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Long and short term effects of exercise - OCRLong term effects of exercise on the body systems

During exercise the body systems respond immediately to provide energy for the muscles to work. After regular and repeated exercise, these systems adapt to become more efficient.

Part of Physical EducationApplied anatomy and physiology

Long term effects of exercise on the body systems

Taking part in regular exercise or training around three times per week for six weeks will lead to adaptation of the body systems that are used or trained. This has the effect of increasing performance in that type of exercise or sport and is often beneficial to general health and everyday life.

Weightlifter deadlifting some heavy weights
Image caption,
Resistance training increases strength
Several men and women running on treadmills in a gym
Image caption,
Aerobic training increases aerobic endurance
Long term effects of exerciseType of training
Cardiovascular systemCardiac hypertrophy; increased stroke volume (SV) at rest and during exercise; decrease in resting heart rate (HR); increase in cardiac output (Q); capillarisation at the lungs and muscles; increase in number of red blood cellsAerobic activities (lower intensity, longer duration) produce these effects most
Respiratory systemIncreased tidal volume (TV), minute ventilation (TE) and vital capacity; increased number of functioning alveoli; increased strength of the respiratory muscles (intercostals and diaphragm)Aerobic activities (lower intensity, longer duration) produce these effects most
Energy systemIncreased production of energy from the aerobic energy system; increased tolerance to lactic acid; faster recovery rate; increased aerobic capacityAerobic activities/training; anaerobic training; general effect
Muscular systemMuscle hypertrophy; increased strength of tendons and ligaments; increased muscular strength; increased muscular endurance; increased speed of contraction; increased resistance to fatigueResistance/weight training; general effect; aerobic activities/training; anaerobic/speed training
Skeletal systemIncrease in bone density and strength; increased flexibility Resistance training; weight bearing activities; flexibility training/stretching
Cardiovascular system
Long term effects of exerciseCardiac hypertrophy; increased stroke volume (SV) at rest and during exercise; decrease in resting heart rate (HR); increase in cardiac output (Q); capillarisation at the lungs and muscles; increase in number of red blood cells
Type of trainingAerobic activities (lower intensity, longer duration) produce these effects most
Respiratory system
Long term effects of exerciseIncreased tidal volume (TV), minute ventilation (TE) and vital capacity; increased number of functioning alveoli; increased strength of the respiratory muscles (intercostals and diaphragm)
Type of trainingAerobic activities (lower intensity, longer duration) produce these effects most
Energy system
Long term effects of exerciseIncreased production of energy from the aerobic energy system; increased tolerance to lactic acid; faster recovery rate; increased aerobic capacity
Type of trainingAerobic activities/training; anaerobic training; general effect
Muscular system
Long term effects of exerciseMuscle hypertrophy; increased strength of tendons and ligaments; increased muscular strength; increased muscular endurance; increased speed of contraction; increased resistance to fatigue
Type of trainingResistance/weight training; general effect; aerobic activities/training; anaerobic/speed training
Skeletal system
Long term effects of exerciseIncrease in bone density and strength; increased flexibility
Type of trainingResistance training; weight bearing activities; flexibility training/stretching

Cardiac hypertrophy

Hypertrophy means an increase in size, so muscle hypertrophy means the muscles get bigger. If you weight train regularly doing biceps curls, your biceps will show muscle hypertrophy. Cardiac hypertrophy is where the ventricle wall gets larger or thickens as a result of exercise.

A normal heart and a heart with muscular hypertrophy, where the left ventricular wall has thickened as a result of exercise.

The muscle wall of the left ventricle increases in size, meaning it is able to pump out more blood during each contraction which increases the stroke volume. As stroke volume is increased, resting heart rate decreases but cardiac output (Q) remains the same as SV 脳 HR = Q.

Capillarisation

Capillarisation is the process where new capillaries are formed. Capillarisation takes place at the alveoli in the lungs and at the skeletal muscle. This has the effect of increasing the amount of oxygen that can be transferred to the working muscles as well as increasing the amount of carbon dioxide that can be removed.

Question

Give an example of a type of exercise that would produce cardiac hypertrophy.

Question

Explain how the long term effects of exercise on the respiratory system could be beneficial to a netballer.