{"title":"Assessment of Inspiratory Muscle Endurance in Healthy Adults by Recording Breathing Characteristics.","authors":"Selda Oğuz-Gökçen, Özgen Aras","doi":"10.4274/ThoracResPract.2025.2025-1-10","DOIUrl":null,"url":null,"abstract":"<p><strong>Objective: </strong>Respiratory muscle function is considered as strength and endurance. Since respiratory muscles are used a submaximally in daily life, measurement of respiratory muscle endurance rather than respiratory muscle strength is a more functional assessment. Measurement of respiratory muscle endurance is recommended to be performed by controlling the respiratory frequency and recording the breathing parameters. The purpose of this study was to evaluate respiratory muscle endurance with the incremental threshold loading (ITL) test in healthy adults by recording breathing parameters.</p><p><strong>Material and methods: </strong>This observational, cross-sectional study included 112 healthy adult subjects aged between 18 to 35 years. The anthropometric characteristics (weight and height), pulmonary function testing including forced expiratory volume (FEV1), forced vital capacity (FVC), and maximal voluntary ventilation (MVV), maximum inspiratory pressure (MIP), and physical activity level (International Physical Activity Questionnaire-Short Form - IPAQ-SF) were evaluated. Inspiratory muscle endurance is assessed with ITL.</p><p><strong>Results: </strong>The inspiratory muscle endurance (<i>P</i>Imax) was 54.08±21.62 cmH2O. Correlations between the <i>P</i>Imax showed weak positive results with height (r=0.392, <i>P</i> < 0.001), weight (r=0.382, <i>P</i> < 0.001), and FEV1 (r=0.386, <i>P</i> < 0.001), moderate positive results with FVC (r=0.446, <i>P</i> < 0.001) and MVV (%) (r=0.541, <i>P</i> < 0.001), while strong positive results with MIP (r=0.796, <i>P</i> < 0.001). According to the regression analysis results, the MIP and MVV% values explained 63% of <i>P</i>Imax.</p><p><strong>Conclusion: </strong>Inspiratory muscle endurance in healthy adults can be explained with MIP and MVV. The ITL testing that is performed by recording respiratory mechanics, such as the inspiratory volume, inspiratory flow and work of breathing, can guide the determination of respiratory muscle training intensity.</p>","PeriodicalId":75221,"journal":{"name":"Thoracic research and practice","volume":" ","pages":""},"PeriodicalIF":0.6000,"publicationDate":"2025-09-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Thoracic research and practice","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.4274/ThoracResPract.2025.2025-1-10","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"0","JCRName":"RESPIRATORY SYSTEM","Score":null,"Total":0}
引用次数: 0
Abstract
Objective: Respiratory muscle function is considered as strength and endurance. Since respiratory muscles are used a submaximally in daily life, measurement of respiratory muscle endurance rather than respiratory muscle strength is a more functional assessment. Measurement of respiratory muscle endurance is recommended to be performed by controlling the respiratory frequency and recording the breathing parameters. The purpose of this study was to evaluate respiratory muscle endurance with the incremental threshold loading (ITL) test in healthy adults by recording breathing parameters.
Material and methods: This observational, cross-sectional study included 112 healthy adult subjects aged between 18 to 35 years. The anthropometric characteristics (weight and height), pulmonary function testing including forced expiratory volume (FEV1), forced vital capacity (FVC), and maximal voluntary ventilation (MVV), maximum inspiratory pressure (MIP), and physical activity level (International Physical Activity Questionnaire-Short Form - IPAQ-SF) were evaluated. Inspiratory muscle endurance is assessed with ITL.
Results: The inspiratory muscle endurance (PImax) was 54.08±21.62 cmH2O. Correlations between the PImax showed weak positive results with height (r=0.392, P < 0.001), weight (r=0.382, P < 0.001), and FEV1 (r=0.386, P < 0.001), moderate positive results with FVC (r=0.446, P < 0.001) and MVV (%) (r=0.541, P < 0.001), while strong positive results with MIP (r=0.796, P < 0.001). According to the regression analysis results, the MIP and MVV% values explained 63% of PImax.
Conclusion: Inspiratory muscle endurance in healthy adults can be explained with MIP and MVV. The ITL testing that is performed by recording respiratory mechanics, such as the inspiratory volume, inspiratory flow and work of breathing, can guide the determination of respiratory muscle training intensity.
目的:探讨呼吸肌肉功能与力量、耐力的关系。由于呼吸肌在日常生活中使用较少,因此测量呼吸肌耐力而不是呼吸肌力量是一种更有效的功能评估。建议通过控制呼吸频率和记录呼吸参数来测量呼吸肌耐力。本研究的目的是通过记录呼吸参数,用增量阈值负荷(ITL)试验评估健康成人的呼吸肌耐力。材料和方法:本观察性横断面研究纳入112名年龄在18至35岁之间的健康成人受试者。评估人体测量特征(体重和身高)、肺功能测试,包括用力呼气量(FEV1)、用力肺活量(FVC)、最大自主通气(MVV)、最大吸气压力(MIP)和身体活动水平(国际身体活动问卷-短表- IPAQ-SF)。吸气肌耐力用ITL评估。结果:吸气肌耐力(PImax)为54.08±21.62 cmH2O。PImax与身高(r=0.392, P < 0.001)、体重(r=0.382, P < 0.001)、FEV1 (r=0.386, P < 0.001)呈弱阳性,与FVC (r=0.446, P < 0.001)、MVV (%) (r=0.541, P < 0.001)呈中度阳性,与MIP呈强阳性(r=0.796, P < 0.001)。根据回归分析结果,MIP和MVV%值解释了63%的PImax。结论:健康成人的吸气肌耐力可以用MIP和MVV来解释。通过记录呼吸力学,如吸气量、吸气流量、呼吸功等进行的ITL测试,可以指导呼吸肌训练强度的确定。
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