Skeletal System

Bone architecture

Cells involved

Endochondral ossification

Intramembranous ossification

Bone pathologies and fractures

100

The roles of cartilage in bone formation

Hyaline cartilage acts as a scaffold, providing a structural support system

100

Identify specific cells in:

- red marrow

- yellow marrow

Identify the stem cells

- red marrow: myeloid cells

- yellow marrow: adipocytes

- stem cells: hematopoietic stem cells, mesenchymal stem cells, and endothelial stem cells

100

What bone shapes use endochondral ossification?

long, short, and irregular bones

100

What bone shape occurs in intramembranous ossification?

flat bones (with the exception to the costal bones (ribs) and sternum)

100

List bone pathologies

- dwarfism

- gigantism

- rickets

- osteomalacia

- metabolic bone disease

200

Direction of stable bone growth formation

Occurs from the ossification zone toward the epiphysis

200

Identify the cells found in the stroma (supportive framework) in yellow bone marrow

- fibroblasts

- macrophages

- adipocytes

- osteoblasts

- osteoclasts

- endothelial cells

200

What do bones that go through endochondral ossification use as a scaffold?

hyaline cartilage

200

What does the center of bone undergoing intramembranous ossification form through?

condensation of mesenchyme on fibrous connective tissue membrane

200

Describe dwarfism

- achondroplastic: long bones stop growing during childhood

- pituitary dwarfism: no growth hormone production by the pituitary gland

300

List zones of bone growth

- Epiphysis

- Resting zone

- Proliferating zone

- Degenerating zone

- Ossification zone

300

What do osteogenic cells in the endosteum, periosteum, or central canals give rise to?

new osteoblasts

300

What models do bones undergoing endochondral ossification develop from?

- perichondrium

- hyaline cartilage

300

How do osteoblasts form spongy bone and periosteum?

Osteoid is laid down between embryonic vessels forming osteoblasts in spongy bone which condenses on the external bone face, becoming periosteum

300

Define gigantism

excessive bone growth

400

What happens during bone remodelling?

- Resorption: osteoclasts resorb calcified matrix

- Reversal: osteoclasts prepare surface

- Formation: osteoblasts replace bone

- Resting: osteoblasts cover with lining cells

400

What do the new osteoblasts do in the endosteum, periosteum, or central canals arise from?

embryonic fibroblasts

400

Why do the costal bones (ribs) and sternum undergo endochondral ossification instead of intramembranous ossification (process for flat bones)?

- Requires a cartilage model for flexibility and longitudinal growth.

400

Briefly describe the process of intramembranous ossification

Growth of osseous tissue within mesenchymal tissue without prior cartilage formation

400

Compare and contrast rickets from osteomalacia

- rickets: lack of calcium in children

- osteomalacia: lack of calcium in adults

- Both result in warping bones

500

Describe the zones of bone growth

- epiphysis: end of the bone mostly composed of spongy bone with an outer layer of compact bone

- resting zone: made of cartilage

- proliferating zone: chondrocytes proliferate

- degenerating zone: older chondrocytes add more hydroxyapatite (hypertrophy & calcification)

- ossification zone: fully mineralized

500

Identify and describe bone cell types.

- osteogenic cells: in endosteum, periosteum, central canals in new osteoblasts

- osteoblasts: mineralize matrix using osteonectin, Ca²⁺, and PO₄^2- from plasma

- osteocytes: mature bone cells trapped in matrix, in lacunae, and connected by gap junctions in projects called canaliculi

- osteoclasts: 3-50 fused stem cells, lie under periosteum, H⁺ pumped into the space between ruffled border and bone, Cl^- follows with a pH of 4 to dissolve minerals, needs acid phosphatase to break down collagen in bone

500

Describe the process of endochondral ossification.

1. Early cartilage model involving periosteum and hyaline cartilage

2. Primary ossification center with osteoblasts and cavities -where chondrocytes swell and die

3. Vascularization, secondary ossification center, primary marrow cavity

4. Birth, enlarged marrow cavity, one epiphysis

5. Bone of child with epiphyseal plate distal

6. Adult bone with osteocytes (mature bone cells) and a sealed epiphyseal plate

500

Describe the process of intramembranous ossification

1. From scratch, mesenchyme condenses into trabeculae

2. Osteoblasts lay down matrix

3. Hydroxyapatite is deposited

4. Osteoclasts carve out marrow cavities and blood vessels grow into holes/cavities

5. Osteoblasts form compact bones at surfaces

6. Periosteum forms

500

Describe metabolic bone disease

- metabolic bone disease: driven by the parathyroid hormone where children (and not adults) experience a deficiency of calcitonin