1. 6
Bones and Skeletal Tissues: Part A

2. Cartilage
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3. Skeletal Cartilages What do you find in all cartilage? Cell type?
Other junk?
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4. Skeletal Cartilages What do you find in all cartilage?
Chondrocytes in lacunae
Extracellular matrix
What are the three types of cartilage?
Hyaline
Elastic
Fibrocartilage
What are the properties that make these different?
Characteristic
Fiber type
Location
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5. Cartilage Three types Hyaline cartilage Elastic cartilage
Flexibility
Contains a boat load of collagen
Ex: articular, costal, respiratory, nasal cartilage
Elastic cartilage
Super flexible
Collagen + mostly elastic fibers
Ex: external ear and epiglottis
Fibrocartilage
Thick collagen fibers—has great tensile strength
Ex: Menisci of knee; vertebral discs
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6. Table for organization
Type
Property
Fiber Type
Examples
Hyaline
Flexibility
Collagen
Costal cart., trachea
Elastic
Super flexible
Collagen + elastic
Ext. ear, epiglottis
Fibro
Tensile strength, cushion
Thick collagen
Vertebral discs, menisci of knee
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7. Figure 6.1 The bones and cartilages of the human skeleton.
Epiglottis
Thyroid
cartilage
Larynx
Cartilage in
external ear
Cartilages in
nose
Cricoid
cartilage
Trachea
Articular
cartilage
of a joint
Lung
Costal
cartilage
Cartilage in
intervertebral
disc
Respiratory tube cartilages
in neck and thorax
Pubic
symphysis
Bones of skeleton
Axial skeleton
Meniscus
(padlike cartilage
in knee joint)
Appendicular skeleton
Cartilages
Articular
cartilage of a joint
Hyaline cartilages
Elastic cartilages
Fibrocartilages
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8. What are the two types of growth?
Growth of Cartilage
What are the two types of growth?
Growth in length?
Growth in girth?
Appositional growth
“Girth”
Cells secrete matrix against external face of existing cartilage.
Interstitial growth
“Length”
Chondrocytes divide (through lacunae) to secrete new matrix, expanding cartilage from within the bone.
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9. Compare and Contrast Appositional Growth Interstitial Growth
Addition to surface
Osteoprogenitor cells
Bone
Solid matrix
Increases in thickness
Addition within
Chondroblasts
Cartilage
Denser matrix
Increases the length
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10. How can we remember this?
Terms
Pnemonic
Appositional Growth
Growth in width
Interstitial growth
Length
A.G.I.L.E
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11. Classification of Bones
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12. Classification of Bones
206 named bones in skeleton
Divided into two groups
Axial skeleton
Appendicular skeleton
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13. Questions:
Is the pelvic girdle part of the appendicular skeleton or the axial skeleton?
To which skeleton is the shoulder girdle connected?
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14. Classification of Bones by Shape
What are the classifications based on shape?
Long bones
Short bones
Flat bones
Irregular bones
Bone Type
Description
Long
Longer than wide
Short
Cube shaped (carpals/tarsals)
Sesamoid (patella)
Flat
Thin, slightly curved
Irregular
Complicated shapes
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15. Figure 6.2 Classification of bones on the basis of shape.
Flat bone (sternum)
Long bone
(humerus)
Irregular bone (vertebra),
right lateral view
Short bone (talus)
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16. Functions of Bones What are the important functions of bone?
Support/protect
Movement
Storage
Production
How does the skeleton carry out these functions?
i.e. what are some examples?
Function
Examples
Support/Protect
Spine, Rib Cage
Movement
Voluntary movements
Storage
Minerals (Ca and P), Growth Factor, Fats
Production
Hematopoiesis, hormone production
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17. Functions of Bones Mineral and growth factor storage
Calcium and phosphorus
Growth factors (GF) reservoir
Hormone production
Osteocalcin
Regulates bone formation
Protects against
Obesity
Glucose intolerance
Diabetes mellitus
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18. What are the two major types of bones?
Gross Anatomy
What are the two major types of bones?
Compact
Spongy
Bone Type
Descriptions
Compact
Dense outer layer; smooth and solid
Spongy
Trabeculae, “like a sponge”
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19. Spongy bone (diploë) Compact bone Trabeculae of spongy bone
Figure 6.3 Flat bones consist of a layer of spongy bone sandwiched between two thin layers of compact bone.
Spongy bone
(diploë)
Compact
bone
Trabeculae of
spongy bone
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20. Structure of Typical Long Bone
What are the two main regions of a long bone?
Diaphysis (“Shaft”)
Compact bone surrounding medullary cavity
Epiphyses (“Ends”)
External compact bone; internal spongy bone
Cartilage covers articular surfaces
What type? D E
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21. Still talking long-bones
What is unique about the epiphyseal line?
Only found in long bones
Remnant of childhood bone growth
What is the difference between the epiphyseal plate and epiphyseal line?
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22. Compare and Contrast Cartilage Found in children
Epiphyseal Plate
Epiphyseal Line
Cartilage
Found in children
Trauma can result in improper growth
Bone
Found in adults
Sign that growth has stopped

23. Figure 6.4a The structure of a long bone (humerus of arm).
What are the two major types of membranes surrounding bone?
