Thiago G. Gibson Alves, Ana P. R. Sierra, R. Moraes Ferreira, M. Brandao-Rangel, A. Silva-Reis, T. A. de Lima, L. V. D. de Oliveira, Maria F. C. Boaventura, R. Albertini, A. Bachi, R. Vieira
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Marathon induced a significant reduction in the lung function as compared to baseline values: FVC (4.81±0.72 vs 4.67±0.62, p=0.0095), VC IN (4.81±0.72 vs 4.67±0.62, p=0.009), FEV1 (3.83±0.62 vs 3.72±0.59, p=0.0232), and FEV6 (4.87±0.68 vs 4.57±0.63, p=0.0006), as well as an impairment in the lung mechanics in comparison to baseline values: reduced pulmonary impedance (Z5Hz; 2.96±1.36 vs 2.67±1.11; p=0.0305), reduced resistance of the whole respiratory system (R5Hz; 2.76±1.27 vs 2.5±1.08; p=0.0388) and pulmonary reactance (X5Hz; -1.05±0.55 vs -0.91±0.36; p=0.0101) and of resistance of proximal airways (R5Hz; 1.26±0.73 vs 1.06±0.86; p= 0.0377). In addition, maximal inspiratory (MIP; 94.14±41.88 vs 72.52±25.50; p=0.0023) and expiratory (MEP; 99.31±31.84 vs 91.29±19.94; p=0.0454) pressures, as well as FeNO levels were lower after the marathon than values pre-marathon (p=0.0359). Marathon running causes an acute disturbance in lung function and mechanics and compromises respiratory muscle strength.","PeriodicalId":36509,"journal":{"name":"Central European Journal of Sport Sciences and Medicine","volume":"51 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-11-07","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Acute Effects of Marathon Running on Lung Function, Lung Mechanics, and Inflammation\",\"authors\":\"Thiago G. Gibson Alves, Ana P. R. Sierra, R. Moraes Ferreira, M. Brandao-Rangel, A. Silva-Reis, T. A. de Lima, L. V. D. de Oliveira, Maria F. C. Boaventura, R. Albertini, A. Bachi, R. Vieira\",\"doi\":\"10.24018/ejsport.2022.1.6.40\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"This study investigated the influence of the marathon on lung function, mechanics, and pulmonary inflammation. Twenty-eight male amateur marathon runners (42.1±6.2 years) were evaluated before and immediately after marathon. Pulmonary function and mechanics were assessed using spirometry and impulse oscillometry, respectively, whereas fatigue of the respiratory muscles by manovacuometry and lung inflammation by fractional exhaled nitric oxide (FeNO). Marathon induced a significant reduction in the lung function as compared to baseline values: FVC (4.81±0.72 vs 4.67±0.62, p=0.0095), VC IN (4.81±0.72 vs 4.67±0.62, p=0.009), FEV1 (3.83±0.62 vs 3.72±0.59, p=0.0232), and FEV6 (4.87±0.68 vs 4.57±0.63, p=0.0006), as well as an impairment in the lung mechanics in comparison to baseline values: reduced pulmonary impedance (Z5Hz; 2.96±1.36 vs 2.67±1.11; p=0.0305), reduced resistance of the whole respiratory system (R5Hz; 2.76±1.27 vs 2.5±1.08; p=0.0388) and pulmonary reactance (X5Hz; -1.05±0.55 vs -0.91±0.36; p=0.0101) and of resistance of proximal airways (R5Hz; 1.26±0.73 vs 1.06±0.86; p= 0.0377). In addition, maximal inspiratory (MIP; 94.14±41.88 vs 72.52±25.50; p=0.0023) and expiratory (MEP; 99.31±31.84 vs 91.29±19.94; p=0.0454) pressures, as well as FeNO levels were lower after the marathon than values pre-marathon (p=0.0359). 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引用次数: 0
摘要
本研究探讨了马拉松对肺功能、力学和肺部炎症的影响。对28名男性业余马拉松运动员(42.1±6.2岁)进行赛前和赛后评价。分别使用肺活量测定法和脉冲振荡法评估肺功能和力学,而通过压力测量法评估呼吸肌疲劳,通过分数呼气一氧化氮(FeNO)评估肺部炎症。与基线值相比,马拉松导致肺功能显著降低:FVC(4.81±0.72 vs 4.67±0.62,p=0.0095), VC in(4.81±0.72 vs 4.67±0.62,p=0.009), FEV1(3.83±0.62 vs 3.72±0.59,p=0.0232), FEV6(4.87±0.68 vs 4.57±0.63,p=0.0006),以及肺力学损伤与基线值相比:肺阻抗降低(Z5Hz;2.96±1.36 vs 2.67±1.11;p=0.0305),全呼吸系统阻力降低(R5Hz;2.76±1.27 vs 2.5±1.08;p=0.0388)和肺电抗(X5Hz;-1.05±0.55 vs -0.91±0.36;p=0.0101)和近端气道阻力(R5Hz;1.26±0.73 vs 1.06±0.86;p = 0.0377)。此外,最大吸气量(MIP;94.14±41.88 vs 72.52±25.50;p=0.0023)和呼气(MEP;99.31±31.84 vs 91.29±19.94;p=0.0454)血压,马拉松后FeNO水平低于马拉松前(p=0.0359)。马拉松跑步会导致肺功能和力学的急性紊乱,并损害呼吸肌的力量。
Acute Effects of Marathon Running on Lung Function, Lung Mechanics, and Inflammation
This study investigated the influence of the marathon on lung function, mechanics, and pulmonary inflammation. Twenty-eight male amateur marathon runners (42.1±6.2 years) were evaluated before and immediately after marathon. Pulmonary function and mechanics were assessed using spirometry and impulse oscillometry, respectively, whereas fatigue of the respiratory muscles by manovacuometry and lung inflammation by fractional exhaled nitric oxide (FeNO). Marathon induced a significant reduction in the lung function as compared to baseline values: FVC (4.81±0.72 vs 4.67±0.62, p=0.0095), VC IN (4.81±0.72 vs 4.67±0.62, p=0.009), FEV1 (3.83±0.62 vs 3.72±0.59, p=0.0232), and FEV6 (4.87±0.68 vs 4.57±0.63, p=0.0006), as well as an impairment in the lung mechanics in comparison to baseline values: reduced pulmonary impedance (Z5Hz; 2.96±1.36 vs 2.67±1.11; p=0.0305), reduced resistance of the whole respiratory system (R5Hz; 2.76±1.27 vs 2.5±1.08; p=0.0388) and pulmonary reactance (X5Hz; -1.05±0.55 vs -0.91±0.36; p=0.0101) and of resistance of proximal airways (R5Hz; 1.26±0.73 vs 1.06±0.86; p= 0.0377). In addition, maximal inspiratory (MIP; 94.14±41.88 vs 72.52±25.50; p=0.0023) and expiratory (MEP; 99.31±31.84 vs 91.29±19.94; p=0.0454) pressures, as well as FeNO levels were lower after the marathon than values pre-marathon (p=0.0359). Marathon running causes an acute disturbance in lung function and mechanics and compromises respiratory muscle strength.
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