1 / 65

Chapter 4 cardiorespiratory fitness

Chapter 4 cardiorespiratory fitness. COMING UP IN THIS CHAPTER. Learn how your cardiorespiratory system works and what affects its functioning Discover the benefits of cardiorespiratory fitness Assess your level of cardiorespiratory fitness

hrankin
Download Presentation

Chapter 4 cardiorespiratory fitness

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Chapter 4 cardiorespiratory fitness

  2. COMING UP IN THIS CHAPTER • Learn how your cardiorespiratory system works and what affects its functioning • Discover the benefits of cardiorespiratory fitness • Assess your level of cardiorespiratory fitness • Develop a personalized cardiorespiratory fitness program

  3. Factors AffectingCardiorespiratory Fitness • Cardiorespiratory fitness (CRF) • The ability of the circulatory and respiratory systems to sustain physical activity • Also known as cardiorespiratory endurance, aerobic fitness, or aerobic endurance

  4. Factors AffectingCardiorespiratory Fitness I have a friend on the track team. I tried running with her once and it was so hard. Why is it so easy for her? • Things to consider: • Genes • Health • Cardiorespiratory (CR) conditioning • Nutrition • Training

  5. The Condition of the Cardiorespiratory System What are the parts of the system that make my muscles go? • Major components of the cardiorespiratory (CR) system: • Heart • Lungs • Network of blood vessels (vascular system)

  6. The Condition of the Cardiorespiratory System • Heart • Acts as muscle pump to circulate blood • Lungs • Take in oxygen and expel carbon dioxide; exchange takes place in the alveoli • Respiratory system:air passages, lungs, breathing muscles

  7. The Condition of the Cardiorespiratory System • Vascular system • Circulates blood to lungs and around body • Arteries: carry blood away from heart • Veins:carry blood toward the heart • Capillaries: tiny blood vessels with thin walls; substances can pass between the blood they carry and the surrounding cells and tissues

  8. Figure 4-1 The cardiorespiratory system

  9. Figure 4-2 Circulation of oxygen and carbon dioxide

  10. The Condition of the Cardiorespiratory System When I try to run fast, why does it feel like I can’t breathe? • As exercise intensifies, CO2 and lactate (lactic acid) accumulate • Increased ventilation lowers both • In fit individuals, this effect is lessened • Increased CR system efficiency is directly related to increased training

  11. Figure 4-3 Increase in breathing rate during exercise

  12. The Condition of the Cardiorespiratory System Can I eat before I exercise? • It depends on the type of exercise • Exercise redirects blood to active muscles • Less blood to the gut to help digest • Can result in “side stitch”

  13. Energy Production I feel tired all the time. What can I do to get more energy? • Energy level versus energy production: • Adenosine triphosphate (ATP) is fuel for muscles • Catabolism • ATP is produced from carbohydrate, fat, or protein • Carbohydrates are the main source • Converted to ATP from blood glucose or from carbohydrates stored in the liver and skeletal muscle (glycogen)

  14. Energy Production • Carbohydrates (glucose or glycogen) are stored in limited amounts, but are the most readily converted • Preferred energy source for ATP • Fats have unlimited storage but do not convert readily to ATP • Beta-oxidation • Protein has limited storage; it is inefficient for energy conversion • Distant third choice for energy

  15. Energy Production • The three energy systems that can produce ATP and generate energy: • ATP/CP energy system • Short duration, less than 10 seconds • Glycolytic energy system • Activities that last longer than 10 seconds • Aerobic energy system • Occurring in the presence of oxygen

  16. Energy Production • ATP/CP energy system • When the body needs energy fast • Anaerobic • Ideally suited for extremely short bouts of activity • Jumping, throwing, lifting, sprinting • Can replenish itself rapidly • Fueled by stored ATP and creatine phosphate (CP) • Stored creatine is critical • Red meat is the best source of this compound

  17. Energy Production • Glycolytic energy system • This system will take over when activities last more than 10 seconds • Anaerobic • Glycolysis • Pyruvate (pyruvic acid) • Can be converted to lactate under certain conditions • Relatively inefficient at generating ATP • Best suited for activities that last up to 90 seconds

