Body Mass Index and Thoracic Expansion in Post-COVID Dyspnea: A Secondary Analysis.

IF 1.7 4区医学 Q2 NURSING

Clinical Nursing Research Pub Date : 2024-07-01 Epub Date: 2024-05-21 DOI:10.1177/10547738241252191

Sandra P Morgan, Bini Thomas, Zoe Morris, Aimee B Klein, Douglas Haladay, Constance Visovsky

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引用次数: 0

Abstract

Dyspnea secondary to lung impairment can persist following the acute phase of COVID-19. Thoracic expansion measurements have been used as a diagnostic tool to evaluate chest wall mobility, respiratory function, and the effects of respiratory muscle strength training. Changes in chest wall mobility may occur because of altered chest biomechanics in individuals with respiratory diseases and an elevated body mass index (BMI). The purpose of this secondary analysis was to evaluate whether BMI influences thoracic expansion or forced expiratory volume over 1 second (FEV1) in individuals with persistent dyspnea following COVID-19. This study assessed the relationship between BMI and thoracic expansion, pulmonary symptoms, and exercise capacity following a home-based pulmonary rehabilitation intervention. A secondary data analysis was conducted with a sample of 19 adults with persistent dyspnea following COVID-19 infection who participated in a 12-week, home-based pulmonary rehabilitation study. Participants received expiratory muscle strength training devices and were instructed to perform pulmonary rehabilitation exercises three times per week over the study period. Pulmonary function, pulmonary symptoms, exercise capacity, and BMI measurements were collected. For analysis, study participants were divided into obese (BMI > 30 kg/m²) or nonobese (BMI < 30 kg/m²) categories. Correlations using the change scores from baseline to 12 weeks between thoracic expansion, FEV1, pulmonary symptoms, and exercise capacity were assessed. In addition, the minimal detectable change (MDC) in thoracic expansion was explored. Thoracic expansion was significantly improved after 12 weeks of training (p = .012) in the nonobese group. There was a significant correlation between the change in walking distance and pulmonary symptoms (r = -.738, p < .001) and in thoracic expansion (r = .544, p = .020), and walking distance, when controlling for BMI, but no change in FEV1. Average MDC was 1.28 for inspiration and 0.91 for expiration. Measurements of thoracic expansion were significantly lower in post-COVID individuals with an increased BMI. Individuals with persistent dyspnea and a higher BMI may require additional measures to increase chest mobility or to detect pulmonary changes following COVID-19.

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COVID 后呼吸困难的体重指数和胸廓扩张：二次分析。

继发于肺功能损伤的呼吸困难可在 COVID-19 急性期后持续存在。胸廓扩张测量已被用作评估胸壁活动度、呼吸功能和呼吸肌力量训练效果的诊断工具。呼吸系统疾病患者和体重指数（BMI）升高者的胸壁生物力学可能会发生改变，从而导致胸壁活动度发生变化。本二次分析的目的是评估 BMI 是否会影响 COVID-19 后持续呼吸困难患者的胸廓扩张或 1 秒钟以上用力呼气容积 (FEV1)。本研究评估了家庭肺康复干预后 BMI 与胸廓扩张、肺部症状和运动能力之间的关系。我们对 19 名感染 COVID-19 后出现持续性呼吸困难的成人样本进行了二次数据分析，他们参加了为期 12 周的家庭肺康复研究。参与者接受了呼气肌肉力量训练装置，并被指导在研究期间每周进行三次肺康复锻炼。研究人员收集了肺功能、肺部症状、运动能力和体重指数的测量数据。为了便于分析，研究参与者被分为肥胖（体重指数大于 30 kg/m2）和非肥胖（体重指数小于 30 kg/m2）两类。使用胸廓扩张、FEV1、肺部症状和运动能力之间从基线到 12 周的变化评分来评估相关性。此外，还探讨了胸廓扩张的最小可检测变化（MDC）。经过 12 周的训练后，非肥胖组的胸廓扩张明显改善（p = .012）。步行距离的变化与肺部症状（r = -.738，p < .001）、胸廓扩张（r = .544，p = .020）和步行距离（控制体重指数后）之间存在明显的相关性，但 FEV1 没有变化。吸气时的平均 MDC 为 1.28，呼气时为 0.91。在体重指数（BMI）增加的人群中，COVID 后的胸廓扩张测量值明显较低。持续呼吸困难且体重指数（BMI）较高的患者可能需要采取额外措施来增加胸部活动度或检测 COVID-19 后的肺部变化。

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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来源期刊

Clinical Nursing Research NURSING-

CiteScore

3.40

自引率

5.90%

发文量

107

审稿时长

>12 weeks

期刊介绍： Clinical Nursing Research (CNR) is a peer-reviewed quarterly journal that addresses issues of clinical research that are meaningful to practicing nurses, providing an international forum to encourage discussion among clinical practitioners, enhance clinical practice by pinpointing potential clinical applications of the latest scholarly research, and disseminate research findings of particular interest to practicing nurses. This journal is a member of the Committee on Publication Ethics (COPE).