Topic 7.1 - Bone Structure (PDF)

Summary

This document details the structure and function of bones, encompassing axial and appendicular skeletons.  It covers various bone types and processes, and the interactions of bone cells.

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Topic 7.1 - Bone Structure
2 large parts of the skeleton
Axial + Appendicular

Define “Axial” part of a Skeleton
Axial: composed of all the bones of the skull, vertebral column (spine), ribs, and
sternum, which form the central line of the body.

Define “Appendicular” part of the skeleton
Axial part + bones of the limbs

What causes the union between axial + appendicular Skeletons

Topic 7.1 - Bone Structure 1
 pectoral girdle + pelvic girdle

Name one long bone
(eg. Femur and Humerus)

Topic 7.1 - Bone Structure 2
 What is the role of a flat bone?

generally used for protection or muscle attachment (i.e. Sternum or parietal)

What is a short bone?

small bones found in some joints (carpal bones in the wrist + tarsal bones in
the ankles).

What is a Sesamoid Bone?
bones embedded within tendons or muscle → used to transfer force (eg.
Patella).

What is an irregular bone?

Topic 7.1 - Bone Structure 3
 bones which do not occupy any of the other categories (eg. Vertebrae).

When does limb development begin during gestation + where do limb buds
appear from?

4th week of gestation

limb buds appear from the lateral plate mesoderm

What is endochondral ossification

converting a cartilage template —> long bone.

Cartillage model forms three ossification centres (2 Epiphysial, 1 Diaphyseal)

Explain the process of endochondral ossification

5 weeks - complete cartilage template for long bones.

8 weeks - Collar of bone starts forming around the middle of the bone

12 weeks - Primary ossification centre develops [Diaphyseal], causing Bone
development.

At birth:

Topic 7.1 - Bone Structure 4
 Secondary ossification centres form at the ends of the bone.

During childhood:

Epiphyseal growth plates develop.

Secondary ossification centres develop into bone

Adulthood:

When full bone length is achieved, epiphyseal growth plates fuse.

Ends of the bones remain capped with cartilage.

What is intra-membranous ossification

production of flat bone from stem cells without a cartilage template.

contributes to the lengthening of long bones through growth at epiphyseal
growth plates.

What are the 4 descriptive regions of Bones

Epiphysis - Ends of long bones, Develop from secondary ossification
centres.

Epiphyseal Plate - Growth site in length, Contains cartilage in actively
growing bones.

Metaphysis: Junction where the Diaphysis meets the epiphysis.

Diaphysis:: Shaft of a long bone, Represents the primary ossification centre

Topic 7.1 - Bone Structure 5
 Name 3 types of Bone cells

osteoblasts, osteocytes & osteoclasts

What are osteoblasts?

Cells Responsible for bone formation (makes osteocytes)

Secrete collagen + other components for building mineralised bone matrix.

What are Osteocytes?

Mature bone cells from osteoblasts.

Topic 7.1 - Bone Structure 6
 Regulate osteoblasts and osteoclasts in response to mechanical signals.

What are Osteoclasts?

Large cells responsible for bone resorption (Break down/remove old bone
tissue.)

Essential for bone remodelling, repairing microdamage, and regulating
calcium levels.

What are the 2 types of osseous tissues

Compact bone: Bony lamellae are strongly packed together with no space in
between them → more dense and rigid
Cancellous/Spongy/Trabecular bone: Irregular bone trabeculae are loosely
distributed so that there is space (bone marrow) in between them.

what are haversian systems (osteons)
Haversian Systems (Osteons):

Rings around a central canal with blood vessels + nerves for osteocytes.

Strengthens bones, enhances resistance and durability

Topic 7.1 - Bone Structure 7
 2 forms of bone extracellular matrix

Organic Substance:

collagen → flexibility and strength to bone.

glycoproteins and proteoglycans aid in organization and stress
resistance.

Inorganic Substance:

Gives bone hardness and resistance to compression.

Primarily hydroxyapatite crystals, a calcium phosphate compound.

Explain “Bone Remodelling”
Remodelling = process that involves the removal of old bone tissue (resorption)
and the formation of new bone tissue.
Osteoclasts - cells responsible for breaking down and removing old or damaged
bone tissue

osteoblasts - synthesizing and laying down new bone

Explain the 4 stages of fracture repair

Inflammatory Phase (Hematoma):

Blood clotting + Inflammatory response begins.

Topic 7.1 - Bone Structure 8
 Specialized cells (immune cells and debris-cleaning cells) rush to the
injury site.

Soft/Fibrocartilaginous Callus Formation:

Fibroblasts and Chondrocytes create a soft callus composed of cartilage
and collagen —> Stabilizes the fracture site.

Hard/Bony Callus Formation:

Osteoblasts produce new bone tissue, replacing the cartilaginous callus
—> Form a hard bony callus made of woven bone.

Remodelling:

Woven bone is remodelled —> Transforms into lamellar bone, which is
stronger + more organized

Define Joints and state the 3 types of joints

Anatomy of a Synovial Joint

Topic 7.1 - Bone Structure 9
 Synovial Liquid
– Highly Movable E.g., knee, shoulder

main mean of union → articular capsule, a type of cuff that embrace the
joint, attaching to both articulating bones

Bones of the Upper Limb

Topic 7.1 - Bone Structure 10
 Bones of the Lower Limb

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