© McGraw-Hill Higher Education. All Rights Reserved Figure 3.1
Arteries Veins Blood pressure: What is it? Systolic (systole) Diastolic (diastole)
Resting Heart Rate (RHR) Maximum Heart Rate (HR Max or MHR) Heart Rate Reserve (HRR) Stroke Volume Cardiac Output VO2 Max (Maximal Oxygen Consumption) Frank Starling Law of the Heart
ATP (adenosine triphosphate) What? Where? How? Mitochondria
Immediate Energy System ATP-PCr phosphocreatine Nonoxidative (anaerobic) Energy System Lactic Acid System Anaerobic Glycolysis Oxidative (aerobic) Energy System
ImmediateNonoxidativeOxidative Duration of Activity0-10 seconds10 seconds-2 minutes ≥2 minutes Intensity of ActivityVery highHighLow Rate of ATP Production Immediate, very rapid Rapid (2 ATP per 1 molecule glucose) Slower, but prolonged (38 ATP per 1 molecule of glucose) FuelATP and Creatine Phosphate Glycogen and Glucose Glucose, Fat, Protein Oxygen?No (Anaerobic) Yes (Aerobic) Limited by?Creatine Phosphate Lactic AcidFuel sources, fatigue
© McGraw-Hill Higher Education. All Rights Reserved Improved Cardiorespiratory Functioning Improved Cellular Metabolism Reduced Risk of Chronic Disease Cardiovascular Diseases Cancer Type 2 Diabetes Osteoporosis Deaths from All Causes Better Control of Body Fat Improved immune Function Improved Psychological and Emotional Well-Being
Bob weighs 220 lbs or 100 kg with 20 % body fat (2.2 lbs = 1 kg) Bob’s VO2 = 40 ml/kg · min What effect would a 10% weight lose have on Bob’s VO2 Max? 4L / 100 kg = 40 ml/kg · min 4L / 90 kg = 44.4 ml/kg · min Bob starts training and gains a 20% improvement. What is his VO2 Max? 44.4 X 20% = = 53.3 ml/kg · min
WHAT? WHEN? WHY?
Two male runners are competing in a 10 K race (6.2 miles) Each has a VO2 Max of 40 ml/kg · min. Runner A’s lactate threshold is 70% of his VO2 Runner B’s lactate threshold is 85% of his VO2 All things being equal who will win? A. 40 ml/kg · min X 70% = 28 ml/kg · min B.40 ml/kg · min X 85% = 34 ml/kg · min Winner B !!!
2. Health Benefits a. Risk of Heart Disease b. blood pressure c. high density lipoprotein (HDL) cholesterol d. low density lipoprotein (LDL) cholesterol e. body fatness (easier weight control) f. risk Type 2 diabetes) g. bone density h. immune function i. long term quality of life
3. Muscular adaptations a. size and number of mitochondria b. ability to use fat for energy c. size of muscle fibers being trained d. capillaries e. muscle tone and endurance
4. Emotional Benefits a. anxiety and depression b. feelings of well being (self-esteem) c. work, recreational, and sport performance d. improved sleep e. easier weight control
© McGraw-Hill Higher Education. All Rights Reserved Carotid artery in the neck Radial artery in the wrist Count beats for 10 seconds and multiply the result by 6 to get rate in beats per minute
© McGraw-Hill Higher Education. All Rights Reserved Mode Frequency Intensity Duration
FREQUENCY = INTENSITY = TIME = TYPE =
64%-90% of Heart Rate Max (HRmax) Or 40%-85% of Heart Rate Reserve (HRR)
Warm Up Conditioning Bout Cool Down 5-15 minutes minutes 5-15 minutes HEARTRATEHEARTRATE Resting Rate Maximum Rate Target Heart Rate
Untrained or people with certain cardio-respiratory diseases will have larger DEBTS and DEFICITS Oxygen DEBT & Oxygen DEFICIT Oxygen Debt (EPEOC) Oxygen Deficit “Steady State” VO2 Rest OnsetTermination EXERCISE TIME Oxygen Debt and Deficit Oxygen Deficit due to: delay in time for aerobic ATP production to supply energy Oxygen Debt due to: resynthesis of PCr (creatine phosphate), ATP replace oxygen stores lactate conversion to glucose Change in HR, respiration, body temperature