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HKIN 103 5 Physiologic changes at Puberty

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Exercise Physiology through the teens, and ramifications for training. ... Increases in Aerobic endurance due to training are only significant during & after puberty. ... – PowerPoint PPT presentation

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Title: HKIN 103 5 Physiologic changes at Puberty


1
HKIN 103 - 5Physiologic changes at Puberty
  • Exercise Physiology through the teens, and
    ramifications for training.

2
  • Unless otherwise noted, the information contained
    in this section of the course is from
  • Rowlands, T.W., Childrens Exercise Physiology,
    2nd Ed.,Human Kinetics, Windsor ON, 2005

3
Outline
  • Effects of Growth factors on Exercise
  • Effects of Exercise on Growth
  • Pubertal effects on fitness
  • Training effects
  • Aerobic fitness
  • Anaerobic fitness
  • Muscle strength
  • Responses to Physical Training

4
Effects of Growth factors on Exercise
  • GH/IGF-1 axis
  • GHRH (hypothalamus)- GH (Pituitary)- IGF-1
    (liver) - peripheral tissue growth.
  • Insulin.
  • Effects of increased body size
  • Biological age vs chronological age
  • Gene expression.

5
Effects of Exercise on Growth
  • Is it a positive or negative relationship?
  • Caloric stealing!
  • No increase in serum IGF-1 levels from Xs.
  • ve Correlation between VO2 max and IGF-1 levels.
  • Rate and timing of peak height velocity
  • Conclusion

6
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7
Effects of Puberty on Fitness.
  • Increase in VO2 max throughout childhood.
    (Lmin-1)
  • Big difference in genders during after puberty
  • There is a gender difference if we look at
    relative VO2 max. Females decline steadily from
    age 8. Males stable.
  • Increases mediated by increases in heart and
    muscle size.
  • Increases in Aerobic endurance due to training
    are only significant during after puberty.

8
Training effects on puberty
  • Intensive exercise causes increase in sex hormone
    levels - principle of diminishing returns!
  • Intensive exercise appears to cause
    hypoestrogenemia through inhibition of H-P-G axis

9
Baer J.T., Endocrine parameters in amenorrheic
and eumenorrheic adolescent female runners. Int.
J. Sports Med. 14 191-195, 1993
  • Group Estradiol level
  • Amenorrheic runners 113 mmoles L-1
  • Eumenorrheic runners 247 mmolesL-1
  • Eumenorrheic sedentary 251 mmoleL-1

10
Training and Puberty
  • Intensive training can cause delayed menarche of
    two years.
  • Usually in conjunction with hyponutritional
    status.
  • Generally, there is no evidence of pubertal delay
    from physical activity
  • Again, the tall slender hips, thin athletic
    phenotype is typically a late maturer - Natural
    selection rather than causative by activity.

11
Aerobic fitness
  • Glycogen stores are lower in children and
    increase with age.
  • Little data to show increases in enzymatic levels
    from training, but Ericksson .
  • Prepubertal athletes show large increases in
    lactate tolerance (56incr)

12
Aerobic fitness
  • In general, aerobic metabolism declines as
    children age, with an increase in anaerobic
    glycolysis.
  • Much of the improvements in fitness are
    tolerance to increasing lactate levels and
    running economy.
  • At puberty, there is a sudden increase in
    endurance training response to aerobic
    metabolism.
  • RHR response is similar to adults (69/81 bpm)

13
Anaerobic fitness
  • Increases of 3.4 - 3.7 on wingate test
  • Increases of 20 in treadmill run to exhaustion
    (7mph_at_18) 10-11 yrs, 12 weeks, but no
    improvement in 40 m. sprint time. (Mosher et al,
    1985)
  • Generally, anaerobic training yields small
    improvements, if any.

14
Strengthchanges in Lean Body Mass (LBM)
  • age males females
  • 11yrs 11 kg 11 kg
  • 17 yrs 35 kg 22 kg

15
Strength
  • age males females
  • 11 yrs 42 41
  • 17 yrs 53 42
  • Lean muscle mass as a percentage of total body
    weight

16
Strength
  • Does strength mirror increases in body height?
  • Does strength mirror increases in muscle mass?
  • Does strength mirror an increase in number of
    muscle fibers?
  • Do nerves work better? (faster conduction
    velocities)
  • Does female strength parallel males in children?

17
Strength
  • May be related to angle of pennation
  • Changes in central inhibition (golgi tendon
    organs?
  • Neural recruitment and conduction velocity are
    likely reasons.

18
Strength
  • Unpennated
  • Unipennate
  • Bipennated

19
Response to Strength training
  • Increases of 30 - 40 over 8-12 weeks (subjects
    were U18)
  • Increases of 22.6 - 27.8 were accompanied by
    16.8 increase in EMG
  • Males 9-11 yrs, increases of 35(bench press)
    22 (leg press)

20
Thermoregulation in prepubertals
  • Same as adults when ambient temp does not exceed
    7 degrees above skin temp.
  • Prepubertals do not tolerate heat as well as
    adults greater dizziness, headaches, nausea and
    inability to persist.

21
fluid balance
  • Water repletion is necessary during exercise
    bouts in excess of 60 minutes.
  • Repletion is generally voluntarily stopped at
    about 70 of fluid losses.
  • Smaller circulatory volume of children can be
    impacted to a greater degree than the adult.
    Must drink after satiation.
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