1. Cardiorespiratory Endurance Chapter 3

2. Cardiorespiratory Endurance? The ability of the lungs, heart and blood vessels to deliver adequate amounts of oxygen to the cells to meet the demands of physical activity

4. Anaerobic Exercise Does not require oxygen to produce ATP High intensity for short time Produces Lactic Acid

5. Aerobic Exercise Requires oxygen to produce ATP Uses large muscles Submaximal intensity Performed for extended time

6. Maximal Oxygen Consumption VO 2 max Greatest amount of O 2 that can be used to make ATP Value varies with –Genetics –Gender –Training –Age

7. Range of Values for VO 2 max 3.5 80 20 40

8. Values for VO 2 max Average college male –Untrained – 45 ml/kg/min –Trained – 55 ml/kg/min (  25% increase) Average college female –Untrained – 35 ml/kg/min –Trained – 45 ml/kg/min Elite male distance runner – 75 ml/kg/min 60 year-old male – 25 ml/kg/min

9. Determining VO 2 max Laboratory Methods (direct measurement) Field Methods (estimation or prediction) –Walking test –Jogging test –Bicycling test –Bench Stepping test

10. Cardiac Output = HR x SV Cardiorespiratory exercise increases –Maximal cardiac output –Maximal stroke volume Cardiorespiratory exercise decreases –Resting heart rate –Submaximal heart rate Cardiorespiratory exercise does not affect maximal heart rate.

11. Maximal Heart Rate 220 – Age, S.E.E. = 10-12 beats/min Has no relationship to fitness Produces obligatory reduction in aerobic fitness as you age –Max CO = Max HR x Max SV

12. Health Benefits of CR Exercise Decreased risk of dying prematurely Decreased risk of dying from heart disease Decreased risk of developing diabetes Controls high blood pressure Decreased risk of osteoporosis Increases immune function Helps control weight Promotes psychological well-being

13. Fitness Benefits of CR Exercise Increase in VO 2 max Able to exercise at higher intensity for longer periods Feel more comfortable at any level of submaximal exercise Burn a higher percentage of calories as fat during exercise

14. Readiness for Exercise Physical readiness –Cardiorespiratory limitations –Orthopedic limitations –Environmental limitations Mental readiness

15. Cardiorespiratory Exercise Rx Mode Intensity Duration Frequency Total Calories Expended

16. Mode Uses larger muscles Repetitive submaximal muscular contractions Available Enjoyable

17. Intensity Heart must be overloaded Intensity based on heart rate –Heart Rate Reserve Method –Percentage of Maximal Heart Rate Method Intensity based on Rate of Perceived Exertion (RPE)

18. RPE Intensity 6-20 scale Training zone is 10-15 Must learn to use scale

19. Duration of CR Exercise 20-60 minutes Benefits are produced by interaction of intensity, duration, and frequency –Lower the intensity, longer the duration Exercise can be broken up into shorter periods

20. Frequency of Exercise 3-5 days per week –If 3 days/week, then nonconsecutive days The lower the intensity and duration, the higher the frequency can be At any intensity and duration, more calories are expended with more frequency

21. Total Calories Expended Minimal goal is 1000 kcals per week More is better for health up to 2000 kcals per week –Walk 1 mile = ~75-125 kcals –Jog 1 mile = ~50% higher Doesn’t seem to matte what the activity is in order to achieve health benefits

22. 3.5 Resting heart rate 70 80 90 100 110 120 130 140 150 160 170 18090% Training intensity 65% Training intensity Target Heart Rate Zone Warm-up 5–10 m inutes Cardiorespiratory endurance exercise 20–60 minutes Cool-down 5–10 minutes StartStop Type of activity: Cardiorespiratory endurance exercises, such as walking, jogging, biking, swimming, cross-country skiing, and rope skipping Frequency: 3–5 days per week Intensity: 55/65 –90% of maximum heart rate, 40/50–85% of heart rate reserve plus resting heart rate, or an RPE rating of about 12–17 (Lower intensities–55–64% of maximum heart Rate and 40–49% of heart rate reserve–are applicable to people who are quite unfit; for Average individuals, intensities of 70–85% of maximum heart rate are appropriate) Duration: 20–60 minutes (One session or multiple sessions lasting 10 or more minutes)

23. Shoes and Exercise The more traumatic the exercise, the more important the shoes Shoes are built for specific types of activities All major manufacturers build good shoes Choose the shoe that fits best

24. Exercise and the Environment

25. Recommendations Drink, Drink, Drink!!! –2-4 quarts per day –Water works most of the time Are You Drinking Enough? –Weight Change –Urine Color –Thirst

26. Avoiding Heat Illness Reduce exercise intensity on first exposures to a heat-stressed environment If you are not sweating, you are going to get into trouble.

27. Exercise Injuries Acute Injuries – sprains, strains, fractures –Fractures can only be determined with X-ray –R.I.C.E Delayed Onset Muscle Soreness (DOMS) –Appears 12-24 hours following exercise –Lasts 2-4 days –No treatment other than normal stretching

28. Exercise Injuries Overuse Injuries – tendonitis, shin splints –Treat the symptoms but determine cause –Potential causes are too much exercise too soon, insufficient recovery, shoes, exercise surfaces, anatomical problems –Treat with ice, anti-inflammatories, reduced exercise, stretching