Week 1 - Bone Structure, Formation, & Modelling/Remodelling

Question 1

What are the main functions of bone?

Answer 1

1. Support & protects vital organs
2. Muscle attachment
3. Hematopoiesis
4. Mineral Reservoir - Ca & PO4

Question 2

Histologically, what differentiates bone from other tissue?

Answer 2

Mineralized ECM

Question 3

Briefly describe the composition of bone matrix

Answer 3

• 35% organic materials “Osteoid” –> Type I Collagen, glycoproteins, growth factors, cytokines
• 65% inorganic materials –> hydroxyapatite, other elements
• specialized bone cells –> osteoprogenitor, osteoblasts, osteocytes, osteoclasts

Question 4

What is the outer surface of bone called?

- Describe its structure

Answer 4

Periosteum - two layers:

1. Outer layer: connective tissue (fibroblasts, collagen, blood vessels)
2. Inner layer: cellular layer (osteoprogenitor & osteoblast cells) –> has “bone-making potential”

• anchored to the bone by collagen (Sharpey) fibres

Question 5

What is the inner lining of the bone called?

Answer 5

Endosteum

- one cell layer thick (progenitor, matrix-secreting, and bone-lining cells)

Question 6

What are endosteal cells?

Answer 6

osteoprogenitor cells + bone-lining cells

Question 7

What is found in the red marrow of bone?

Answer 7

Blood cells/vessels & supporting reticular meshwork

Question 8

What is found in the yellow marrow of bone?

Answer 8

Mainly fat cells (especially in adults)

Question 9

What are the functions of osteocytes?

Answer 9

• Maintain bone tissue
• Communication (with osteocytes & osteoblasts)
• Regulation of Ca2+

Question 10

Osteoprogenitor cells have the potential to develop into what?

Answer 10

• osteoblasts
• chondroblasts
• fibroblasts

Question 11

What are trabeculae?

Answer 11

Developing bone spicules

Question 12

What is the function of osteoblasts?

Answer 12

Build bone:

• secrete Type I collagen & bone matrix protein
• calcify/mineralize the bone

Question 13

What is the process of osteoblasts becoming osteocytes?

Answer 13

Osteoblasts secrete matrix, then get surrounded in that matrix, then become osteocytes “sentinel cells” which exist in lacuna

Question 14

How/from what does an osteoclast develop?

Answer 14

Common myeloid progenitor
 --> monocyte progenitor
 --> osteoclast precursor
(must be activated by RANKL - from stromal cell or soluble secreted RANKL from activated T-lymphocytes )
 --> inactive osteoclast
 --> resorbing osteoclast

Question 15

What are the stages of resorption by osteoclasts?

Answer 15

1. Migration
2. Attachment & cell proliferation
3. Degradation of cellular matrix
4. Removal of degradation products
5. Apoptosis or return to non-resorbing state

Question 16

What is bone modelling?

Answer 16

Bone changes shape based on mechanical forces or physiological influences

Question 17

What is bone remodelling?

Answer 17

Bone is renewed to maintain bone strength and mineral homeostasis

Question 18

How does PTH act on the bone?

Answer 18

stimulates osteoclasts to resorb bone and liberate Ca2+

- reaction to low blood Ca2+

Question 19

What effect does calcitonin have on the bone?

Answer 19

• STIMULATES osteoBLASTS
• inhibits osteoclasts
• inhibits Ca2+ reabsorption from intestine and in kidney

Question 20

Does estrogen encourage or discourage bone formation?

Answer 20

Encourages it

• lengthens lifespan of osteoblasts
• mediates effects of ROS
• regulates RANKL-induced osteoclast differentiation
• modulates bone-resorbing cytokines

Question 21

What are some bone-resorbing cytokines?

Answer 21

IL-1, IL-6, TNF-alpha, M-CSF

Question 22

What are two types of bone formation/ossification?

Answer 22

1. Intramembranous

2. Endochondral

Question 23

What are the main differences between the two types of bone formation/ossification?

