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Exercise Management

Exercise Management. Cardiac Transplant Chapter 13. Exercise Management. Pathophysiology Cardiac transplantation represents an effective therapeutic alternative for persons with end-stage heart failure.

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Exercise Management

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  1. Exercise Management Cardiac Transplant Chapter 13

  2. Exercise Management Pathophysiology Cardiac transplantation represents an effective therapeutic alternative for persons with end-stage heart failure. Almost all cardiac transplant procedures are orthotopic(placing the heart in the patients chest) in nature, performed by anastomosis of the atria of the recipient's heart to the left atria of the donor's heart. Autonomic function of the heart is lost following transplantation. Reinnervation is possible after a period of time Heart transplant patients have high exercise intolerance (see next slide)

  3. Exercise Management Pathophysiology Causes of Post Surgical exercise intolerance include: Pre-operative inactivity Reduced aerobic characteristics of skeletal muscle Muscle atrophy and decreased force production capacity Pulmonary diffusion abnormalities Left Ventricular dysfunction Chronotropic Incompetence

  4. Exercise Management Effects on the Exercise Response Due to loss of autonomic control: resting heart rate is increased (~ 20 contractions/min above age/sex-matched controls = removal of vagal tone) chronotropic response to exercise is reduced elevated resting blood pressure due to increase catecholamines, immunosuppressive meds., and altered baroreceptor function decreased systolic blood pressure at peak exercise. a greater increase is seen in plasma norepinephrine during submaximal exercise

  5. Exercise Management Effects on the Exercise Response (cont.) Systolic and diastolic blood pressures are elevated at rest Peak stroke volume and cardiac output are blunted during exercise (increases in HR due to preload and catecholamines) Still cardiac output at peak exercise 60-70% of normal. Stroke volume may also be blunted because of Left Ventricular Dysfunction following transplantation. Because of the absence of vagal efferent innervation to the SA node, the increased plasma catecholamines that develop during exercise continue to exert a positive chronotropic effect in early recovery. As a result, heart rate declines slowly post exercise.

  6. Exercise Management Effects of Exercise Training Positive physiologic and clinical adaptation have been safely demonstrated for exercise training in heart transplant patients. These include: Decreased blood lactate concentrations at a given workload Improved aerobic skeletal muscle characteristics Improved endothelial function Decreased resting HR and BP Increased VO2 Improved ventilatory efficiency Counteraction of deleterious effects of Immunosuppressive Therapy Improved strength and bone density Management and Medication Information is FYI only.

  7. Exercise Management Recommendations for Exercise Testing (see pg. 101-102) Exercise protocols can be either ramp or steady state (3 min/stage). With the use of cycle ergometry, work rates should be increased by 10 to 15 watts / min or 25 to 30 watts / stage for ramp or steady-state protocols, respectively. Steady-state exercise tests conducted with the use of a treadmill should increase work rates by 2 METs per stage. Because of the delayed and blunted response of heart rate to exercise, ratings of perceived exertion and oxygen consumption should be assessed.

  8. Exercise Management Recommendations for Exercise Testing to assess recovery following a session of maximal or submaximal exercise, observation of systolic blood pressure is a better indicator than heart rate alone. decentralization of the myocardium eliminates angina symptoms. exercise electrocardiography is also inadequate with respect to assessing ischemia, as evidenced by its low sensitivity Radionuclide testing is useful in assessing suspected ischemic heart disease. See medication precautions to consider during exercise (pg. 103)

  9. Exercise Management Recommendations for Exercise Programming (see pg 104) Aerobic training reestablishes self-efficacy and improves both cardiorespiratory fitness and muscle endurance It is uncertain if aerobic training decreases the progression of atherosclerosis in the newly grafted cardiac arteries The use of heart rate alone to guide exercise intensity is not appropriate. Instead, a RPE between 11 and 14, and 40-80% of peak VO2 should be used to guide exercise intensity. Exercise duration should be between 15-20 minutes progressing to 60 minutes, 4-7 days per week

  10. Exercise Management End of Presentation

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