Bone

Question 1

Which process contributes to the thickening of long bones? Which process contributes to their lengthening?

Answer 1

Intramembranous ossification contributes to the thickening of a long bone, while endochondral ossification contributes to their lengthening

Question 2

What is intramembranous ossification?

Answer 2

Bone growth within condensations of mesenchymal tissues (as opposed to replacement of hyaline cartilage)

Question 3

What is the difference between an osteoblast and an osteoclast?

Answer 3

An osteoblast deposits and forms new bone, while an osteoclast breaks down existing or damaged bone

Question 4

What are the 2 types of bone?

Answer 4

Cancellous and compact bone

Question 5

What is cancellous bone?

Answer 5

A network of fine, bony columns filled with bone marrow

Question 6

Where is compact bone found?

Answer 6

On the external surfaces of the bone

Question 7

Describe the composition of bone.

Answer 7

65% mineral (calcium hydroxyapatite crystals)
23% type I collagen
10% water
2% non-collagen proteins

Question 8

What structure makes up the majority of compact bone?

Answer 8

An osteon

Question 9

What canals innervate an osteon of compact bone? In which direction do these vessels run?

Answer 9

A Harvesian canal runs parallel to an osteon, while a Volkman’s canal runs perpendicular

Question 10

How are osteocytes arranged differently in mature and immature bone?

Answer 10

Osteocytes are arranged randomly in immature bone, while in mature bone the arranged in the concentric lamellae of osteons

Question 11

Define what an autograft, homograft, and a heterograft are.

Answer 11

An autograft is where the donor is the recipient, a homograft is where the donor is of the same species (ie another human), and a heterograft is where the donor is a different species

Question 12

Which is the most successful out of an autograft, homograft, and a heterograft?

Answer 12

Autograft

Question 13

List the 4 stages of repair of a bone fracture.

Answer 13

1) haemotoma formation
2) fibrocartilaginous callus formation
3) bony callous formation
4) bone remodelling

Question 14

From which germ line cell type does bone form in intramembranous ossification? What is the intermediate cell type between these and an osteoblast?

Answer 14

Bone forms from mesenchymal stem cells - these differentiate into osteoprogenitor cells, which then mature into osteoblasts

Question 15

Which type of collagen do osteoblasts mainly lay down?

Answer 15

Type I collagen

Question 16

What is osteoid?

Answer 16

Unmineralised bone matrix (hasn’t been calcified) composed of type I collagen and GAGs

Question 17

Are osteoclasts uni-nucleated?

Answer 17

No, they are multi-nucleated

Question 18

Biochemically, what does bone mineralisation specifically refer to?

Answer 18

The deposition of hydroxyapatite crystals

Question 19

List the 5 zones apparent in endochondral ossification?

Answer 19

Zone of resorption
Zone of calcified cartilage
Zone of hypertrophy 
Zone of proliferation
Zone of reserve cartilage

Question 20

Name 3 bones that are formed by intramembranous ossification? What type of bones are these?

Answer 20

The skull, scapula, and clavicle - these are all flat bones

Question 21

Once osteoid is calcified (mineralised), what does it become?

Answer 21

Spicules

Question 22

What do spicules combine to form? What are these then replaced by?

Answer 22

Trabeculae - these are replaced by lamellae

Question 23

Are there any blood vessels in the trabeculae of cancellous bone?

Answer 23

No

Question 24

In what shape do osteoclasts remodel bone?

Answer 24

In a ‘cutting cone’ shape

Question 25

Describe the pathology of type I primary osteoporosis. Which group is it most prevalent in?

Answer 25

An increase in the number of osteoclasts, as a result of oestrogen withdrawal - it is therefore most common in post-menopausal women

Question 26

Between what years does bone mass peak?

Answer 26

25-35

Question 27

What is the recommended daily intake of calcium for post-menopausal women?

Answer 27

800 mg/day

Question 28

What is osteoporosis?

Answer 28

Osteoporosis denotes decreased bone strength, due to osteoclasts reabsorbing more bone than osteoblasts are laying down - bones become more brittle and fragile, and an overall decrease in bone mass, to the point it no longer provides adequate strength and support

Question 29

Between what years does bone mass peak?

