Module 6: Bones and Skeletal Tissue

Question 1

Red bone marrow

Answer 1

Hematopoesis (blood cell production)

Consists of developing blood cells, adipocytes, fibroblasts, macrophages, reticular fibres

Question 2

Yellow bone marrow

Answer 2

Triglyceride storage in adipose cells

Question 3

Parts of long bone

Answer 3

Diaphysis
Epiphyses
Metaphyses
Articular cartilage
Periosteum
Medullary cavity
Endosteum

Question 4

Diaphysis

Answer 4

Main shaft/body of long bone

Mostly compact bone

Question 5

Epiphyses

Answer 5

Proximal and distal ends of long bone

Question 6

Metaphyses

Answer 6

Between diaphysis and epiphysis

Question 7

Epiphyseal plate

Answer 7

Growth plate in metaphysics of growing bone

Layer of hyaline cartilage that allows diaphysis to grow in length

Question 8

Epiphyseal line

Answer 8

Cartilage in epiphyseal plate replaced by bone when growth completes

Question 9

Articular cartilage

Answer 9

Thin layer of hyaline cartilage covering the part of the epiphysis where bone forms an articulation (joint) with another bone
Reduces friction and absorbs shock

Question 10

Periosteum

Answer 10

Tough connective tissue sheath and associated blood supply
Surrounds bone surface not covered by articular cartilage
Protects, assists in repair and nourishment, attachment for ligaments and tendons

Question 11

Outer fibrous layer of periosteum

Answer 11

Dense connective tissue

Question 12

Inner osteogenic layer of periosteum

Answer 12

Consists of cells - some enable growth in thickness but not length

Question 13

Perforating (Sharpey’s) fibers

Answer 13

Thick collagen bundles attaching periosteum to bone matrix

Question 14

Endosteum

Answer 14

Thin membrane that lines medullary cavity
Single layer of bone-forming cells
Small amount of connective tissue

Question 15

Four types of bone tissue cells

Answer 15

Osteogenic, osteoblasts, osteoclasts, osteocytes

Question 16

Osteogenic cells

Answer 16

Unspecialized bone stem cells

Only bone cells that undergo cell division

Question 17

Osteoblasts

Answer 17

Bone building cells
Synthesize and secrete collagen fibers and other ECM components
Initiate calcification
-blast = build

Question 18

Osteocytes

Answer 18

Mature bone cells embedded in matrix
Main cells in bone tissue
Maintain daily metabolism

Question 19

Osteoclasts

Answer 19

Huge cells derived from fusion or monocytes
Concentrated in endosteum
Resorption (breakdown of bone ECM)
Release stored minerals into body tissue
-clast = carve

Question 20

Osteon (Haversian system)

Answer 20

Microscopic unit of compact bone

Question 21

Central canal (Haversian canal)

Answer 21

Contains blood vessels and nerve cells

Question 22

Lamellae

Answer 22

Form circular rings of matrix

Osteocytes located in lacunae between rings

Question 23

Lacunae

Answer 23

“Little lakes”

Between thin sheets of calcified matrix

Question 24

Canaliculi

Answer 24

Interconnecting channels

Join lacunae with each other and with nearby blood vessels

Question 25

Volkmann’s canals

Answer 25

Also called perforating canals

Connect the blood and nerve supply of the periosteum to those in the central canals and medullary cavity

Question 26

Trabeculae

Answer 26

“Little beams”
Make the spongy bone look like “Swiss cheese.”
Decrease the weight of the bone and provide the spaces where red bone marrow is found

Question 27

Interstitial lamellae

Answer 27

Between osteons

Fragments of older osteons

Question 28

Wolff’s Law

Answer 28

Bone will grow or remodel in response to stress, muscle activity, fracture repair, excess weight, etc

Question 29

Endochondrial ossification

Answer 29

Osteoblasts replace hyaline cartilage with bone tissue

Question 30

Steps of endochondrial ossification

Answer 30

Development of cartilage model
Growth of cartilage model
Development of primary ossification centre
Development of medullary cavity
Development of secondary ossification centres
Formation of articular cartilage and epiphyseal plate

Question 31

Incomplete fracture

Answer 31

Greenstick fracture
Break almost extends across entire section of bone, but it still has pieces of the bone partially joined together and bent
Only in children whose bones are not fully ossified

Question 32

Open (compound) fracture

Answer 32

Broken end of the bone protrudes through the skin

Risk of infection

Question 33

Closed (simple) fracture

Answer 33

Broken bone does not extend through the skin

Less chance of bacterial invasion

Question 34

Transverse fracture

Answer 34

Bone is broken at right angles to the long axis of the bone

Question 35

Comminuted fracture

Answer 35

Bone is crushed into small pieces

Question 36

Oblique fracture

Answer 36

Bone is broken on a slant

Question 37

Impacted fracture

Answer 37

One end of fractured bone forcefully driven into interior end of the other

Question 38

Stress fracture

Answer 38

Series of microscopic fissures without evidence of injury to other tissues
Results from repeated, strenuous activities or osteoporosis

Question 39

Pott fracture

Answer 39

Fracture of distal end of lateral leg bone (fibula)

Question 40

Colles’ fracture

Answer 40

Fracture of distal end of the lateral forearm bone (radius) in which distal fragment is displaced posteriorly

Question 41

Closed reduction

Answer 41

Physical manipulation of fracture without surgery

Question 42

Open reduction

Answer 42

Surgery to realign fractured bone fragments

Question 43

Steps of fracture repair

Answer 43

Formation of fracture hematoma
Fibrocartilaginous callus formation
Bony callus formation
Bone remodelling

Question 44

Hyaline cartilage

Answer 44

Most abundant skeletal cartilage

Provides support with flexibility and resistance

Question 45

Complete fracture

Answer 45

Break extends across entire section of bone

Question 46

Intramembranous ossification

Answer 46

Osteoblasts replace thin connective tissue membrane with bone tissue
Flat, skull bones, facial bones, mandible (lower jawbone) and medial part of clavicle

Question 47

Steps of intramembranous ossification

Answer 47

Development of ossification centre (osteoblasts secrete ECM)
Calcification
Trabeculae formation
Periosteum development