Podcast
Questions and Answers
Which of the following factors is not associated with an improved stroke volume at rest and during exercise as a result of a cardiorespiratory endurance training program?
Which of the following factors is not associated with an improved stroke volume at rest and during exercise as a result of a cardiorespiratory endurance training program?
- Increased left ventricle size
- Improved cardiac contractility
- Reduced blood volume
- Decreased heart rate (correct)
Which change is not typically associated with an improved stroke volume due to cardiorespiratory endurance training?
Which change is not typically associated with an improved stroke volume due to cardiorespiratory endurance training?
- Decreased blood pressure
- Reduced left ventricular wall thickness
- Enhanced oxygen extraction by tissues
- Increased resting heart rate (correct)
Which of these factors is least likely to contribute to an increased stroke volume following cardiorespiratory endurance training?
Which of these factors is least likely to contribute to an increased stroke volume following cardiorespiratory endurance training?
- Decreased sympathetic nervous system activity
- Improved myocardial contractility
- Enhanced diastolic filling time
- Reduced left ventricular compliance (correct)
Which factor is not associated with an improved stroke volume as a result of cardiorespiratory endurance training?
Which factor is not associated with an improved stroke volume as a result of cardiorespiratory endurance training?
Which change is least likely to contribute to an increased stroke volume following cardiorespiratory endurance training?
Which change is least likely to contribute to an increased stroke volume following cardiorespiratory endurance training?
Which of the following is not a factor that may enhance stroke volume as a result of cardiorespiratory endurance training?
Which of the following is not a factor that may enhance stroke volume as a result of cardiorespiratory endurance training?
