bonehistology
TRANSCRIPT
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BONE PATHOLOGYDariusz Borys MD
www.pedorthpath.com
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OBJECTIVES
• Identify main functions of bone tissue
• Identify the major parts of a long bones
• Describe the cells found in bone tissue
• Describe the components of an osteon
• Compare and contrast intramembranous and endochondral ossification.
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BONE FUNCTION
• Support
• Protection (protect internal organs)
• Movement (provide leverage system for skeletal muscles, tendons, ligaments and joints)
• Mineral homeostasis (bones act as reserves of minerals important for the body like calcium or phosphorus)
• Hematopoiesis: blood cell formation
• Storage of adipose tissue: yellow marrow
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SHAPE OF BONES
• Long bones (e.g., humerus, femur)•Short bones (e.g.,
carpals, tarsals, patella)•Flat bones (e.g., parietal
bone, scapula, sternum)• Irregular bones (e.g.,
vertebrae, hip bones)
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BONE ANATOMYDiaphysis: long shaft of boneEpiphysis: ends of boneEpiphyseal plate: growth plateMetaphysis: b/w epiphysis and diaphysisArticular cartilage: covers epiphysisPeriosteum: bone covering (pain sensitive)Sharpey’s fibers: periosteum attaches to underlying boneMedullary cavity: Hollow chamber in bone- red marrow produces blood cells- yellow marrow is adiposeEndosteum: thin layer lining the medullary cavity
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BLOOD AND NERVE SUPPLY OF BONE
• Bone is supplied with blood by:• Periosteal arteries accompanied by
nerves supply the periosteum and compact bone
• Epiphyseal veins carry blood away from long bones
• Nerves accompany the blood vessels that supply bones• The periosteum is rich in sensory
nerves sensitive to tearing or tension
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LONG BONES
Compact Bone – dense outer layerSpongy Bone – (cancellous bone) honeycomb of trabeculae (needle-like or flat pieces) filled with bone marrow
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COMPACT BONE: (OSTEON) EXTERNAL LAYER- called lamellar bone (groups of
elongated tubules called lamella)- majority of all long bones- protection and strength
(wt. bearing)- concentric ring structure- blood vessels and nerves penetrate
periosteum through horizontal openings called perforating (Volkmann’s) canals.
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COMPACT BONE: (OSTEON) EXTERNAL LAYER• Central (Haversian) canals run longitudinally. Blood vessels and nerves.
- around canals are concentric lamella
- osteocytes occupy lacunae which are between the lamella
- radiating from the lacunea are channels called canaliculi (finger like
processes of osteocytes)
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COMPACT BONE
- Lacunae are connected to one another by canaliculi
- Osteon contains: - central canal
- surrounding lamellae
- lacunae
- osteocytes
- canaliculi
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SPONGY BONE (CANCELLOUS BONE): INTERNAL LAYER
- trabecular bone tissue (haphazard arrangement).
- filled with red and yellow bone marrow
- osteocytes get nutrients directly from circulating blood.
- short, flat and irregular bone is made up of mostly spongy bone
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HISTOLOGY OF BONE
• Histology of bone tissue
Cells are surrounded by matrix.
- 25% water
- 25% protein
- 50% mineral salts
4 cell types make up osseous tissue
Osteoprogenitor cells
Osteoblasts
Osteocytes
Osteoclasts
Cells of Bone Tissue
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• Osteoprogenitor cells:
- derived from mesenchyme
- all connective tissue is derived
- unspecialized stem cells
- undergo mitosis and develop
into osteoblasts
- found on inner surface of
periosteum and endosteum.
Cells of Bone Tissue
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• Osteoblasts:
- bone forming cells
- found on surface of bone (arrow)
- no ability to mitotically divide
- collagen secretors
• Osteocytes:
- mature bone cells
- derived form osteoblasts
- do not secrete matrix material
- cellular duties include exchange of nutrients and waste with blood.
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• Osteoclasts- bone resorbing cells- bone surface- growth, maintenance and bone repair
Abundant inorganic mineral salts:- Tricalcium phosphate in crystalline
form called hydroxyapatiteCa3(PO4)2(OH)2
- Calcium Carbonate: CaCO3
- Magnesium Hydroxide: Mg(OH)2
- Fluoride and Sulfate
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SKELETAL CARTILAGE
• Chondrocytes: cartilage producing cells.
• Lacunae: small cavities where the
chondrocytes are encased.
• Extracellular matrix: jellylike ground
substance.
• Perichondrium: layer of dense irregular
connective tissue that surrounds the
cartilage.
