Cigarette Smoking Impairs Cardiorespiratory and Metabolic Response at Peak Incremental Exercise and during Recovery in Young, Physically Active Adults.

IF 4.1 2区医学 Q1 SPORT SCIENCES

Medicine and Science in Sports and Exercise Pub Date : 2025-04-01 Epub Date: 2024-11-12 DOI:10.1249/MSS.0000000000003602

Marta Borrelli, Christian Doria, Nicholas Toninelli, Stefano Longo, Giuseppe Coratella, Emiliano Cè, Susanna Rampichini, Fabio Esposito

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Abstract

Purpose: Cigarette smoking (CS) induces systemic changes that impair cardiorespiratory and muscular function both at rest and during exercise. Although these abnormalities are reported in sedentary, middle-aged smokers (SM) with pulmonary disease, few and controversial studies focused on young, physically active SM at the early stage of smoking history. This study aimed at assessing the effect of CS on cardiorespiratory and metabolic response during an incremental test and the subsequent recovery in young, physically active SM without known lung or cardiovascular disease.

Methods: After pulmonary function evaluation, 12 SM (age: 22±2 yr; body mass: 75±8 kg; stature: 1.78±0.06 m; 12±4 cigarette per day for 6±2 yr; mean ± SD) and 12 non-SM (control group; age: 23±1 yr; body mass: 76±8 kg; stature: 1.79±0.08 m) matched for age and exercise habits underwent an exhaustive incremental step test (25 W/2 min) on a cycle ergometer. Pulmonary O 2 uptake (V̇O 2 ), expiratory ventilation (V̇ E ), heart rate ( fH ) responses and lactate concentration were assessed during the test and subsequent recovery.

Results: Despite similar static lung volumes, SM reported lower peak expiratory flow (-23%; P = 0.003) and maximal voluntary ventilation (-10%; P = 0.003). At submaximal exercise, no differences in the cardiorespiratory and metabolic were noted between the two groups. However, SM exhibited ventilatory ( P < 0.01) and lactate thresholds at lower work rates ( P = 0.01). At peak exercise, SM exhibited lower V̇O 2 (-8%; P = 0.02), mechanical power (-11%; P = 0.02), and V̇ E (-9%; P = 0.01). During recovery, SM showed longer time constants (τ) in V̇O 2 (+52%; P = 0.002), V̇ E (+19%; P = 0.027) and fH (+21%; P = 0.022) and smaller fH at 30 s of recovery (HRR30; -31%; P = 0.032).

Conclusions: These results are compatible with an early CS-related impairment of the cardiorespiratory and metabolic function even in young individuals with relatively short smoking history.

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吸烟损害年轻、体力活跃的成年人在峰值增量运动和恢复期间的心肺和代谢反应。

摘要：目的：吸烟（CS）可引起全身变化，损害休息和运动时的心肺和肌肉功能。虽然这些异常在久坐的中年吸烟者（SM）中有报道，但很少有有争议的研究集中在吸烟史早期的年轻、体力活动的SM中。本研究旨在评估CS对无已知肺部或心血管疾病的年轻、身体活跃的SM患者在增量试验期间心肺和代谢反应的影响，以及随后的康复。方法：经肺功能评估，SM 12例(年龄：22±2岁；体重：75±8kg；身高：1.78±0.06米；12±4支/天，6±2年；平均值±SD)和12名非吸烟者(CTRL；年龄：23±1岁；体重：76±8kg；身高：1.79±0.08 m)，与年龄和运动习惯相匹配，在自行车计力器上进行了详尽的增量步数测试（25 W/2 min）。在试验期间和恢复后评估肺氧摄取（V'O2）、呼气通气量（V'E）、心率（fH）反应和乳酸浓度。结果：尽管静态肺容量相似，SM报告的呼气流量峰值较低(-23%；P = 0.003)和最大自主通气(-10%；P = 0.003)。在次极限运动中，两组在心肺和代谢方面没有差异。在较低的工作速率下，SM表现出通气阈值（P < 0.01）和乳酸阈值（P = 0.01）。在运动高峰期，SM表现出较低的V'O2 (-8%；P = 0.02)，机械动力(-11%；P = 0.02)和V - e (-9%；P = 0.01)。在恢复过程中，SM在V'O2中表现出较长的时间常数τ (+52%)；P = 0.002), v 'e (+19%；P = 0.027)和fH (+21%；P = 0.022)和30s时较小的fH (HRR30；-31%;P = 0.032)。结论：这些结果与早期cs相关的心肺和代谢功能损害相一致，即使在吸烟史相对较短的年轻人中也是如此。

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

Medicine and Science in Sports and Exercise 医学-运动科学

CiteScore

7.70

自引率

4.90%

发文量

2568

审稿时长

1 months

期刊介绍： Medicine & Science in Sports & Exercise® features original investigations, clinical studies, and comprehensive reviews on current topics in sports medicine and exercise science. With this leading multidisciplinary journal, exercise physiologists, physiatrists, physical therapists, team physicians, and athletic trainers get a vital exchange of information from basic and applied science, medicine, education, and allied health fields.