍生SV差异进行了计算机模拟比较。使用“演示”模式,针对代表足月儿和早产儿的各种身长和体重组合对EC(ICON,Osypka Medical)进行模拟。在整个测试体重范围内,1厘米的身长误差导致SV变化1.8 - 3.6%(早产儿)或1.6 - 2.0%(足月儿)。在整个测试身长范围内,体重测量误差100克导致SV变化5.0 - 7.1%(早产儿)或1.5 - 1.8%(足月儿)。计算EC衍生SV的算法纳入了人体测量学数据。因此,物理测量的不准确会影响EC的绝对测量值。在解释既往研究结果以及设计未来关于新生儿EC衍生心脏参数的临床研究时,尤其在观察到比例变化最大的早产儿队列中,应考虑到这一点。
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