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WEEK 1

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Type of bone tissue present is closely linked with function. Wolff's Law ' ... prevented from bearing weight on their hind limbs during the rest of the day ... – PowerPoint PPT presentation

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Title: WEEK 1


1
WEEK 1
2
Lecture Plan
  • Introduction (subject details)
  • Tissues of the body
  • Response of Tissues to loading
  • Joints

3
Introduction
  • Rita Hardiman
  • ritahardiman44_at_hotmail.com
  • 0408 374 021

4
Assessment
  • Written assessment 60
  • Multiple choice in-lecture tests 10
  • Flagrace 30

5
You should have
  • These notes!
  • Timetable
  • Prac notes for week 1 and 2
  • Aims and Objectives

6
Tissues of the Body
  • Subcutaneous tissue
  • Deep fascia
  • Muscles
  • Tendons ligaments
  • Bone
  • Cartilage

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Subcutaneous tissue
  • Loose areolar tissue
  • Some muscular tissue
  • fat

9
Deep Fascia
  • Varying degrees of development
  • Spread of infection
  • Muscle attachment

10
Ligaments
  • Inflexible and flexible
  • Arranged not to be subjected to prolonged strain

11
Tendons
  • Collagen
  • Cylindrical or flat
  • Synovial sheaths

12
Cartilage
  • Hyaline
  • Elastic
  • fibrocartilage

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Muscles
  • Unipennate
  • Bipennate
  • Multipennate

17
Normal Bone Tissue.
  • Osteoblasts, osteoclasts, osteocytes
  • Bone matrix (collagen, hydroxy-apatite)
  • Blood vessels.
  • Cortical and Trabecular bone

18
Functions
  • protection
  • mineral storage
  • Movement
  • Support

19
Types of Bone
  • cortical (approx. 10 porosity)
  • Trabecular (approximately 80 porosity)
  • Type of bone tissue present is closely linked
    with function

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Wolffs Law
  • ...bone is laid down where needed and resorbed
    where not needed.
  • - Dr. J. Wolff, 1892

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Myths
  • Bone is
  • Slow to react to damage
  • A hard, rigid structure
  • Relatively avascular

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Realities
  • Bone is
  • Highly vascular
  • Quick to respond to stimuli
  • Flexible
  • Dynamic in its response to forces

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Bone Throughout Life
  • Formation
  • During growth
  • Increasing bone mass
  • Maintenance
  • Maintaining skeletal tissue (repairing damage)
  • Involution
  • Decreasing bone mass
  • Decreased ability for maintenance

29
Bone Mass
Time
45 years
13 years
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Bone Mass
  • The overall amount of tissue present in bones

34
Bone Mass
  • Environmental
  • Genetic
  • Physical activity

35
Osteoporosis
Genetic Factors
PEAK BONE MASS
Menopause
Aging
Osteoporosis
36
Response to Damage
  • Signal reaches cells
  • Cells respond to signal
  • Remodeling/apposition/involution

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Remodeling
  • Excavation by osteoclasts
  • Lag period
  • Bone deposition by osteoblasts

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Physical Activity
  • Exercise must be weightbearing
  • Weight lifting is useful
  • Anything which places a stress on the bones

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Research
  • Age-related
  • Sex related
  • mechanics
  • Macroscopic
  • Microscopic
  • Molecular biology

48
Studying Bone
  • Fixed or not fixed
  • Specimen location
  • Storage
  • Physiological loading
  • Invasive testing
  • Ethics

49
Testing Bone Strength
  • Composition
  • Mechanical tests

50
Composition
  • Porosity
  • ash percentage

51
Finally
52
Collagen Fibre Response
  • Longitudinal fibres resist tension
  • Horizontal fibres resist compression

53
Next
  • Vibration plates fuelled by space research
  • Clinton Rubin
  • 90 Hz
  • The FASEB Journal 10 minutes per day of
    vibration therapy promoted near-normal rates of
    bone formation in rats that were prevented from
    bearing weight on their hind limbs during the
    rest of the day

54
Considerations
  • Loading of tissue / immobilisation of tissue.
  • Wolffs Law applies not only to bone tissue.
  • Your body is trying to save energy.
  • Rate of adaptation depends on tissue metabolism.

