Physiology of Bone - PowerPoint PPT Presentation

1 / 16
About This Presentation
Title:

Physiology of Bone

Description:

Physiology of Bone Dr Taha Sadig Ahmed Physiology Department College of Medicine , King Saud University At the end of this lecture the student should be able to ... – PowerPoint PPT presentation

Number of Views:185
Avg rating:3.0/5.0
Slides: 17
Provided by: Dr1303
Category:

less

Transcript and Presenter's Notes

Title: Physiology of Bone


1
Physiology of Bone
  • Dr Taha Sadig Ahmed
  • Physiology Department
  • College of Medicine , King Saud University

2
At the end of this lecture the student should be
able to-- Define bone differentiate between
types of bone (cortical trabecular)- State
Ca concentration and its forms in the ECF
its relation to PO4- Differentiate between the
types of bone cells appreciate their
functions .- Describe bone formation
remodeling - Understand what is osteoporosis-
Appreciate the effects of different hormones on
bone
3
  • Functions of bone
  • Bone is a living, growing tissue which has
    several functions
  • Protects vital organs
  • Provides support for soft tissues
  • Allows facilitates movement
  • Contains bone marrow
  • Reservoir for Calcium Phosphate

4
  • Structure of Bone
  • (1) Organic matrix made of collagen , called
    osteoid , makes 30 of bone , on which is laid
    the?
  • (2) Inorganic ( mineral ) bone component ? called
    hydroxyapatite , made of CaP04 crystals , that
    constitutes the remaining 70 of bone

Trabecular bone
Compact bone
5
Bone is 2 types (1) Cortical ( Compact ) Bone
  • Also called compact bone
  • Forms a protective outer shell of bone .
  • Comprises 80 of total body bone mass
  • Has a slow turnover rate
  • Has high resistance to bending and torsion
  • It is composesd of overlapping circular
    structures (formations) called Harvesian Systems
    or Osteons .
  • Each osteon has a central canal called Osteonic
    Canal or Haversain Canal
  • The Osteonic Canal contain blood vessels (
    capillaries, arterioles, venules ), nerves and
    lymphatics.
  • Between Harvesian systems are concentric layers
    of mineralized bone called interstitial lamellae

6
(B) Trabecular Bone
  • Comprises 20 of total bone mass
  • Present in the interior of bones has spongy
    appearancfe .
  • Though it represents only 20 of the skeletal
    mass, it has 5 times greater surface area than
    cortical bone
  • Because of its large surfac, it has faster
    turnover rate than cortical bone hence it is
    more important than cortical bone in terms of
    calcium turnover
  • Compared to cortical bone , it is
  • (1) less dense,
  • (2) more elastic and
  • (3) has a higher turnover rate than compact bone
    .
  • The center of the bone contains red, yellow
    marrow, bone cells and other tissues.

7
Extracellular Fluid ( ECF) Calcium
  • Ca level in plasma is 8.5-10 mg/dL .
  • It exists in 3 fractions
  • (1) Ionized calcium ? 50 of total ECF calcium
  • (2) Protein-bound calcium ? 40 of total ECF
    calcium
  • Most of this is bound to albumin,
  • And much less is bound to globulins
  • (3) The remaining 10 of plasma calcium bound to
    citrate phosphate
  • Only the free, ionized Ca2 ( 1) above is
    biologically active.

8
  • Binding of calcium to albumin is pH-dependent
  • Alkalosis increases calcium binding to protein ?
    thereby decreases ionized calcium level
  • Calcium is tightly regulated with Phosphorous in
    the body.
  • PO4 plasma concentration is 3.0-4.5 mg/dL.
  • Bone Cells
  • There are 3 types of bone cells
  • (1) Osteoblast
  • bone-forming cell .
  • secretes osteoid ( bone matrix , mainly collagen
    ) on which Ca and PO4 are precipitated .
  • Stimulated by anabolic steroids
  • (2) Osteoclast
  • Bone-resorbing ( removing ) cell,stimulated by
    PTH and inhibited by Calcitonin
  • (3) Osteocyte
  • Transfers of calcium from canaliculi to the ECF

