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Calisthenic Exercise-induced Changes in Myocardial Oxygen Consumption in Normotensive Healthy Subjects


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1 King Saud University, College of Applied Medical Sciences, Rehabilitation Health Sciences Department, Riyadh, Kingdom of Saudi Arabia, Saudi Arabia
     

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The product of heart rate (HR) and systolic blood pressure (SBP) provides a convenient estimate of myocardial oxygen consumption (MVO2). This study aimed to explore calisthenic exercise-induced changes in MVO2 in healthy normotensive subjects. Eleven college-female students were recruited for this study. They performed one upperextremity and one lower-extremity one-minute calisthenic exercise. Each exercise was practiced with slow, moderate and fast cadences. Values of pre- and post-exercise HR and SBP were used to calculate pre- and post-exercise rate pressure product (RPP) (RPP= HR X SBP). Percentage of change between pre- and post-exercise RPP (% " RPP) was used to estimate the calisthenic exercise-induced changes in MVO2 (% " RPP= [(Post -exercise RPP- Pre - exercise RPP) ÷ Pre-exercise RPP] X 100). One-minute calisthenic exercise resulted in increased post-exercise RPP estimating increase in MVO2 demand. This increase was influenced by the three selected exercise cadences (P value is 0.029 for upper-extremity and 0.0001 for lowerextremity). Results observed that more MVO2 is required with lower-extremity calisthenic exercise than with upperextremity exercise. Progressive increase in the % " RPP was found through the three cadences and it was of no significance in upper-extremity exercise (P = 0.208) and significance in lower-extremity exercise (P = 0.023). In conclusion, One-minute calisthenic exercise revealed minimal exercise-induced changes in MVO2 for normotensive healthy female college-students especially with upper-extremity. If convalescing cardiac patient would show the same response, One-minute calisthenic exercise with its three cadences would be supported as a lowintensity and safe exercise for Phase I cardiac rehabilitation.

Keywords

Myocardial Oxygen Consumption, Rate Pressure Productcalisthenic Exercise, Cardiac Rehabilitation
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  • Calisthenic Exercise-induced Changes in Myocardial Oxygen Consumption in Normotensive Healthy Subjects

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Authors

Salwa B. El-Sobkey
King Saud University, College of Applied Medical Sciences, Rehabilitation Health Sciences Department, Riyadh, Kingdom of Saudi Arabia, Saudi Arabia

Abstract


The product of heart rate (HR) and systolic blood pressure (SBP) provides a convenient estimate of myocardial oxygen consumption (MVO2). This study aimed to explore calisthenic exercise-induced changes in MVO2 in healthy normotensive subjects. Eleven college-female students were recruited for this study. They performed one upperextremity and one lower-extremity one-minute calisthenic exercise. Each exercise was practiced with slow, moderate and fast cadences. Values of pre- and post-exercise HR and SBP were used to calculate pre- and post-exercise rate pressure product (RPP) (RPP= HR X SBP). Percentage of change between pre- and post-exercise RPP (% " RPP) was used to estimate the calisthenic exercise-induced changes in MVO2 (% " RPP= [(Post -exercise RPP- Pre - exercise RPP) ÷ Pre-exercise RPP] X 100). One-minute calisthenic exercise resulted in increased post-exercise RPP estimating increase in MVO2 demand. This increase was influenced by the three selected exercise cadences (P value is 0.029 for upper-extremity and 0.0001 for lowerextremity). Results observed that more MVO2 is required with lower-extremity calisthenic exercise than with upperextremity exercise. Progressive increase in the % " RPP was found through the three cadences and it was of no significance in upper-extremity exercise (P = 0.208) and significance in lower-extremity exercise (P = 0.023). In conclusion, One-minute calisthenic exercise revealed minimal exercise-induced changes in MVO2 for normotensive healthy female college-students especially with upper-extremity. If convalescing cardiac patient would show the same response, One-minute calisthenic exercise with its three cadences would be supported as a lowintensity and safe exercise for Phase I cardiac rehabilitation.

Keywords


Myocardial Oxygen Consumption, Rate Pressure Productcalisthenic Exercise, Cardiac Rehabilitation