CHRONIC ADAPTATIONS TO TRAINING Week 8. What you need to know… Cardiovascular adaptations to...
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Transcript of CHRONIC ADAPTATIONS TO TRAINING Week 8. What you need to know… Cardiovascular adaptations to...
![Page 1: CHRONIC ADAPTATIONS TO TRAINING Week 8. What you need to know… Cardiovascular adaptations to aerobic training Respiratory adaptations to aerobic training.](https://reader033.fdocuments.net/reader033/viewer/2022061305/55140194550346dd488b4941/html5/thumbnails/1.jpg)
CHRONIC ADAPTATIONS TO TRAINING
Week 8
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What you need to know…• Cardiovascular adaptations to
aerobic training
• Respiratory adaptations to aerobic training
• Muscular adaptations to aerobic training
• Chronic adaptations to anaerobic training
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What is chronic adaptations?• Acute: immediate, short-term
• Chronic: long-term
• Chronic adaptations– Long-term muscular, skeletal,
circulatory and respiratory responses– Develop over a minimum of 6 weeks, but
most evident after 12 weeks of training
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Factors• What impacts on chronic adaptations
to training?– Type and method of training• Aerobic v. anaerobic
– F__________, d__________ and i__________ of training
– Individual capacities and hereditary factors
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Cardiovascular Adaptations to Aerobic Training• Enables more efficient and greater
delivery of __________ to the working muscles
• This helps to decrease the risk of CV disease and other health related illnesses
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Cardiovascular Adaptations to Aerobic Training (cont.)• Cardiac hypertrophy
• Heart rate
• Arterio-venous oxygen difference
• Increased blood volume, haemoglobin and myoglobin levels
• Lower blood pressure
MUST KNOW THESE!!
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Cardiac Hypertrophy• Hypertrophy = __________ in size
• Sustained __________ training results in enlargement of the heart muscle
• In particular, left ventricle size/volume increases
• Increases stroke volume– Blood pumped
each __________
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Heart Rate• Cardiac Output: amount of blood
ejected from the LV in one minute• Stroke Volume: amount of blood
ejected from the left ventricle with each beat (contraction) of the heart
• Heart rate lowers at rest and during sub-maximal exercise– A trained athlete needs __________
beats of the heart to pump out the __________ amount of blood
– The heart does not have to work as hard to supply the required blood and oxygen
– The heart works more efficiently
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Arterio-Venous Oxygen Difference• a-VO2 diff. increases• Trained athlete is able to absorb
more __________ from their blood• More oxygen is been taken from the
arteries, therefore the oxygen level difference between the arteries and veins increases
• A greater uptake of oxygen occurs• This results from– Increase in myoglobin– Increase in mitochondria
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Increased Blood Volume, Haemoglobin and Myoglobin Levels• Regular, sustained aerobic training
may increase total blood amount
• Haemoglobin: transports oxygen throughout blood vessels– Increased level in trained athlete
• Myoglobin: transports oxygen so it can be used by mitochondria– Increased level in trained athlete
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Lower Blood Pressure• Aerobic training program will
decrease blood pressure– Both systolic and diastolic BP
• Helps to decrease risk of heart attack and __________
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Respiratory Adaptations to Aerobic Training• Respiratory = lungs
• Increase oxygen supply from the lungs to working muscles
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Respiratory Adaptations to Aerobic Training (cont.)• Increased lung ventilation
• Increased maximum oxygen uptake
• Increased lactate inflection point (LIP)
MUST KNOW
THESE!!
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Increased Lung Ventilation• Training improves tidal volume:
amount of air __________ and __________
• Reduces the amount of respirations needed per minute as the lungs become more efficient– A larger volume of oxygen is supplied
with the same number of breaths
• Improved pulmonary diffusion– Blood is able to extract oxygen from
alveoli (lungs)
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Increased Maximal Oxygen Uptake• Regular, sustained aerobic training
program increases VO2 max
• Due to:– Increase oxygen supplying __________• Increased cardiac output• Increased haemoglobin• Increased a-VO2 difference
– Improved ability of muscles (myoglobin and mitochondria) to use oxygen
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Increased LIP• LIP = __________ __________ ___________– At exercise intensities beyond the LIP blood
lactic acid concentration increases– Beyond the lactate threshold/LIP the athlete
has to stop or reduce muscle effort
• Trained athletes can increase their tolerance to lactic acid/lactate accumulation– Because of greater oxygen delivery and
extraction (usage)– Able to work harder for longer
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Muscular Adaptations to Aerobic Training• Occur best with continuous training
or high repetition weight training
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Muscular Adaptations to Aerobic Training• Increased oxygen utilisation– Increased __________ and __________
of mitochondria– Increased myoglobin stores
• Increased muscular fuel stores
• Increased oxidation of glucose and fats
• Decreased utilisation of the lactic acid system
• Muscle fibre type adaptations
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Increased Oxygen Utilisation• Increased size and number of
mitochondria– Site of __________ production– Increases capacity to breakdown and
use CHO & fat
• Increased myoglobin stores– Attracts oxygen from blood into muscle– Increases stores mean an increase in
oxygen coming into muscle
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Increased Muscular Fuel Stores
• Aerobic training leads to an increase in the storage of glycogen, free fatty acids and triglycerides in the muscle
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Increased oxidation of glucose and fats• Capacity of muscle fibres to
breakdown CHO and fats using oxygen is increased
• Increased storage and breakdown of fats allows glycogen to be spared/saved for later on– Delays time of glycogen depletion– Can exercise for a longer period of time
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Decreased Utilisation of the Lactic Acid System• Enhanced capacity of the muscles to
aerobically metabolise (breakdown) CHO and fats means there is less reliance on the lactic acid system (anaerobic breakdown)
• Therefore athlete can work at a higher intensity before reaching LIP/lactate threshold
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Muscle Fibre Adaptation• Slow-twitch: aerobic/endurance
activities
• Fast-twitch A (partially aerobic)
• Fast-twitch B (purely anaerobic): anaerobic/powerful activities
• Some fast-twitch A fibres can take on characteristics of slow-twitch fibres as a result of aerobic training– Thus, help improve aerobic performance
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Chronic Adaptations to Anaerobic Training• Anaerobic training effects are best
developed through – Speed training– Fast interval training– Plyometric training– Circuit training –Weight training
• Greatest adaptations occur at the muscular level
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Chronic Adaptations to Anaerobic Training• Muscle hypertrophy
• Increased muscular stores of ATP & PC
• Increased glycolytic capacity
• Cardiac hypertrophy (cardiovascular adaptation)
MUST KNOW
THESE!!
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Muscle Hypertrophy• Increased size of muscle– Fast-twitch: high load, low rep– Slow-twitch: lower load, high rep
• Greater increase in size in males– Due to testosterone
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Increased Muscular Stores of ATP & PC• Increase in amount of ATP & PC
• Increase also in enzymes that break down and rebuild ATP
• Results in increased capacity of ATP-PC system– Important for activities requiring
__________, __________ and _________
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Increased Glycolytic Capacity• Anaerobic training helps to enhance
muscle __________ of glycogen
• Also an increase in enzyme concentration responsible for breakdown of glycogen– Therefore, quicker and larger breakdown
of glycogen without oxygen (lactic acid system)
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Cardiac Hypertrophy• Anaerobic training increases the
__________ of the heart – Of left ventricle
• Allows a more forceful __________ to take place