-阻断剂对运动期间心肺系统和症状的影响

IF 2.1 Q3 PHYSIOLOGY

Current research in physiology Pub Date : 2021-01-01 DOI:10.1016/j.crphys.2021.10.002

Eldar Priel , Mustafaa Wahab , Tapas Mondal , Andy Freitag , Paul M. O'Byrne , Kieran J. Killian , Imran Satia

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引用次数: 6

摘要

-受体阻滞剂可以延长心血管疾病患者的寿命。负性变时性和正性作用有可能对周围骨骼和气道平滑肌产生不利影响，导致进一步的疲劳、呼吸困难和运动不耐受。研究问题:β受体阻滞剂是否会降低最大输出功率(MPO)、最大摄氧量(VO2 max)、心肺反应、增加心肺运动测试(CPET)中循环和呼吸所需的感知努力，并限制运动能力?方法回顾性观察1988 ~ 2012年进行CPET的受试者。使用和不使用β受体阻滞剂的受试者进行比较:基线生理特征、MPO、最大摄氧量、最大心率、通气反应和循环和呼吸所需的感知消耗(改良博格量表)。以MPO为因变量，以身高、年龄、性别、肌力、FEV1和DLCO为独立变量，进行正逐步线性加性回归。结果共纳入42,771例受试者，其中7,787例接受受体阻滞剂治疗[平均年龄61岁，BMI 28.40 kg/m2, 9%气流阻塞(FEV1/FVC<0.7)]， 34,984例未接受受体阻滞剂治疗[平均年龄51岁，BMI 27.40 kg/m2, 11%气流阻塞]。受体阻滞剂组心率降低18.2% (95% C.I. 18.15-18.38) (p<0.0001)，而氧脉冲(VO2/HR)升高19.5% (95% C.I. 19.3-19.7)。服用受体阻滞剂的患者的最大功率输出(MPO)降低了3.3%。在服用受体阻滞剂的患者中，循环和呼吸所需的感知努力(mBorg)降低了8%。解释:氧脉冲的增加使与β受体阻滞剂相关的运动不耐受和症状障碍的减少最小化。

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The Impact of beta blockade on the cardio-respiratory system and symptoms during exercise

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The Impact of beta blockade on the cardio-respiratory system and symptoms during exercise

Background

Beta blockers prolong life in patients with cardiovascular diseases. Negative chronotropic and inotropic effects carry the potential to adversely effect peripheral skeletal and airway smooth muscle contributing to further fatigue, dyspnea and exercise intolerance.

Research questions

Do beta-blockers reduce maximal power output (MPO), VO2 max, cardiorespiratory responses, increase the perceived effort required to cycle and breath during cardiopulmonary exercise tests (CPET) and limit the capacity to exercise?

Methods

Retrospective observational study of subjects performing CPET to capacity from 1988 to 2012. Subjects with and without beta-blockers were compared: baseline physiological characteristics, MPO, VO₂ max, heart rate max, ventilation responses and perceived exertion required to cycle and breathe (modified Borg scale). Forward stepwise linear additive regression was performed with MPO as the dependent factor with height, age, gender, muscle strength, FEV1 and DLCO as independent contributors.

Results

42,771 subjects were included 7,787 were receiving beta-blocker [mean age 61 yrs, BMI 28.40 kg/m², 9% airflow obstruction (FEV1/FVC<0.7)] and 34,984 were not [mean age 51yrs, BMI 27.40 kg/m², 11% airflow obstruction]. Heart rate was lower by 18.2% (95% C.I. 18.15–18.38) (p<0.0001) while Oxygen pulse (VO₂/HR) was higher by 19.5% (95% C.I. 19.3–19.7) in those receiving beta blockers. Maximum power output (MPO) was 3.3% lower in those taking beta-blockers. The perceived effort required to cycle and breathe (mBorg) was 8% lower in those taking beta-blockers.