Impact of circuit configuration on the mechanical performance of CPAP therapy devices: an experimental study.

IF 2.7 Q3 ENGINEERING, BIOMEDICAL

Frontiers in medical technology Pub Date : 2025-02-19 eCollection Date: 2025-01-01 DOI:10.3389/fmedt.2025.1508545

Margherita De Luca, Andrea Formaggio, Mara Terzini, Simone Borrelli, Giovanni Putame, Francesca Moretto, Teresa Esposito, Rosanna Vaschetto, Umberto Morbiducci, Carlo Olivieri, Alberto L Audenino

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Abstract

Introduction: CPAP therapy treats various respiratory disorders. The overall performance of therapy delivery can be affected by the adopted circuit configuration. Recently, parallel to the canonical open configuration (OC), closed configurations (CC) have been proposed with potential advantages in terms of oxygen consumption, noise, airway dryness and contamination. However, the mechanical performance of CPAP devices in CC has been marginally investigated. The aim of this study is to clarify whether CPAP therapy delivered in CC configuration retains mechanical performances equivalent to that achieved in the canonical OC stipulated by the manufacturers.

Methods: OCs and CCs implemented on seven different ventilation devices, classified as flowmeter, obstructive sleep apnoea device, and mechanical ventilator, were tested at different set CPAP levels. Mask and helmet interfaces were tested, and healthy, post-surgery and ARDS respiratory conditions were simulated. The mechanical performance was compared in terms of mean static pressure (P_mean), pressure oscillations, areas between pressure curve and P_mean during inspiration (A_i) and expiration (A_e), and the time in which the pressure curve remains above the P_mean along the expiration phase (T%).

Results: The mechanical performances of CCs with helmet interface were comparable to canonical OCs used with mask interface. Globally, a CC supplied a reduced Pmean (on average, -1.3 cmH₂O for the mask and -0.3 cmH₂O for the helmet) and an increased ΔP, A_e and A_i (on average +0.5, +2.5, +2 times, respectively).

Conclusion: The closed configuration proved its capability to effectively deliver CPAP therapy, thus making its intrinsic advantages available for future clinical use.

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电路结构对CPAP治疗装置机械性能的影响：一项实验研究。

CPAP治疗多种呼吸系统疾病。所采用的电路配置可能会影响治疗递送的整体性能。最近，与标准的开放构型（OC）平行，封闭构型（CC）被提出，在氧气消耗、噪音、气道干燥和污染方面具有潜在的优势。然而，CPAP设备在CC中的机械性能研究很少。本研究的目的是澄清CPAP治疗在CC配置中是否保留了与制造商规定的规范OC相同的机械性能。方法：在流量计、阻塞性睡眠呼吸暂停装置和机械呼吸机等7种不同的通气装置上实施不同CPAP设置水平的OCs和CCs。测试面罩和头盔接口，并模拟健康、术后和ARDS呼吸状况。通过平均静压（Pmean）、压力振荡、吸气（Ai）和呼气（Ae）期间压力曲线与Pmean之间的面积以及呼气阶段压力曲线保持在Pmean以上的时间（T%）对力学性能进行了比较。结果：带头盔界面的碳纤维与带面罩界面的碳纤维力学性能相当。在全球范围内，CC提供了降低的Pmean（平均为面罩-1.3 cmH2O和头盔-0.3 cmH2O），并增加了ΔP， Ae和Ai（平均分别为+0.5,+2.5，+2倍）。结论：封闭结构证明其能够有效地提供CPAP治疗，从而使其固有的优势在未来的临床应用中得到利用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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