• No blood vessels or nerves
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Types of Cartilage• Hyaline cartilage – (glassy)
• Most abundant cartilage
• Provides support through flexibility
• Articular cartilages and costal cartilage, larynx, trachea, and nose
• Elastic cartilage – contains many elastic fibers• Able to tolerate repeated bending
• Ear and epiglottis
• Fibrocartilage – resists strong compression and strong tension• An intermediate between hyaline and
elastic cartilage
• Intervertebral discs and pubic symphysis
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BONE FORMATION
• The process of bone formation is called ossification
• Bone formation occurs in four situations:• 1) Formation of bone in an embryo• 2) Growth of bones until adulthood• 3) Remodeling of bone• 4) Repair of fractures
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Bone Formation
• Formation of Bone in an Embryo• cartilage formation and ossification occurs during
the sixth week of embryonic development
• two patterns• Intramembranous ossification
• Flat bones of the skull and mandible are formed in this way
• “Soft spots” that help the fetal skull pass through the birth canal later become ossified forming the skull
• Endochondral ossification• The replacement of cartilage by bone• Most bones of the body are formed in
this way including long bones
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Intramembranous Ossification
• An ossification center appears in the fibrous connective tissue membrane
• Osteoblasts secrete bone matrix within the fibrous membrane
• Osteoblasts mature into osteocytes
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Enlargingchondrocytes within
calcifying matrix
Chondrocytes at the center of the growing cartilage model enlarge and then die as the matrix calicifies.
Newly derived osteoblasts cover the shaft of the cartilage in a thin layer of bone.
Blood vessels penetrate the cartilage. New osteoblasts form a primary ossification center.
The bone of the shaft thickens, and the cartilage near each epiphysis is replaced by shafts of bone.
Blood vessels invade the epiphyses and osteo-blasts form secondary centers of ossification.
Cartilagemodel
Boneformation
Epiphysis
Diaphysis Marrowcavity
Primaryossificationcenter
Bloodvessel
Marrowcavity
Bloodvessel
Secondaryossificationcenter
Epiphysealcartilage
Articularcartilage
Replacement of hyaline cartilage with bone
Most bones are formed this way (i.e. long bones).
Endochondral Ossification
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Longitudinal Bone Growth• Longitudinal Growth (interstitial) – cartilage continually grows and is
replaced by bone • Bones lengthen entirely by growth of the epiphyseal plates
• Cartilage is replaced with bone as quickly as it grows
• Epiphyseal plate maintains constant thickness
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GROWTH IN LENGTH
• The growth in length of long bones involves two major events:• Growth of cartilage on the epiphyseal
plate• Replacement of cartilage by bone tissue
in the epiphyseal plate
- osteoblasts located beneath the
periosteum secrete bone matrix and
build bone on the surface
- osteoclasts located in the endosteum
resorbs (breakdown) bone.
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GROWTH OF CARTILAGE ON THE EPIPHYSEAL PLATE
- epiphyseal plate (bone length)- 4 zones of bone growth under hGH.
1- Zone of resting cartilage (quiescent):- no bone growth- located near the epiphyseal plate- scattered chondrocytes- anchors plate to bone
2- Zone of proliferating cartilage (prolferation zone)- chondrocytes stacked like coins- chondrocytes divide
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3- Zone of hypertrophic (maturing) cartilage
- large chondrocytes arranged in columns
- lengthwise expansion of epiphyseal plate
4- Zone of calcified cartilage
- few cell layers thick
- occupied by osteoblasts and osteoclasts
and capillaries from the diaphysis
- cells lay down bone
- dead chondrocytes surrounded by a calcified
matrix.
Matrix resembles long spicules of calcified
cartilage.
Spicules are partly eroded by osteoclasts and then
covered in bone matrix from osteoblasts: spongy
bone is formed.
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APPOSITIONAL BONE GROWTH• Growing bones widen as they lengthen
• Appositional growth – growth of a bone by addition of bone tissue to its surface
• Bone is resorbed at endosteal surface and added at periosteal surface• Osteoblasts – add bone tissue to the external surface of the diaphysis
• Osteoclasts – remove bone from the internal surface of the diaphysis
Figure 6-6
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BONE REMODELING
- bone continually renews itself
- never metabolically at rest
- enables Ca to be pulled from bone when blood levels are low
- osteoclasts are responsible for matrix destruction
- produce lysosomal enzymes and acids
- spongy bone replaced every 3-4 years
- compact bone every 10 years
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• Fractures: Any bone break.
- blood clot will form around break
- fracture hematoma
- inflammatory process begins
- blood capillaries grow into clot
- phagocytes and osteoclasts
remove damaged tissue
- procallus forms and is invaded by
osteoprogenitor cells and
fibroblasts
- collagen and fibrocartilage turns
procallus to fibrocartilagenous
(soft) callus
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- broken ends of bone are bridged by callus
- osteoprogenitor cells are replaced by
osteoblasts and form spongy bone
- bony (hard) callus is formed
- callus is resorbed by osteoclasts and compact bone replaces spongy bone.
Remodeling : the shaft is reconstructed to resemble original unbroken bone.
Closed reduction - bone ends coaxed back into place by manipulation
Open reduction - surgery, bone ends secured together with pins or wires
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•Thank you