2. Objective of The Lecture
To know about definition of the bone.
To master the basic structure of the bone.
To know about bone matrix and bone cells.
Illustrate and differentiate the three type of bone
cells.
To know about the periosteum & endosteum.
3. Bone
Bone is a dense,
semirigid, porous,
calcified connective
tissue forming the major
portion of the skeleton.
It consists of a dense
organic matrix and an
inorganic, mineral
component.
4. Bone
Bone is a specialized
connective tissue composed
of intercellular calcified
material, the bone matrix,
and three cell types:
osteocytes, osteoblasts and
osteoclasts
All bones are lined on both
internal and external surfaces
by layers of tissue containing
osteogenic cells endosteum
on the internal surface and
periosteum on the external
surface.
5. Bone Functions
Protects vital organs
Supports soft tissue
Movement
Mineral storage
Blood cell production
6. Microscopic structure
of compact bone
The structural unit of
Compact bone is the
osteon,or haversian
system.
Each osteon
Is an elongated cylinder
Oriented parallel to the
Long axis of the bone.
7. Microscopic structure
of compact bone
Osteon System:
A central (Haversian)
canal with concentric
rings (lamellae) of bone
matrix running
lengthwise.
Very strong!
8. Microscopic structure
of compact bone
Central, or haversian
canal carries blood vessels
and nerves to all areas of
the bone.
Canaliculi tiny canals that
radiate outward from the
central canals to each
lacunae space.
Volkmann’s Canals:
canals that run at right
angles to the central canals
and perforate the shaft of
the bone.
13. Spongy Bone
Spongy bone contains
trabeculae and spicules
giving it a honeycomb
appearance.
Trabeculae: are
irregularly arranged and
contain lamellae and
osteocytes, but contain
no osteons as they
receive nutrients from
the marrow tissue.
15. Bone Matrix 25% Water
25% Protein or organic
matrix
95% Collagen Fibers
5% Chondroitin Sulfate
50% Crystalized Mineral
Salts Hydroxyapatite
(Calcium Phosphate)
Other substances: Lead,
Gold, Strontium,
Plutonium, etc.
Combination provides
strength and rigidity
Laid down by osteoblasts
16. Bone Matrix
If mineral removed, bone is too bendable
If collagen removed, bone is too brittle
17. Bone Cells
1. Osteoblasts: Bone
generating cells “B”
means building
2. Osteocytes: Mature
bone cells, spider
shaped and maintain
bone tissue
3. Osteoclasts: Bone
destroying cells
“C” means chewing
18. Osteoblasts
Osteoblasts are
responsible for the
synthesis of the organic
components of bone
matrix (type I collagen,
proteoglycans, and
glycoproteins).
Osteoblasts depends on
deposition of the
inorganic components of
bone.
19. Osteoblasts
Osteoblasts are exclusively
located at the surfaces of
bone tissue, side by side, in a
way that resembles simple
epithelium.
When they are actively
engaged in matrix synthesis,
osteoblasts have a cuboidal to
columnar shape and
basophilic cytoplasm.
When their synthesizing
activity declines, they flatten,
and cytoplasmic basophilia
declines.
21. Osteocytes
Osteocytes, which derive
from osteoblasts, lie in
the lacunae situated
between lamellae of
matrix.
Only one osteocyte is
found in each lacuna.
• Lacunae: spaces
occupied by osteocyte
cell body
24. Osteoclasts
Osteoclasts are very large
and branched motile cells.
Dilated portions of the cell
body contain from 5 to 50
(or more) nuclei.
Osteoclasts are derived
from the mononucleated
cells; (engulf bony
material).
Active osteoblasts
stimulate osteoclast
activity.
25. Osteoclasts
Resorption of bone
Ruffled border: where
cell membrane borders
bone and resorption is
taking place.
H ions pumped across
membrane, acid forms,
eats away bone.
Release enzymes that
digest the bone.
30. Periosteum
It consists of an outer
layer of collagen fibers
and fibroblasts.
Bundles of periosteal
collagen fibers, called
Sharpey's fibers,
penetrate the bone
matrix, binding the
periosteum to bone.
32. Endosteum
It lines all internal
cavities within the bone
and is composed of a
single layer of flattened
osteoprogenitor cells and
a very small amount of
connective tissue.
The endosteum is
therefore considerably
thinner than the
periosteum.
33. Periosteum & Endosteum
The principal functions
of periosteum and
endosteum are nutrition
of osseous tissue and
provision of a
continuous supply of
new osteoblasts for
repair or growth of bone.