Bones, joints and cartilage

Question 1

What is the musculoskeletal system?

Answer 1

It makes up the muscles, skeleton and accessory tissues which together allow locomotion and articulation.

Question 2

What are the two main tissues types the skeleton is composed of?

Answer 2

Bone and cartilage.

Question 3

What are the features of bone?

Answer 3

It is long, short (usually cuboidal), flat (slightly curved) and irregular and encased within a fibrous periosteum.

Question 4

What is the most common type of cartilage?

Answer 4

Hyaline.

Question 5

What are the three types of cartilage?

Answer 5

Hyaline, fibro and elastic.

Question 6

What are the features of hyaline cartilage?

Answer 6

It is a growth plate, it is on joint surfaces and can act as a temporary scaffold.

Question 7

What are the features of fibrocartilage?

Answer 7

It has invertebral discs, menisci pads in joint spaces and no perichondrium.

Question 8

What is perichondrium?

Answer 8

A connective tissue that envelops cartilage.

Question 9

What are the features of elastic cartilage?

Answer 9

It makes up the external ear, epiglottis larynx.

Question 10

In what areas would have fibrocartilage?

Answer 10

Areas that need to be able to withstand lots of pressure.

Question 11

What is the general function of bone?

Answer 11

Support, protection, muscle attachment, mineral reservoir, haematopoiesis, lipid storage.

Question 12

What is the general function of cartilage?

Answer 12

Template for bone formation, growth of long bones, smooth articulating joint surface.

Question 13

What is the percentage of weight in bone water?

Answer 13

20-25%.

Question 14

What is the percentage of weight in cartilage water?

Answer 14

75-80%.

Question 15

What makes up bone composition?

Answer 15

65% mineral, 30% type I collagen and 5% proteoglycans/glycoproteins.

Question 16

What makes up cartilage composition?

Answer 16

65% type II collagen, 20% proteoglycans, 10% glycosaminoglycans and 5% glycoproteins.

Question 17

What are the cell types involved in bone?

Answer 17

Osteoblasts, osteocytes and osteoclasts.

Question 18

What are the cell types involved in cartilage?

Answer 18

Chondroblasts and chondrocytes.

Question 19

What are osteoblasts involved in?

Answer 19

Bone forming.

Question 20

What are osteocytes?

Answer 20

They are mature osteoblasts that have become trapped within the bone matrix they produced.

Question 21

What are osteoclasts?

Answer 21

They are involved in bone resorbing - breaking down.

Question 22

How many bones are in the human body?

Answer 22

206.

Question 23

What is the axial skeleton?

Answer 23

The bones of the skull vertebral column and ribs.

Question 24

What is the appendicular skeleton?

Answer 24

Bones of the limbs, pelvis, scapula and clavicle.

Question 25

What are the 4 different types of bone shape?

Answer 25

Flat bone, long bone, short bone and irregular bone.

Question 26

Where are long bones located and give an example?

Answer 26

In the appendicular skeleton e.g. the humerus.

Question 27

What are the features of short bones?

Answer 27

Cube like in shape (equal in length/width and thickness). The primary function is to provide support and stability - they are involved in very little to no movement. Example e.g. hand and feet.

Question 28

What are the features of flat bones?

Answer 28

They are thin and flat and in some cases can be slightly curved. They serve as points of attachment for muscles or to protect the internal organs.

Question 29

What are the features of irregular bone?

Answer 29

Bones that do not fit into any of the other categories. They usually have a complex shape such as bones in the vertebrate and they support the spinal cord and protect it from compressive forces.

Question 30

What is the diaphysis?

Answer 30

The shaft of the long bone.

Question 31

What is the epiphysis?

Answer 31

Spongy bone at either end of each bone.

Question 32

What does spongy bone contain?

Answer 32

Red bone marrow where red blood cells are made.

Question 33

What are the other words for spongy bone?

Answer 33

Cancellous bone, trabecular bone.

Question 34

What is the difference between epiphyseal plates and lines?

Answer 34

Called plates when still growing, called line when stopped growing.

Question 35

What is the metaphysis?

Answer 35

It contains the medullary cavity that is the hollowed out core of the bone. Fatty tissue is found here that is used for energy storage, which is sometimes referred to as the yellow marrow.