  18. Energy Production How is aerobic exercise different, and why is it so important? • To build cardiorespiratory fitness (CRF), you’ll need to perform activities that primarily use the oxygen-dependent aerobic energy system • It does not produce ATP fast enough for a brief, all-out intense effort • When oxygen is present, the potential for ATP production increases dramatically when compared to the other systems • Mitochondria

  19. Figure 4-4 Time span of action of the three energy systems

  20. Diseases Affecting the Cardiorespiratory System Can you still achieve cardio fitness if you have something like asthma? Is cardio exercise safe after a heart attack? • Asthma and COPD (chronic bronchitis and emphysema) • Can exercise; but frequency, intensity, duration, and type of exercise may be restricted • Cardiovascular disease • Exercise is critical in both primary and secondary prevention

  21. Genetics I don’t like to exercise, and neither do my parents. Is my problem genetic? • How much you like exercise not affected by genes, but genetics may play role in your ability to get fit • No more than 50% of your ability to improve your cardio respiratory fitness is inherited • The other half is based on how active we are and what activities we engage in

  22. Biological Sex How do men and women differ in getting fit? • Men and women have the same ability to increase their levels of cardiorespiratory fitness • Men can typically achieve a higher absolute level of cardiorespiratory function • Difference is in size between the sexes

  23. Use and Age My dad is 58 and wants to start exercising. Is he too old? • It is never too late to start a fitness program • A natural result of aging is a steady decline in the functioning of the cardiorespiratory system • The rate of decline is lower in those who exercise on a regular basis • “Use it or lose it”

  24. Improved Performance My boyfriend made me do an online fitness survey and it said my VO2 was 41. What does that mean? • VO2: volume of oxygen consumed over time • Largely determined by the amount of oxygen you bring into your lungs, which is affected by size • VO2max: maximum amount of oxygen you can consume during peak exercise

  25. Improved Performance Every time I start an exercise program I feel worse! Does it ever get better? • Start gradually • Over time: • Your heart muscle will grow stronger • Your lungs will become more efficient • Your blood vessels will become more elastic • Your cells will develop more mitochondria

  26. Improved Performance If your heart is a muscle, can you bulk it up? • The heart can grow in size (hypertrophy) • Regular exercise allows the heart muscle to stay flexible • Greater stroke volume • Higher cardiac output

  27. Reduced Risk of Disease My mom’s doctor told her to walk every day to help lower her blood pressure. Does just walking really work? • Positive effects of physical exercise: • Improved blood pressure • Improved cholesterol levels • Reduced risk of type 2 diabetes • Reduced risk of certain cancers • Reduced risk of osteoporosis • Reduced risk of cardiovascular disease (CVD)

  28. Figure 4-5 Summary of the effects of cardiorespiratory exercise

  29. Reduced Risk of Disease Will exercise make me live longer? • Regular cardiorespiratory exercise may increase longevity and quality of life

  30. Healthier Body Composition How much exercise do I need if I want to lose some serious weight before spring break? And what is the best weight-loss exercise? • Healthy weight loss is 1–2 pounds per week • A one-pound change in body weight represents a change of 3,500 calories through diet, exercise, or both • The best choice of exercise is one that you will do regularly

  31. Stress Management and Improved Emotional Wellness I feel better after exercising. Why is that? • Almost any type of physical activity, moderate in duration and intensity, can cause feelings of elation • Provides distraction • Increases body temperature • Changes brain chemistry

  32. Types of Cardiorespiratory Fitness Tests How do my friend and I figure out who is more fit? • Take the same type of CRF assessment • Lab tests • Field tests • Resting heart rate assessment • The usual point is for motivation

  33. Types of Cardiorespiratory Fitness Tests • Lab tests • Measure VO2 accurately • Metabolic cart • Field tests • Rockport walk test • Walk a mile as quickly as possible • 1.5-mile run/walk test • 3 minute step test • See Lab Activity 4-1