55
Response of Tissues to Loading
56
Order of Adaptation
  • muscle
  • tendon
  • ligament
  • cartilage
  • bone

57
Types of Adaptation
  • Training (hypertrophy)
  • Immobilisation (atrophy)
  • Remobilisation (?)

58
Tendon
  • Collagen (65-75 dry mass), elastin (2 dry mass)
    in a proteoglycan-water matrix
  • Fibroblasts
  • Exercise increases tensile strength, elastic
    stiffness and total weight.
  • Increased proteoglycan-matrix and collagen
    synthesis.

59
Tendon
  • Collagen fibres increase in number and
    cross-links
  • Three-dimensional arrangement moves into line
    with stress direction.
  • Metabolic turnover of tendon is slower than muscle

60
TIME and TRAINING
61
Ligament
  • Similar structure to tendons
  • Training produces increased tensile strength,
    elastic stiffness and total weight
  • Also improves the biomechanical properties of the
    ligament-bone junction

62
Cartilage
  • Remember no vessels or nerves
  • Joint motion MAY accelerate nutrient distribution
    and waste removal
  • Regularly repeated, slowly progressing exercise
    causes
  • Enlargement of cells (chondrocytes)
  • Proteoglycan content increases
  • Cartilage thickness increases

63
Cartilage
  • If the training is too strenuous or
    biomechanically unfavourable
  • Thinner and softer
  • Proteoglycan content decreases
  • Chondrocyte number decreases
  • This degenerative change can be caused even by
    minor injury.

64
Bone
  • Low bone mass is a risk factor for fractures
  • Maintenance of bone mass is a balance between
    bone formation and bone resorption- called
    remodeling
  • Peak bone mass depends on genetic, mechanical,
    endocrine, and nutritional factors

65
Bone Mass Maintenance
  • Factors are interdependent
  • Absence of physical training, nutritional input
    is useless
  • Absence of nutritional input, training is useless
  • Radius of tennis players
  • Training has to be regular, long term and
    continuous- remodeling cycle is very long

66
Immobilisation
67
Tendon
  • Immobilisation causes a slow atrophy
  • Metabolic rate
  • Collagen fibres become thinner and disorganised
  • Cross-links become smaller in size and number
  • Biosynthesis decreases

68
Ligament
  • Much the same as tendon
  • Separation force generally declines
  • Most studies focus on the anterior cruciate
    ligament

69
Cartilage
  • Alterations in fluid dynamics
  • Decrease in water and proteoglycan content
  • Soft chondral surface
  • Chondrocyte cell death
  • Periarticular osteophytes
  • Early changes are reversible

70
Bone
  • Stimulation of resorption
  • Depression of formation
  • Bone mass decreases (volume)
  • Hypercalcaemia
  • Hypercalciuria
  • Calcium loss 2 per month

71
Bone
  • 30 loss due to increased resorption
  • 70 due to decreased formation
  • Unoposed resorption
  • Cortex becomes thinner
  • Haversian canals increase in size
  • Trabecular bone volume increases

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Conclusion
  • Low initial loading is best for increasing
    adaptive changes
  • Changes first seen in tissues with a high
    metabolic rate
  • Energy conservation
  • Initial changes are reversible

76
Joints
77
Types
  • Fibrous
  • Cartilaginous
  • Primary
  • Secondary
  • Synovial joints

78
Fibrous joints
  • Surfaces joined by fibrous tissue
  • Lower end of tibia and fibula for example

79
Cartilaginous
  • Primary bone and hyaline cartilage (epiphyses)
  • Immobile and strong
  • Secondary hyaline cartilage and fibrous tissue
    (symphysis)

80
Synovial
  • Synovial membrane
  • Joint cavity
  • Synovial fluid
  • Hyaline cartilage
  • Intra-articular fibro-cartilages

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