PHYSIOLOGY OF EXERCISE MUSCLE TYPES • Skeletal • Heart • Smooth EXERCISE: 1. Dynamic (positive/negative) 2. Static CHANGES DURING EXERCISE: 1. Cardiovascular 2. Respiratory 3. Metabolic „Fight or flight“ – EVOLUTIONAL ASPECT THERMOREGULATION HOMEOSTASIS ANTICIPATION OF WORK CARDIOVASCULAR REACTIONS DURING WORK 1. Reactions of the heart 2. Reactions of the vessels Demands on cardiovascular system: 1. Increase of cardiac output 2. Increase in coronary blood flow 3. Hyperaemia in lung circulation 4. Hyperaemia in muscles (difference between contraction and relaxation!!!) 5. Higher supply of O2 and metabolites, higher removal of CO2 and catabolites Ergotropic system – sympathetic NS REDISTRIBUTION OF BLOOD METABOLIC REGULATION OF BLOOD FLOW Decreased pH, decreased pO2, increased pCO2, increased K+, increased body temperature CARDIAC RESERVE = maximal CO / resting CO CORONARY RESERVE = maximal CF / resting CF CHRONOTROPIC RESERVE = maximal HR / resting HR VOLUME RESERVE = maximal SV / resting SV 4 - 7 3.5 3 - 5 1.5 CO – cardiac output, CF – coronary flow, HR – heart rate, SV – stroke volume CARDIAC RESERVE CO (l/min) WORKLOAD (W/kg) ATHLETHS HEART PHYSIOLOGICAL RESPONSE HEART FAILURE 1 2 3 4 10 30 20 PARAMETER REST EXERCISE INCREASE (x) Cardiac output (l/min) 5-6 25 (35) 4-5 Cardiac reserve Heart rate (t/min) 70 210 (250-190) depends on age 3 Chronotropic reserve Stroke volume (ml) 75 115 1.5 Volume reserve Systolic BP (mmHg) 120 ? Diastolic BP (mmHg) 70 ? Pulse BP (mmHg) 50 70-100 1.5-2 Mean BP (mmHg) - - minor increase Muscle perfusion (ml/min/100g) 2-4 60-120 30 (10% MVmax) RESPIRATORY REACTIONS DURING EXERCISE Demands on respiratory system: 1. Higher gases exchange – higher diffusion 2. Higher ventilation 3. Higher perfusion (hyperaemia in lung circulation) PARAMETER REST EXERCISE INCREASE (x) Minute ventilation (l/min) 6-12 90-120 15-20 Respiratory frequency (d/min) 12-16 40-60 4-5 Tidal volume (ml) 0,5-0,75 2 3-4 Blood flow (l/min) 5,5 20 – 35 4-6 O2 intake (ml/min) -VO2 250-300 3000 10-12 Total CO2 (ml/min) 200 8000 40 pO2 (Torr) 40 25 O2 extraction (%) + + ++ Time Ventilation (l / min) rest work recovery hyperpnoe tachypnoe Psychic Proprioception „Humoural“ stimulation (K+, temperature, CO2, O2) tachypnoe (oxygen debt) H+ a R = 1.5 – 2.0 R = 0.5 Guyton and Hall: Textbook of Medical Physiology D.U.Silverthorn: Human Physiology (An Integrated Approach) D.U.Silverthorn: Human Physiology (An Integrated Approach) D.U.Silverthorn: Human Physiology (An Integrated Approach) D.U.Silverthorn: Human Physiology (An Integrated Approach) D.U.Silverthorn: Human Physiology (An Integrated Approach) D.U.Silverthorn: Human Physiology (An Integrated Approach) Guyton and Hall: Textbook of Medical Physiology FITNESS • Spiroergometry • Types of ergometers • Index W170 • Training • Fatigue (aerobic, anaerobic threshold) • Adaptation to exercise Guyton and Hall: Textbook of Medical Physiology