Chapter 8 Cardiorespiratory Fitness Training
1 MET
= 3.5 mL O2 kg / min
heart rate reserve (HRR) equation
HRR = MHR- RHR
max heart rate (MHR) equation
MHR = 220-age
zone 1
MHR = 65-75% RPE = 12-13 "recovery" walking/jogging
peak heart rate (PHR) equation
THR = MHR x % intensity
Target Heart Rate Reserve (HRR) Equation
THR = [(MHR - RHR) x % intensity] + RHR
RHR
resting heart rate
THR
target heart rate
heart rate reserve (HRR)
(aka Karvonen method) establishes training intensity based on the difference between a clients predicted max heart rate & resting heart rate
benefits of cardiorespiratory exercise
1. stronger and more efficient heart 2. improved ability to pump blood (enhanced cardiac output) 3. reduced risk of heart disease 4. lower resting heart rate 5. lower heart rate at any given level of work 6. improvement of lung ventilation (more efficient breathing) 7. stronger respiratory muscles (e.g., intercostals) 8. thicker articular cartilage and bones with weight-bearing aerobic exercises 9. improved oxygen transport 10. reduced cholesterol levels 11. reduced arterial blood pressure 12. improved blood thinning and reduced risk of clot formation 13. improved fuel supply (improved ability to use fatty acids sparing muscle glycogen stores) 14. improved ability of muscles to use oxygen 15. improvement in mental alertness 16. reduced tendency for depression and anxiety 17. improved ability to relax and sleep 18. improved tolerance to stress 19. increase in lean body mass 20. increase in metabolic rate 21. reduced risk of obesity or diabetes mellitus
zone 2
MHR = 76-85% RPE = 14-16 "lactate threshold" group exercise classes/spinning
zone 3
MHR = 86-95% RPE = 17-20 "peak/interval" sprinting
Peak VO2 Equation
Target VO2 = VO2M x % intensity
integrated cardiorespiratory training
cardiorespiratory training programs that systematically progress clients through various stages to achieve optimal levels of physiologic, physical, and performance adaptations by placing stress on the cardiorespiratory system.
overtraining
excessive frequency, volume, or intensity of training, resulting in fatigue (which is also caused by a lack of proper rest and recovery)
F.I.T.T.E. principle
frequency, intensity, time, type, enjoyment
benefits of a warm-up
1. increased heart and respiratory rate 2. increased tissue temperature 3. increased psychological preparation for bouts of exercise
effects of a warm-up
1. increases cardiorespiratory system's capacity to perform work 2. increases blood flow to active muscle tissue 3. increases the oxygen exchange capacity 4. increases rate of muscle contraction 5. increases efficiency of opposing muscle contraction and relaxation 6. increases metabolic rate 7. increases the soft tissue extensibility 8. increases the mental readiness of an individual
benefits of a cool-down
1. reduce heart and breathing rates 2. gradually cool body temperature 3. return muscles to their optimal length-tension relationships 4. prevent venous pooling of blood in the lower extremities 5. restore physiologic systems close to baseline
VO2 Reserve Equation
Target VO2R = [(VO2M-VO2rest) x % intensity] + VO2rest
talk test
a method for measuring exercise intensity using observation of respiration effort and the ability to talk while exercising.
stage 3 training zone purpose
designed for advanced client who has a moderately high cardiorespiratory fitness level base and will use heart rate zones one, two, and three. The focus in this stage is on further increasing the workload (speed, incline, level) in a way that will help the client alter heart rate in and out of each zone.
stage 2 training zone purpose
designed for clients with low-to-moderate cardiorespiratory fitness levels who are ready to begin training at higher intensity levels, the focus in this stage is on increasing the workload (speed, incline, level) in a way that will help the client alter heart rate in and out of zone one and zone two.
stage 1 training zone purpose
designed to help improve cardiorespiratory fitness levels in apparently healthy sedentary clients.
MHR
heart rate max
HRR
heart rate reserve
general warm-up
low-intensity exercise consisting of movements that do not necessarily relate to the more intense exercise that is to follow.
specific warm-up
low-intensity exercise consisting of movements that mimic those that will be included in the more intense exercise that is to follow.
VO2 Max
maximal oxygen consumption
MET
metabolic equivalent, used to describe the energy cost of physical activity
VO2
oxygen consumption
rate of perceived exertion scale (RPE)
perceived exertion is how hard you feel like your body is working. RPE scale estimates how hard you feel your exercise workload was during activity.
modified borg's rate of perceived exertion (RPE) scale
scale 1-10 that measures perceived exertion during physical activity. It is based on the physical sensations a person experiences during physical activity, including increased heart rate, increased respiration or breathing rate, increased sweating, and muscle fatigue.
borg's rate of perceived exertion (RPE) scale
scale 6-20 that measures perceived exertion during physical activity. It is based on the physical sensations a person experiences during physical activity, including increased heart rate, increased respiration or breathing rate, increased sweating, and muscle fatigue.
cardiorespiratory fitness
the ability of the circulatory and respiratory systems to supply oxygen-rich blood to skeletal muscles during sustained physical activity.
max heart rate (MHR)
the age-related number of beats per minute of the heart when working at its maximum
enjoyment
the amount of pleasure derived from performing a physical activity
oxygen uptake reserve (VO2R)
the difference between resting and maximal or peak oxygen consumption
maximal oxygen consumption (VO2 max)
the highest rate of oxygen transport and utilization achieved at maximal physical exertion (VO2 max)
time
the length of time an individual is engaged in a given activity
intensity
the level of demand that a given activity places on the body
frequency
the number of training sessions in a given timeframe
type
the type or mode of physical activity that an individual is engaged in
each exercise training session should also include the following phases
warm-up phase, conditioning phase, cool-down phase
