The Basics of Ventilator Waveforms.

IF 3.6 Q1 PEDIATRICS Current pediatrics reports Pub Date : 2021-01-01 Epub Date: 2021-01-05 DOI:10.1007/s40124-020-00235-4
Elizabeth Emrath
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引用次数: 6

Abstract

Purpose of review: Knowledge of ventilator waveforms is important for clinicians working with children requiring mechanical ventilation. This review covers the basics of how to interpret and use data from ventilator waveforms in the pediatric intensive care unit.

Recent findings: Patient-ventilator asynchrony (PVA) is a common finding in pediatric patients and observed in approximately one-third of ventilator breaths. PVA is associated with worse outcomes including increased length of mechanical ventilation, increased length of stay, and increased mortality. Identification of PVA is possible with a thorough knowledge of ventilator waveforms.

Summary: Ventilator waveforms are graphical descriptions of how a breath is delivered to a patient. These include three scalars (flow versus time, volume versus time, and pressure versus time) and two loops (pressure-volume and flow-volume). Thorough understanding of both scalars and loops, and their characteristic appearances, is essential to being able to evaluate a patient's respiratory mechanics and interaction with the ventilator.

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通风机波形基础。
综述的目的:呼吸机波形的知识对需要机械通气的儿童的临床医生很重要。这篇综述涵盖了如何解释和使用儿童重症监护病房呼吸机波形数据的基础知识。最近的发现:患者-呼吸机不同步(PVA)是儿科患者的常见发现,约有三分之一的呼吸机呼吸。PVA与较差的预后相关,包括机械通气时间延长、住院时间延长和死亡率增加。通过通风机波形的全面知识可以识别PVA。摘要:呼吸机波形是对呼吸如何传递给病人的图形描述。其中包括三个标量(流量与时间、体积与时间、压力与时间)和两个循环(压力-体积和流量-体积)。彻底了解标量和循环,以及它们的特征外观,对于能够评估患者的呼吸力学和与呼吸机的相互作用至关重要。
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