9
  • (3) Osteocytes
  • Osteocyte is the most abundant cell in compact
    bon
  • When Osteoblasts secrete collagen (osteoid
    matrix) they
  • become trapped in their own secretion .
  • When they become trapped in the matrix , they
    change
  • into osteocytes become embedded into small
    pits/holes/
  • spaces called Lacunae ( singular Lacuna)

10
  • Each osteocyte sends,
  • from its cell-body , long
  • cytoplasmic extensions
  • that connect it to other
  • osteocytes .
  • These cytoplasmic
  • extensions extend into
  • occupy tiny canals called
  • canaliculi
  • Canaliculi are small, fliud-filled
  • channels that are used for
  • exchange of CaPO4 ,nutrients
  • and waste products through
  • gap junctions

11
  • Many recent studies suggest that Osteocytes ?
  • ( 1) Have mechanosensory mechanisms ? detects
    degree of mechanical stresses strain
  • (2) Act as regulators of osteogenesis
    osteolysis
  • ? by translating the degree type of mechanical
    strain into biochemical signals, osteocytes
    regulate the amounts of CaPO4 that is transported
    from ECF to bone or vice versa , from bone to
    ECF ) ,

12
  • Therefore , osteocytes they can cause ?
  • (A) increased rate of osteogenesis (bone
    formation ) by ?
  • (1) stimulating osteoblasts ,
  • (2) increasing rate of transfer of calcium
    phosphate from ECF to bone
  • OR
  • (B) increased rate of osteolysis (bone
    resorption) by ?
  • (1) stimulating osteclasts,
  • (2) increasing rate of transfer of calcium
    phosphate from bone to ECF

13
Bone Formation Mineralization
  • First osteoblasts synthesize bone matrix (
    osteoid , mainly collagen ) ?
  • which will then be mineralized by deposition of
    Calcium Phosphate on it
  • This mineralization is dependent on Vitamin D
  • Alkaline phosphatase and osteocalcin play roles
    in bone formation
  • Their plasma levels are indicators of osteoblast
    activity
  • Bone Resorption (Osteolysis )
  • Involves BOTH ?
  • (1) calcium exraction ( demineralization ) ,
    then ?
  • (2) removal of the osteoid matrix
  • Cells responsible for resorption are osteoclasts
  • Bone resorptopn is stimulated by parathyroid
    hormonne (PTH) , which stimulates osteoclasts ?
    leads to release of calcium from bone into the
    ECF

14
Bone Remodeling
  • This refers to the continuous processes of bone
    absorption ( by osteoclasts) then its
    deposition ( by osteoblasts ) .
  • This results in a 10 turnover of the adult bone
    mass per year
  • Endocrine signals to resting osteoblasts generate
    paracrine signals to osteoclasts
  • Osteoclasts digest and resorb and area of
    mineralized bone.
  • Then local macrophages clean up debris.
  • Then osteoblasts are recruited to site and
    deposit new matrix which will be mineralized.
  • New bone replaces previously resorbed bone.
  • Bone remodling affected by- 1-mechanical stress
    on bone stimulates formation of stronger bone2-
    PTH and 1,25 Dihydroxycholecalciferol( active Vit
    D) stimulate activity formation of
    osteoclasts3- Calcitonin inhibits activity of
    osteoclasts

15
Osteoporosis
  • Men have more total bone mass than women .
  • During childhood, bone formation exceeds
  • resorption, and the total bone mass peaks at
    25-35
  • years of age .
  • Therefter , because of falling levels of the
    anabolic
  • steroids ( oestrogen progesterone , which
    stimulate
  • osteoblasts ) , we get osteoporosis , which means
  • reduced bone density and mass
  • This leads to increased susceptibility to
    fracture.
  • Osteoporosis occurs earlier in life for women
    than
  • men ( especially women around menopause ) . But
  • eventually both genders succumb to it

16
  • Thanks
Write a Comment
User Comments (0)
About PowerShow.com