1. 5
The Skeletal System

2. The Skeletal System Parts of the skeletal system
Bones (skeleton)
Joints
Cartilages
Ligaments
Two subdivisions of the skeleton
Axial skeleton
Appendicular skeleton

3. Functions of Bones Support the body Protect soft organs
Skull and vertebrae for brain and spinal cord
Rib cage for thoracic cavity organs
Allow movement due to attached skeletal muscles
Store minerals and fats
Calcium and phosphorus
Fat in the internal marrow cavity
Blood cell formation (hematopoiesis)

4. Bones of the Human Body The adult skeleton has 206 bones
Two basic types of bone tissue
Compact bone
Homogeneous
Spongy bone
Small needle-like pieces of bone
Many open spaces

5. Spongy
bone
Compact
bone
Figure 5.1

6. Classification of Bones on the Basis of Shape
Bones are classified as:
Long
Short
Flat
Irregular

7. Figure 5.2

8. Classification of Bones
Long bones
Typically longer than they are wide
Shaft with heads situated at both ends
Contain mostly compact bone
All of the bones of the limbs (except wrist, ankle, and kneecap bones)
Example:
Femur
Humerus

9. Figure 5.2a

10. Classification of Bones
Short bones
Generally cube-shaped
Contain mostly spongy bone
Includes bones of the wrist and ankle
Sesamoid bones are a type of short bone which form within tendons (patella)
Example:
Carpals
Tarsals

11. Figure 5.2d

12. Classification of Bones
Flat bones
Thin, flattened, and usually curved
Two thin layers of compact bone surround a layer of spongy bone
Example:
Skull
Ribs
Sternum

13. Spongy
bone
Compact
bone
Figure 5.1

14. Figure 5.2c

15. Classification of Bones
Irregular bones
Irregular shape
Do not fit into other bone classification categories
Example:
Vertebrae
Hip bones

16. Figure 5.2b

17. Anatomy of a Long Bone Diaphysis Epiphysis Shaft
Composed of compact bone
Epiphysis
Ends of the bone
Composed mostly of spongy bone

18. Articular cartilage Proximal epiphysis Spongy bone Epiphyseal line
Periosteum
Compact bone
Medullary
cavity (lined
by endosteum)
Diaphysis
Distal
epiphysis
(a)
Figure 5.3a

19. Anatomy of a Long Bone Periosteum Perforating (Sharpey’s) fibers
Outside covering of the diaphysis
Fibrous connective tissue membrane
Perforating (Sharpey’s) fibers
Secure periosteum to underlying bone
Arteries
Supply bone cells with nutrients

20. Endosteum Yellow bone marrow Compact bone Periosteum Perforating
(Sharpey’s)
fibers
Nutrient
arteries
(c)
Figure 5.3c

21. Anatomy of a Long Bone Articular cartilage
Covers the external surface of the epiphyses
Made of hyaline cartilage
Decreases friction at joint surfaces

22. Articular
cartilage
Compact bone
Spongy bone
(b)
Figure 5.3b

23. Anatomy of a Long Bone Epiphyseal plate Epiphyseal line
Flat plate of hyaline cartilage seen in young, growing bone
Epiphyseal line
Remnant of the epiphyseal plate
Seen in adult bones

24. Articular cartilage Proximal epiphysis Spongy bone Epiphyseal line
Periosteum
Compact bone
Medullary
cavity (lined
by endosteum)
Diaphysis
Distal
epiphysis
(a)
Figure 5.3a

25. Anatomy of a Long Bone Marrow (medullary) cavity
Cavity inside of the shaft
Contains yellow marrow (mostly fat) in adults
Contains red marrow for blood cell formation in infants
In adults, red marrow is situated in cavities of spongy bone and epiphyses of some long bones

26. Articular cartilage Proximal epiphysis Spongy bone Epiphyseal line
Periosteum
Compact bone
Medullary
cavity (lined
by endosteum)
Diaphysis
Distal
epiphysis
(a)
Figure 5.3a

27. Bone Markings Surface features of bones
Sites of attachments for muscles, tendons, and ligaments
Passages for nerves and blood vessels
Categories of bone markings
Projections or processes—grow out from the bone surface
Terms often begin with “T”
Depressions or cavities—indentations
Terms often begin with “F”

28. Microscopic Anatomy of Compact Bone
Osteon (Haversian system)
A unit of bone containing central canal and matrix rings
Central (Haversian) canal
Opening in the center of an osteon
Carries blood vessels and nerves
Perforating (Volkmann’s) canal
Canal perpendicular to the central canal

29. Osteon
(Haversian system)
Lamellae
Blood vessel continues into
medullary cavity containing marrow
Spongy bone
Perforating
fibers
Compact
bone
Periosteal
blood vessel
Central (Haversian) canal
Periosteum
Perforating
(Volkmann’s) canal
(a)
Blood vessel
Figure 5.4a

30. Microscopic Anatomy of Bone
Lacunae
Cavities containing bone cells (osteocytes)
Arranged in concentric rings called lamellae
Lamellae
Rings around the central canal
Sites of lacunae