  34. Types of Cardiorespiratory Fitness Tests • Resting heart rate • Measuring your true RHR doesn’t involve exercise at all • Heart rate is counted for 1 full minute after waking

  35. Evaluating Assessment Resultsand Setting Goals How much can I improve? How much do I really need to improve? • Improvement varies • Aerobic capacity can increase by 10–30% • It is best to progress no more than 10% a week in frequency, intensity, or time (not all at once) • Recall the principle of progressive overload

  36. Evaluating Assessment Resultsand Setting Goals How often should I do an assessment to check for improvement in my cardio fitness? Can I judge my fitness without taking a test? • Achieve goals, then set new ones • Re-assess your fitness 4–6 weeks initially and then every 8–12 weeks • Use your exercise performance as a guide • Get baseline measurements

  37. Getting Started How do I learn to like exercise? Right now, I just don’t. • For a successful cardiorespiratory fitness program: • Apply the FITT formula • Include activities you enjoy and will stick with • Finding exercise you like is most important

  38. Applying the FITT Formula How do I know I’m doing the right things—not going too far, or too fast, or too slow? • Use the FITT formula: • Frequency • Intensity • Time • Type

  39. The FITT Formula: Frequency Is it safe to work out every day? • Most guidelines encourage 1–2 days of rest to prevent injury and burnout • Daily is fine if you vary routine, exercises, intensity • Intensity and frequency need to be balanced • ASCM: 3 days a week for vigorous intensity (for at least 20 minutes a day) and 5 days a week for moderate intensity • Bouts of at least 10 minutes count toward the minimum-duration recommendation

  40. The FITT Formula: Intensity How hard should I exercise? • Exercise in your target intensity zone • Balance with frequency and duration • Intensity is tied to your personal goals • Difference between moderate-intensity and vigorous-intensity: • Two minutes of moderate activity confers the same benefit as one minute of vigorous activity

  41. The FITT Formula: Intensity What’s considered moderate activity and vigorous activity? • The talk test is a simple method for judging intensity • Moderate-intensity exercise: you can talk but not sing • Vigorous-intensity exercise: you can say only a few words before pausing to take a breath More…

  42. The FITT Formula: Intensity • Other methods for judging intensity: • Heart-rate maximum method (HRmax) • Exercising at certain percentage of maximum heart rate (MHR) • Target heart rate = MHR × % • Can also use age; subtracting age from 220 • Target heart-rate range More…

  43. The FITT Formula: Intensity • Heart-rate reserve (HRR) method • More complicated but more accurate • Target heart rate = [(MHR – RHR) × %] + RHR • RHR determined by counting pulse before you get out of bed • Rating of perceived exertion (RPE) • Subjective measure of exercise intensity • Rate on scale of 6 to 20 • Metabolic equivalents (METs) • Estimates amount of oxygen body uses during physical activity

  44. Table 4-1 Recommended Starting Intensity Of Exercise Based on Current Activity Level

  45. Figure 4-7 Rating of perceived exertion (RPE) scale

  46. Applying the FITT Formula What’s the best way to take my heart rate when I’m exercising? • Heart-rate monitor • Fingers on the inside of the wrist at the radial artery or on the neck by the carotid artery

  47. Applying the FITT Formula Doesn’t lower-intensity exercise burn more fat? • What matters is total calories used • Lower intensity uses more fat; higher intensity uses more overall calories and total fat

  48. Figure 4-8 Intensity Levels of different physical activities

  49. Figure 4-9 Fat and carbohydrate used during exercise

  50. The FITT Formula: Time How many hours of cardiovascular activity are necessary to be healthy? • Balance time with intensity • Individual workouts and weekly exercise plan: • ACSM: moderate-intensity exercise at least 30 minutes/day, 5 or more days/week; or 20 minutes of vigorous exercise, 3 days a week • HHS: 150 minutes of moderate-intensity or 75 minutes of vigorous intensity (doubling brings even greater health) • Beware of time spent sitting

More Related