Categorias: Todos - anaerobic - adaptation - aerobic - cardiovascular

por Erna suraiya 4 anos atrás

303

Chapter 3: Adaptation

The discussed chapter delves into the physiological changes that occur in response to both anaerobic and aerobic training. Anaerobic adaptation involves enhancements in the ATP-PCr system and the glycolytic system, leading to increased strength and improved performance, particularly in high-intensity, short-duration activities.

Chapter 3: Adaptation

Chapter 3: Adaptation

3B: Adaptation to Anaerobic

Increase Aerobic Capacity
Increase Buffering Capacity

Sprinter - generate energy for longer period

Neutralize acidity

Glycolytic System

Performance gains from increase in strength

Increase - (Phosphorylase, PFK, LDH)

ATP-PCr System

Specific training - strength increase

Little enzymatic change with training

Cardiovascular adaptation
Decreased resting BP
Small increase in SV
Decreased resting HR
Small increase ventricle size
Cardiorespiratory Adaptation
Small increase in VO2Max
Small increase cardiorespiratory endurance

3A: Adaptation to Aerobic

Metabolic Adaptation
Increased capillary density

VO2Max improved

Greater O2 exchange - greater area available

Increased mitochondria density

Increase capacity aerobic

Lactate threshold

Increase skeletal enzymes

Improve O2 delivery

Occurs at higher percentage of VO2Max

Cardiovascular Adaptation
Decreased HR recovery

Quicker than untrained person

HR return to normal

Lower resting heart rate

Q=SV x HR

Greater aerobic fitness level

Stroke volume

Increase at rest (submaximal)

Heart size - cardiac hypertrophy

Increase ventricular volume

Heart chamber enlarged

Cardiovascular tract

3. Blood

2. Blood vessels

1. Heart

Respiratory Adaptation
Arterial-Venus O2 difference

Increased (submax & maximal exercise)

O2 extraction (increase) - oxidative capacity

(increase) - O2 extraction & active muscle blood flow (increase)

Pulmonary diffusion

Maximal intensity (increase) -lung perfusion (increase)

Unchanged (rest & submaximal intensity)

Pulmonary ventilation

Increase at maximal intensity due to TV increase & respiratory frequency

decrease at submaximal intensity

Respiratory tract

3. breathing (ventilation)

2. air passages

1. lungs