Periosteum
Endosteum
Proximal
epiphysis
Periosteum
Medullary
cavity (lined
by endosteum)
Diaphysis
Distal
epiphysis
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24. Compare and Contrast Periosteum Endosteum
White, double-layered membrane
Fairly dense
Covers external surfaces (except joint surfaces)
Connected to bone by Sharpey's fibers
Delicate
Covers trabeculae of spongy bone
Lines canals that pass through compact bone
Contains osteogenic cells that differentiate into other bone cells
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25. Endosteum Compact bone Periosteum
Articular
cartilage
Proximal
epiphysis
Spongy bone
Epiphyseal
line
Yellow
bone marrow
Periosteum
Compact bone
Compact bone
Medullary
cavity (lined
by endosteum)
Periosteum
Perforating
(Sharpey’s)
fibers
Diaphysis
Nutrient
arteries
Distal
epiphysis
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26. Membranes: Periosteum
What types of tissues will you find in and around bone?
Many nerve fibers and blood vessels
Anchoring points for tendons and ligaments
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27. Marrow Tissue in Bones Found in spongy bone and diploe of flat bones
Red Marrow
Yellow Marrow
Found in spongy bone and diploe of flat bones
Forms RBC
Found in medullary cavity
Stores fats
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28. Bone Markings
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29. Why do we have different types of markings?
Bone Markings
Why do we have different types of markings?
Sites of attachment
Joint surfaces
Conduits for blood vessels and nerves
How can these be classified?
Projections
Depressions
Openings
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30. Depressions and openings
Bone Markings
Projections
Most indicate stresses created by muscle pull or joint modifications
Depressions and openings
Usually allow nerves and blood vessels to pass
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31. Table 6.1 Bone Markings (1 of 2)
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32. Table 6.1 Bone Markings (2 of 2)
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33. Microscopic Anatomy of Bone: Cells of Bone Tissue
What are the different types of cells found in bone?
Osteogenic cells
Osteoblasts
Osteocytes
Bone lining cells
Osteoclasts
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34. Microscopic Anatomy of Bone: Cells of Bone Tissue
What do each of these types do?
Osteogenic cells
Osteoblasts
Osteocytes
Bone lining cells
Osteoclasts
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35. Microscopic Anatomy of Bone: Cells of Bone Tissue
What do each of these types do?
Osteogenic cells precursor
Osteoblasts “blast”
Osteocytes “cytes”
Bone lining cells “lining”
Osteoclasts “clast”
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36. Also called osteoprogenitor cells
Osteogenic Cells
Also called osteoprogenitor cells
Mitotically active stem cells
Found in periosteum and endosteum
Differentiate into
Osteoblasts
Bone lining cells
Persist as osteogenic cells
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37. Osteoblasts “Bone-making cells” What do they secrete? Actively mitotic
Mineralized bone matrix or osteoid
Includes collagen and calcium-binding proteins
Collagen = 90% of bone protein
Actively mitotic
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38. Osteogenic cell Osteoblast Stem cell Matrix-synthesizing
Figure 6.5a–b Comparison of different types of bone cells.
Osteogenic cell
Osteoblast
Stem cell
Matrix-synthesizing
cell responsible for
bone growth
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39. Bone Lining Cells: Osteocytes
External bone surface: periosteal cells
Lining internal surfaces: endosteal cells
Where have we seen similar terms before?
Periosteum
Endosteum
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40. Derived from hematopoietic stem cells that become macrophages
Osteoclasts
Derived from hematopoietic stem cells that become macrophages
What does being a macrophage have to do with “clast” behavior?
What makes their form fit function?
Hint: it has to do with ruffled border.
Ruffled border increases surface area for enzyme degradation of bone
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41. Osteocyte Osteoclast Mature bone cell that monitors and maintains the
Figure 6.5c–d Comparison of different types of bone cells.
Osteocyte
Osteoclast
Mature bone cell
that monitors and
maintains the
mineralized bone
matrix
Bone-resorbing cell
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42. Artery with capillaries Structures in the Vein central canal
Figure 6.6 A single osteon.
Artery with
capillaries
Structures
in the
central
canal
Vein
Nerve fiber
Lamellae
Collagen
fibers
run in
different
directions
Twisting
force
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43. Microscopic Anatomy of Bone: Compact Bone
Canals and canaliculi
Central (Haversian) canal
Runs through core of osteon
Contains blood vessels and nerve fibers
Perforating (Volkmann's) canals
Canals lined with endosteum at right angles to central canal
Lacunae—small cavities containing osteocytes
Canaliculi—connect lacunae/lacunae and to central canal
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44. Figure 6.7 Microscopic anatomy of compact bone.
Spongy bone
Central
(Haversian) canal
Perforating
(Volkmann’s) canal
Endosteum lining bony canals
and covering trabeculae
Osteon
(Haversian system)
Circumferential
lamellae
Perforating (Sharpey’s) fibers
Lamellae
Periosteal blood vessel
Periosteum
Nerve
Vein
Lamellae
Artery
Central
canal
Canaliculi
Osteocyte
in a lacuna
Lacunae
Interstitial
lamella
Lacuna
(with osteocyte)
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45. Microscopic Anatomy of Bone: Spongy Bone
What is the arrangement in spongey bone called?
Trabeculae
Align along lines of stress
No osteons
Contain irregularly arranged lamellae and osteocytes interconnected by canaliculi
BONUS: How does spongy bone get its nutrients?
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46. Chemical Composition of Bone: Inorganic Components
Hydroxyapatites (mineral salts)
65% of bone by mass
Mainly of tiny calcium phosphate crystals in and around collagen fibers
Responsible for hardness and resistance to compression
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