Answer 29

25-35

Question 30

What is the recommended daily intake of calcium for post-menopausal women?

Answer 30

800 mg/day

Question 31

What is osteoporosis?

Answer 31

Osteoporosis denotes decreased bone strength, due to osteoclasts reabsorbing more bone than osteoblasts are laying down - bones become more brittle and fragile, and an overall decrease in bone mass, to the point it no longer provides adequate strength and support

Question 32

List the stages of intramembranous ossification.

Answer 32

• condensation of mesenchymal stem cells form a nidus
• the mesenchymal cells differentiate into osteoprogenitor cells
• osteoprogenitor cells differentiate into osteoblasts which lay osteoid
• the osteoid mineralises and becomes bone spicules
• bone spicules join to form trabeculae
• trabeculae merge to form woven bone which is replaced by lamellae

Question 33

What are osteocytes?

Answer 33

Osteoblasts that have become trapped in the extracellular matrix they were secreting (osteoid)

Question 34

What is the role of osteoblasts?

Answer 34

They lay down osteoid, an unmineralised bone matrix consisting of type I collagen and ground substance

Question 35

What does osteoid form when it is calcified?

Answer 35

It forms spicules - these aggregate to form trabeculae, which form cancellous (spongy) bone

Question 36

What is the periosteum?

Answer 36

Dense irregular connective tissue that surrounds bone (except at synovial joints)

Question 37

What is the main component of compact bone?

Answer 37

Lamellae

Question 38

What makes up an osteon?

Answer 38

Several sheets of bone lamellae

Question 39

Discuss the distribution of osteocytes in mature and immature bone.

Answer 39

In immature bone, osteocytes (osteoblasts) are fairly randomly arranged as they are still laying down osteoid - in mature bone, the osteocytes have become trapped in their matrix which is now concentric layers of lamellae, which compose an osteon

Question 40

What structure do osteocytes lie in?

Answer 40

Lacuna

Question 41

What is the role of osteoclasts? Are they multi-nucleated?

Answer 41

Osteoclasts are involved with the re-absorption of bone matrix, breaking it down using H+ ions and lysosomes - they are multi-nucleated

Question 42

How do the trabeculae of cancellous bone rice be their nutrients?

Answer 42

They receive their nutrients from the bone marrow that surrounds them

Question 43

Briefly describe haematoma formation.

Answer 43

A bone break causes blood vessels to break - these form a clot called a haematoma - swelling and inflammation occurs - osteoclasts and macrophages remove dead and damaged tissue

Question 44

What is a fibrocartilaginous callus? How does this aid in bone fracture repair?

Answer 44

A procallus forms as as new vessels innervate the haematoma - fibroblasts then produce collagen, while others differentiate into chondrocytes which produce hyaline cartilage - this fibrocartilaginous matrix thus splints the bone fracture

Question 45

How is a bony callus formed from a fibrocartilaginous callus?

Answer 45

The fibrocartilaginous callus is calcified and converted to a bony callus, via endochondral ossification

Question 46

What type of ossification converts a fibrocartilaginous callus to a bony callus in fracture repair?

Answer 46

Endochondral ossification

Question 47

What happens to a bony callus in fracture repair?

Answer 47

It is remodelled, by osteoblasts and osteoclasts

Question 48

Specifically, how does increased osteoclast activity relative to osteoblast activity lead to osteoporosis?

Answer 48

There is incomplete filling of osteoclast absorption bays by osteoblast, meaning bone is not as thick (has a decreased mass) and as such is more brittle, and not as strong

Question 49

What is the difference between osteoporosis and osteomalacia?

Answer 49

Osteoporosis is a result of decreased bone mass, while osteomalacia is a result of the bodies inability to mineralise bone matrix (osteoid), due to a lack of vitamin D

Question 50

What is osteomalacia known as in children?

Answer 50

Rickets

Question 51

What is Perthes Disease?

Answer 51

Perthes disease is a childhood disease affecting the head of the femur, where the blood supply to the growth plate of the bone at the end of the femur is inadequate (avascular blood supply) - this causes necrosis, causing the bone to soften and break down

Question 52

Does type II osteoporosis occur in males or females?

Answer 52

Both