Answer 23

Intramembranous - formed w/out cartilage framework & develops into flat bones

Endochondral - formed onto a cartilagenous model & develops into bones of extremeties and axial skeleton which bear weight

Question 24

What are the stages of intramembranous ossification?

Answer 24

1. Aggregation (of mesenchymal cells)
2. Migration (mesenchymal cells)
3. Formation of 3-D spongy bone network (by osteoblasts)
4. Formation of periosteum

Question 25

What are the steps to Endochondral ossification?

Answer 25

1. Develop Hyaline Cartilage Model
   - mesenchymal cells –> chondrocytes –> secrete matrix
   - interstitial and appositional growth
2. Develop Bony Collar - becomes periosteum
   3 & 4. Death of Central Chondrocytes & Invasion of Blood Vessels
   - chondrocytes hypertrophy & secrete ALP –> calcification
   - blood vessels grow through thin bony collar
3. Formation of Primary Ossification Centre = first site where bone begins to form
4. Growth of Endochondral Bone - get epiphyseal cartilage
   7 & 8. Secondary Ossification Centres
   - ossification centres form at proximal and distal end
   - cartilage is resorbed and replaced by spongy bone
   9 & 10. Skeletal Maturity - epiphyseal closure; only remaining cartilage is on articular surfaces

Question 26

What is an osteon?

Answer 26

The structural unit of bone

• formed around a central Haversion Canal (vascular & nerve supply)
• contains concentric lamellae, osteocytes (lacunae), and canaliculi (which connect the osteocytes)
• grows from the outside in (osteoblasts are central)

Question 27

Trivia question: What is the last bone to stop growing?

Answer 27

Clavicle (usually around age 21)

Question 28

Trivia question: What is the densest bone in the animal kingdom?

Answer 28

An elephant’s tail

Question 29

What is the process for increasing length of a bone?

Answer 29

Proliferation of cartilage at epiphyseal plate

Metaphysis needs to be reshaped to form new diaphysis (b/c head of bone will be further from centre.

Question 30

How is remodelling cortical bone different than remodelling spongy bone?

Answer 30

Cortical bone is arranged in osteons.

Spongy bone is arranged in trabeculae.

Question 31

What are the phases of bone remodelling?

Answer 31

1. Activation (recruiting osteoclasts)
2. Resorption (by osteoclasts)
3. Reversal (switch from resorption to osteoblast activity)
4. Formation (by osteoblasts)

Question 32

What is Wolff’s Law?

Answer 32

Bone will adapt to the loads placed on it

Question 33

Why is bone the “best” tissue in the body?

Answer 33

• it heals itself with its own tissue
• it renews itself with its own tissue
• it responds to the demands placed on it

Question 34

Where are different types of marrow located within bones in an adult?

Answer 34

Yellow marrow (fat) is located in the medullary cavity in spongy bone in diaphysis of long bones.
Red marrow (hematopoietic) is located in flat bones and epiphysis of long bones.

Question 35

What is the physis?

What is another name for this?

Answer 35

Growth plate

aka. epiphyseal plate

Question 36

What is a Salter-Harris Type I Fracture?

Answer 36

No bone injury but growth plate detaches

Question 37

What is a Salter-Harris Type II Fracture?

Answer 37

Fracture proximal to growth plate with a portion of metaphysis breaking off with the head of bone.

Question 38

What is a Salter-Harris Type III Fracture?

Answer 38

Fracture where chunk of epiphysis and physis comes off

Question 39

What is a Salter-Harris Type IV Fracture?

Answer 39

Fracture goes straight through epiphysis, physis, and metaphysis.

Question 40

What is a Salter-Harris Type V Fracture?

Answer 40

CRUSH INJURY! Physis loses functionality.

Question 41

What are cement lines?

Answer 41

Uncalcified matrix with little collagen that forms around osteons/new haversion systems
- cement the new new haversion system to older osteons