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Bone Tissue- Chapter 5

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5-* Aging and Bone Tissue Demineralization- loss of minerals. Very rapid in women 40-45 as estrogen levels decrease. In males, begins after age 60, but is gradual. – PowerPoint PPT presentation

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Title: Bone Tissue- Chapter 5


1
Bone Tissue- Chapter 5
2
Bone Functions
  • Support
  • Protection
  • Assistance in movement
  • Mineral storage and release
  • Blood cell production
  • Triglyceride storage

3
Bone Chemistry
  • Water (25)
  • Organic Constituent (25)
  • Collagen.
  • A fibrous protein that provide flexibility.
  • Inorganic Constituent (50)
  • Calcium phosphate and calcium carbonate.
  • Mineral salts that provide hardness.

4
Bone Cell Types
  • Osteogenic cells- stem cells.
  • Osteoblasts- bone building cells, secrete matrix
    collagen fibers.
  • Osteocytes- mature bone cells that no longer
    secrete matrix.
  • Osteoclasts- bone digestion.

5
Compact and Spongy Bone
80
20
6
Compact Bone- the osteon is the basic unit of
structure.
7
Histology of Compact Bone
  • Concentric Lamellae- calcified matrix surrounding
    a vertically oriented blood vessel.
  • Lacuna- a small hollow space, contains
    osteocytes.
  • Canaliculus- a small channel filled with
    extracellular fluid that connects lacunae to each
    other, and to the central canal.
  • Central Canal- a circular channel that contains
    blood and lymphatic vessels, and nerves.

8
Lacunae, Lamellae, Canaliculi, Haversian Canals
9
Spongy Bone
  • Trabeculae- latticework of thin plates of bone.
  • Spaces in between the lattice are filled with red
    marrow, which is where blood cells and platelets
    develop.
  • Location- found near ends of long bones and
    inside flat bones. i.e. hipbones, sternum, sides
    of skull, and ribs.

Histology- no true osteons.
10
Anatomy of a Long Bone
11
Bone Growth in Length
  • Epiphyseal plate
  • Cartilage cells in this plate divide rapidly.
  • Zone of proliferating cartilage.
  • Between ages 18-25, the epiphyseal plates close.
  • Cartilage cells in the plate stop dividing and
    bone replaces the cartilage.
  • Growth in length stops at age 25.

12
Bone Growth in Width
13
Factors Affecting Bone Growth 1
  • Nutrition
  • Adequate levels of vitamins and minerals.
  • Calcium and phosphorus for bone growth.
  • Vitamin C for collagen formation.
  • Vitamins K and B12 for protein synthesis.

14
Factors Affecting Bone Growth 2
  • Hormones
  • During childhood growth factors stimulate cell
    division.
  • Human growth hormone (hGH)
  • Thyroid hormones
  • Insulin
  • Sex steroids at puberty initiate male and female
    characteristics.

15
Hormonal Abnormalities
  • Oversecretion of hGH during childhood produces
    giantism.
  • Undersecretion of hGH or the thyroid hormones
    during childhood produces dwarfism.
  • The epiphyseal plate closes before normal height
    is reached.
  • Estrogen is responsible for closing the growth
    plate.
  • Both men and women that lack estrogen receptors
    on cells grow taller than normal.

16
Bone Remodeling
  • Bone Remodeling- the ongoing replacement of old
    bone tissue by new bone tissue.
  • Resorption and Deposition
  • Osteoclasts- removal of minerals and collagen.
  • 4 per year in compact bone.
  • 20 per year in spongy bone.
  • Osteoblasts- deposition of minerals and collagen.

17
Aging and Bone Tissue
  • Demineralization- loss of minerals.
  • Very rapid in women 40-45 as estrogen levels
    decrease.
  • In males, begins after age 60, but is gradual.
  • Decrease in protein synthesis
  • Decrease in growth hormone.
  • Decrease in collagen production, which gives bone
    its tensile strength, this causes bone to become
    brittle and susceptible to fracture.

18
  • Cold spots indicate
  • Decreased metabolism of decalcified bone.
  • Fracture.
  • Infection.

19
Osteoporosis
  • Decreased bone mass resulting in porous bones.
  • Those at risk
  • White, thin, menopausal, smoking, drinking
    females with a family history.
  • Athletes who are not menstruating due to reduced
    body fat and decreased estrogen levels.
  • People allergic to milk or with eating disorders
    whose intake of calcium is low.
  • Prevention or decrease in severity of
    osteoporosis.
  • Adequate diet, weight-bearing exercise, and
    estrogen replacement therapy (for menopausal
    women).
  • Behavior when young may be most important factor.

20
Exercise and Bone Tissue
  • Mechanical Stress- the pull on bone by skeletal
    muscle and gravity.
  • Mechanical stress increases deposition of mineral
    salts and collagen production.

21
Lack of Mechanical Stress Results in Bone Loss.
22
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23
Fracture- any break in a bone.
  • Named for shape or position of fracture
    line.
  • Common fracture types
  • Open fracture- skin broken.
  • Comminuted- broken ends of bones are fragmented.
  • Greenstick- partial fracture.
  • Impacted- one side of fracture driven into the
    interior of other side.
  • Potts- distal fibular fracture.
  • Colles- distal radial fracture.
  • Stress fracture- microscopic fissures from
    repeated strenuous activities.

24
Developmental Anatomy
  • Bone- derived from the Mesoderm germ layer.
  • 5th Week limb bud appears as mesoderm covered
    with ectoderm.
  • 6th Week constriction produces hand or foot
    plate, skeleton now totally cartilaginous.
  • 7th Week endochondral ossification begins.
  • 8th Week upper lower limbs visible.

25
Joints
  • Joint- a point of contact between
  • Two bones
  • Bone and cartilage
  • Bone and teeth
  • Joint articulationarthrosis.
  • Arthrology- the scientific study of joints.
  • Synovial Cavity- the space between articulating
    bones.

26
Classification of Joints
  • Structural classification based upon
  • 1) Type of connective tissue holding bones
    together.
  • 2) Presence or absence of space between bones.
  • Fibrous joint- collagen fibers, no space.
  • Cartilaginous joint- cartilage, no space.
  • Synovial joint- dense irregular connective
    tissue, space.
  • Functional classification based upon movement
  • Synarthrosis- immovable.
  • Amphiarthrosis- slightly movable.
  • Diarthrosis- freely movable.

27
Synovial Joints
  • Synovial cavity separates articulating bones.
  • Freely movable (diarthroses).
  • Articular cartilage
  • Reduces friction.
  • Absorbs shock.
  • Articular capsule
  • Surrounds joint.
  • Thickenings in fibrouscapsule called ligaments.
  • Synovial membrane
  • Inner lining of capsule.
  • Secretes synovial fluid
    containing hyaluronic
    acid (slippery).

28
Hinge Joint
  • Convex surface of one bone fits into concave
    surface of 2nd bone.
  • Monoaxial movement, like a door
    hinge.
  • Movements-
  • Flexion- decreasing the joint angle.
  • Extension- increasing the angle.
  • Hyperextension- opening the joint beyond
    the anatomical position.
  • Examples
  • Knee, elbow, ankle, interphalangeal joints.

29
Elbow Joint- hinge type.
30
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31
Ball and Socket Joint
  • Ball fitting into a cuplike depression.
  • Multiaxial movement.
  • Movement- occurs around all axes.
  • Examples
  • Shoulder joint
  • Hip joint
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