31. Canaliculus Lacuna (b)
Lamella
Osteocyte
Canaliculus
Lacuna
(b)
Central (Haversian) canal
Figure 5.4b

32. Osteon
Lacuna
(c)
Central
canal
Interstitial
lamellae
Figure 5.4c

33. Microscopic Anatomy of Bone
Canaliculi
Tiny canals
Radiate from the central canal to lacunae
Form a transport system connecting all bone cells to a nutrient supply

34. Canaliculus Lacuna (b)
Lamella
Osteocyte
Canaliculus
Lacuna
(b)
Central (Haversian) canal
Figure 5.4b

35. Formation of the Human Skeleton
In embryos, the skeleton is primarily hyaline cartilage
During development, much of this cartilage is replaced by bone
Cartilage remains in isolated areas
Bridge of the nose
Parts of ribs
Joints

36. Bone Growth (Ossification)
Epiphyseal plates allow for lengthwise growth of long bones during childhood
New cartilage is continuously formed
Older cartilage becomes ossified
Cartilage is broken down
Enclosed cartilage is digested away, opening up a medullary cavity
Bone replaces cartilage through the action of osteoblasts

37. Bone Growth (Ossification)
Bones are remodeled and lengthened until growth stops
Bones are remodeled in response to two factors
Blood calcium levels
Pull of gravity and muscles on the skeleton
Bones grow in width (called appositional growth)

38. Articular cartilage Hyaline cartilage Spongy bone New center of
bone growth
New bone
forming
Epiphyseal
plate
cartilage
Growth
in bone
width
Medullary
cavity
Bone starting
to replace
cartilage
Invading
blood
vessels
Growth
in bone
length
New bone
forming
Bone collar
Hyaline
cartilage
model
Epiphyseal
plate cartilage
In an embryo
In a fetus
In a child
Figure 5.5

39. Bone starting to replace cartilage Bone collar Hyaline cartilage model
In an embryo
Figure 5.5, step 1

40. Hyaline cartilage New center of bone growth Medullary cavity Invading
blood
vessels
Growth
in bone
length
In a fetus
Figure 5.5, step 2

41. Articular cartilage Spongy bone New bone forming Epiphyseal plate
Growth
in bone
width
Invading
blood
vessels
New bone
forming
Epiphyseal
plate cartilage
In a child
Figure 5.5, step 3

42. is replaced by bone here. 4 Bone is resorbed here. 3
Bone growth
Bone remodeling
Bone grows in
length because:
Growing shaft is
remodeled as:
Articular cartilage
Cartilage
grows here. 1
Epiphyseal plate
Cartilage
is replaced
by bone here. 2 1
Bone is
resorbed here.
Cartilage
grows here. 3 2
Bone is added
by appositional
growth here.
Cartilage
is replaced by bone here. 4
Bone is
resorbed here. 3
Figure 5.6

43. Types of Bone Cells Osteocytes—mature bone cells
Osteoblasts—bone-forming cells
Osteoclasts—giant bone-destroying cells
Break down bone matrix for remodeling and release of calcium in response to parathyroid hormone
Bone remodeling is performed by both osteoblasts and osteoclasts

44. Bone Fractures Fracture—break in a bone Types of bone fractures
Closed (simple) fracture—break that does not penetrate the skin
Open (compound) fracture—broken bone penetrates through the skin
Bone fractures are treated by reduction and immobilization

45. Common Types of Fractures
Comminuted—bone breaks into many fragments
Compression—bone is crushed
Depressed—broken bone portion is pressed inward
Impacted—broken bone ends are forced into each other
Spiral—ragged break occurs when excessive twisting forces are applied to a bone
Greenstick—bone breaks incompletely

46. Repair of Bone Fractures
Hematoma (blood-filled swelling) is formed
Break is splinted by fibrocartilage to form a callus
Fibrocartilage callus is replaced by a bony callus
Bony callus is remodeled to form a permanent patch

47. Figure 5.7 Hematoma External callus Bony callus of spongy bone New
blood
vessels
Internal
callus
(fibrous
tissue and
cartilage)
Healed
fracture
Spongy
bone
trabecula
Hematoma
forms. 1
Fibrocartilage
callus forms. 2
Bony callus
forms. 3
Bone remodeling
occurs. 4
Figure 5.7

48. Hematoma
Hematoma
forms. 1
Figure 5.7, step 1

49. Figure 5.7, step 2 Hematoma External callus New blood vessels Internal
(fibrous
tissue and
cartilage)
Spongy
bone
trabecula
Hematoma
forms. 1
Fibrocartilage
callus forms. 2
Figure 5.7, step 2

50. Figure 5.7, step 3 Hematoma External callus Bony callus of spongy bone
New
blood
vessels
Internal
callus
(fibrous
tissue and
cartilage)
Spongy
bone
trabecula
Hematoma
forms. 1
Fibrocartilage
callus forms. 2
Bony callus
forms. 3
Figure 5.7, step 3

51. Figure 5.7, step 4 Hematoma External callus Bony callus of spongy bone
New
blood
vessels
Internal
callus
(fibrous
tissue and
cartilage)
Healed
fracture
Spongy
bone
trabecula
Hematoma
forms. 1
Fibrocartilage
callus forms. 2
Bony callus
forms. 3
Bone remodeling
occurs. 4
Figure 5.7, step 4