可在保温箱内对极早产儿进行无压力生长监测的体测技术：系统评价。

Body size measuring techniques enabling stress-free growth monitoring of extreme preterm infants inside incubators: A systematic review.

机构信息

Division of Neonatology, Department of Pediatrics, Erasmus MC University Medical Centre, Rotterdam, The Netherlands.

Department of Create4Care, Erasmus MC University Medical Centre, Rotterdam, The Netherlands.

出版信息

PLoS One. 2022 Apr 22;17(4):e0267285. doi: 10.1371/journal.pone.0267285. eCollection 2022.

DOI:10.1371/journal.pone.0267285

PMID:35452486

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9033282/

Abstract

INTRODUCTION

Growth monitoring of preterm infants is essential for assessing the nutritional effects on their growth. The current growth monitoring techniques are too stressful, however, for the smallest preterm infants. We performed a systematic review to summarize studies on stress-free techniques for measuring the body size of preterm infants inside incubators other than the traditional calliper and tape measure-based instruments.

METHODS

We searched four online literature databases: Embase, Medline, Web of Science Core Collection, and Cochrane, using search terms related to patients (neonates, infants, children) and body size measuring techniques. By means of expert judgement we assessed the techniques' suitability for stress-free body size measurement of an infant lying in an incubator. As a criterion for suitability, we used an imaginary ideal technique.

RESULTS

Twenty-six studies were included in this review. In 24 studies, the technique for body size measurement was related to 3D technology, and the majority of these studies acknowledged clinical superiority of 3D over 2D data. Two 3D techniques were assessed as suitable for stress-free measurement of preterm infants inside incubators. The first technique used a commercially available 3D handheld scanner which needed 3D postprocessing to derive measurement data. The second technique used a self-developed stereoscopic vision system.

CONCLUSIONS

3D volumetric parameters have higher clinical value for growth monitoring than 2D. In addition, contactless 3D measurements enable stress-free growth monitoring of even the smallest preterm infants. However, the time-consuming 3D postprocessing challenges the usability of 3D techniques. Regrettably, none of the identified suitable 3D techniques met all our requirements of an ideal all-in-one body size measuring technique for extreme preterm infants. Handheld 3D scanning might have the best properties for developing this ideal technique.

摘要

简介

早产儿的生长监测对于评估其生长的营养影响至关重要。然而，目前的生长监测技术对于最小的早产儿来说压力过大。我们进行了系统评价，以总结除传统卡尺和卷尺仪器之外，在孵化器内测量早产儿体型的无压力技术的研究。

方法

我们使用与患者（新生儿、婴儿、儿童）和身体尺寸测量技术相关的搜索词，在四个在线文献数据库（Embase、Medline、Web of Science Core Collection 和 Cochrane）中进行了搜索。通过专家判断，我们评估了这些技术在孵化器中测量婴儿体型时的无压力适用性。作为适用性的标准，我们使用了一个想象中的理想技术。

结果

本综述共纳入了 26 项研究。在 24 项研究中，身体尺寸测量技术与 3D 技术相关，其中大多数研究都承认 3D 数据优于 2D 数据。有两种 3D 技术被评估为适合在孵化器内对早产儿进行无压力测量。第一种技术使用了一种商用的 3D 手持扫描仪，需要 3D 后处理来得出测量数据。第二种技术使用了自行开发的立体视觉系统。

结论

3D 体积参数比 2D 更具有临床价值，用于生长监测。此外，非接触式 3D 测量可实现即使是最小早产儿的无压力生长监测。然而，3D 后处理耗时，这给 3D 技术的可用性带来了挑战。遗憾的是，所确定的适合的 3D 技术均未满足我们对极端早产儿理想一体式身体尺寸测量技术的所有要求。手持式 3D 扫描可能具有开发这种理想技术的最佳特性。

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可在保温箱内对极早产儿进行无压力生长监测的体测技术：系统评价。

Body size measuring techniques enabling stress-free growth monitoring of extreme preterm infants inside incubators: A systematic review.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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