一种新的无创通气辅助装置,休息-活动循环-气道正压,在健康成人人群运动期间的效用和可接受性:队列研究

Q2 Medicine
Julie Reeve, Sarah Mooney, Nicola Jepsen, David White
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引用次数: 0

摘要

背景:无创通气已被证明对中度至重度慢性阻塞性肺疾病急性加重患者有益。研究已经开始调查无创通气在肺康复期间改善慢性阻塞性肺疾病患者预后的有效性;然而,这些设备缺乏便携性和加湿性意味着它们的使用受到限制,特别是在进行日常生活活动时。一种新的原型装置,RACer-PAP(休息-活动循环-气道正压),通过鼻接口提供电池操作的气道正压,同时调节鼻气道分配偏倚,消除了补充加湿的需要。该装置可改善慢性阻塞性肺疾病患者参与肺部康复和日常生活活动的能力。目的:评价RACer-PAP原位运动的可行性及在正常健康人运动过程中的可接受性。方法:邀请15名健康成人参加2次运动,每次间隔1周。疗程持续约1小时,包括2次基线6分钟步行距离评估,一次使用和一次不使用RACer-PAP。在整个过程中监测生命体征和肺活量测定结果,并在RACer-PAP检测前后进行肺活量测定。主观问卷调查确定了参与者对在原位装置上锻炼的反馈。结果:在15名初始参与者中,14名(93%)完成了两个疗程。没有与器械原位运动相关的不良事件。在生命体征和6分钟步行距离方面,无论是否使用该装置都没有差异。在原位运动时,最大呼吸困难评分(Borg评分)略有增加(中位评分2.0,IQR 0.5-3.0, vs 3.0, IQR 2.0-3.25)。使用RACer-PAP进行运动后,用力肺活量有小幅增加。没有参与者报告与气道干燥相关的症状。在慢性阻塞性肺病患者试用该设备之前,参与者的反馈为该设备的下一次迭代提供了修改建议。结论:本研究表明RACer-PAP在运动期间使用是安全可行的,并为改进设备提供了反馈,以改善其在运动期间的使用。我们现在建议考虑在一项小型试点可行性研究中应用该设备,以评估该设备在中重度慢性阻塞性肺疾病人群中的安全性、可行性和实用性。试验注册:澳大利亚新西兰临床试验注册中心ACTRN12619000478112;https://www.anzctr.org.au/Trial/Registration/TrialReview.aspx?id=375477。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The Utility and Acceptability of a New Noninvasive Ventilatory Assist Device, Rest-Activity Cycler-Positive Airways Pressure, During Exercise in a Population of Healthy Adults: Cohort Study.

The Utility and Acceptability of a New Noninvasive Ventilatory Assist Device, Rest-Activity Cycler-Positive Airways Pressure, During Exercise in a Population of Healthy Adults: Cohort Study.

The Utility and Acceptability of a New Noninvasive Ventilatory Assist Device, Rest-Activity Cycler-Positive Airways Pressure, During Exercise in a Population of Healthy Adults: Cohort Study.

The Utility and Acceptability of a New Noninvasive Ventilatory Assist Device, Rest-Activity Cycler-Positive Airways Pressure, During Exercise in a Population of Healthy Adults: Cohort Study.

Background: Noninvasive ventilation has been demonstrated to benefit people who have moderate to severe chronic obstructive pulmonary disease during acute exacerbations. Studies have begun to investigate the effectiveness of noninvasive ventilation during pulmonary rehabilitation to improve outcomes for people with chronic obstructive pulmonary disease; however, the lack of portability and humidification of these devices means their use is limited, especially when performing activities of daily living. A new prototype device, RACer-PAP (rest-activity cycler-positive airways pressure), delivers battery-operated positive airway pressure via a nasal interface while regulating nasal airway apportionment bias, removing the need for supplementary humidification. This device may offer people with chronic obstructive pulmonary disease an improved ability to participate in pulmonary rehabilitation and activities of daily living.

Objective: To assess the feasibility of exercising with the RACer-PAP in situ and the acceptability of the device during exercise in normal, healthy individuals.

Methods: A total of 15 healthy adults were invited to attend 2 exercise sessions, each 1 week apart. Sessions lasted approximately 1 hour and included 2 baseline 6-minute walk distance assessments, once with and once without the RACer-PAP in situ. Vital signs and spirometry results were monitored throughout, and spirometry was performed pre- and posttesting with RACer-PAP. Subjective questionnaires ascertained participant feedback on exercising with the device in situ.

Results: Of the 15 initial participants, 14 (93%) completed both sessions. There were no adverse events associated with exercising with the device in situ. There were no differences in vital signs or 6-minute walk distance whether exercising with or without the device in situ. There were small increases in maximum dyspnea score (on the Borg scale) when exercising with the device in situ (median score 2.0, IQR 0.5-3.0, vs 3.0, IQR 2.0-3.25). There were small increases in forced vital capacity following exercise with the RACer-PAP. None of the participants reported symptoms associated with airway drying. Participant feedback provided recommendations for modifications for the next iteration of the device prior to piloting the device with people with chronic obstructive pulmonary disease.

Conclusions: This study has shown RACer-PAP to be safe and feasible to use during exercise and has provided feedback for modifications to the device to improve its use during exercise. We now propose to consider the application of the device in a small pilot feasibility study to assess the safety, feasibility, and utility of the device in a population of people with moderate to severe chronic obstructive pulmonary disease.

Trial registration: Australian New Zealand Clinical Trials Registry ACTRN12619000478112; https://www.anzctr.org.au/Trial/Registration/TrialReview.aspx?id=375477.

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CiteScore
4.20
自引率
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