Question 36

What does articular cartilage allow?

Answer 36

Joints to move more smooth at the end of the bone.

Question 37

What is the basic functional unit within the long bone?

Answer 37

The osteon.

Question 38

What are concentric lamellae in the osteon?

Answer 38

Rings throughout the osteon that are made up of osteocytes.

Question 39

What does the osteon contain in the long bone?

Answer 39

A canal where the blood vessel is located.

Question 40

Why does the lamellae run in opoosite directions in the long bone osteon?

Answer 40

To help give the bone the ability to withstand impact.

Question 41

What are the features of trabeculae?

Answer 41

They have no blood vessels or central canal and contains lamellae like the osteon but are parallel to each other and do not run in opposite directions.

Question 42

What does lacuna contain?

Answer 42

Osteocytes.

Question 43

What are the spaces in between traceculae important for?

Answer 43

They contain bone marrow which is important in blood cell formation.

Question 44

How does spongy bone obtain nutrients?

Answer 44

Through pores in the bone surface.

Question 45

What are osteogenic cells?

Answer 45

They are highly undifferentiated and have high mitotic activity.

Question 46

Where are immature osteogenic cells found?

Answer 46

In the periosteum and bone marrow.

Question 47

What do osteogenic cells form?

Answer 47

Osteoblasts when they have differentiated.

Question 48

Where are osteoblasts found?

Answer 48

In the endosteum - the growing portion of the bone.

Question 49

What do osteoblasts do?

Answer 49

They do not divide but they synthesise and secrete organic compounds and calcium salts. As the secreted matrix calcifies, the osteoblasts become trapped within the bone matrix and they can then differentiate into an osteocyte.

Question 50

Where are osteocytes found?

Answer 50

Lacuna - surrounded by bone tissue.

Question 51

What are the features of osteoclasts?

Answer 51

They are multinucleated cells derived from the macrophage. They can secrete acid and enzymes to breakdown the bone.

Question 52

What is the word for bone development?

Answer 52

Ossification.

Question 53

Where does the skeleton develop from?

Answer 53

Embryonic mesenchyme.

Question 54

What is the embryonic mesenchyme?

Answer 54

Lossely packed, unspecialised cells in a gel-like matrix that are derived from the embryonic mesoderm.

Question 55

What are condensations?

Answer 55

Small clusters.

Question 56

What happens when mesenchymal cells migrate?

Answer 56

They form condensations.

Question 57

What are the two forms of ossification?

Answer 57

Intramembranous ossification and endochondral ossification.

Question 58

What is intramembranous ossification?

Answer 58

When bone forms directly within the condensation.

Question 59

What is endochondral ossification?

Answer 59

When a cartilage template forms within the condensation and the cartilage anlage is subsequently replaced by bone.

Question 60

Which is the most common form of ossification?

Answer 60

Endochondral ossification.

Question 61

When does intramembranous ossification occur?

Answer 61

Week 6 of gestation.

Question 62

What are the 4 main steps in intramembranous ossification?

Answer 62

There is the development of the ossification centre, calcification occurs, formation of the trabeculae and the development of the periosteum.

Question 63

What is the first (detailed) step of intramembranous ossification?

Answer 63

Cells come together and start aggregating and replicating and then differentiate into osteoblasts. These come together to form the ossification centre.

Question 64

What do osteoblasts produce?

Answer 64

Osteoid - new bone tissue.

Question 65

What happens to the osteoid after a few days?

Answer 65

It begins to harden to form the bone.

Question 66

What is calcification?

Answer 66

When osteoblasts become trapped in the centre and will differentiate into osteocytes. The osteoid will begin to harden

Question 67

What happens after the osteoid is deposited in a random fashion around the blood vessels?

Answer 67

Trabeculae is eventually formed.

Question 68

What happens in the last phase of intramembranous ossification?

Answer 68

The lamellae of compact bone begins to form which replaces the trabeculae on the outside edge.

Question 69

What is the first step in endochondral ossification?

Answer 69

Chondrocytes at the centre of the growing cartilage model enlarge and then die as the matrix calcifies.

Question 70

What is the second step of endochondral ossification?

Answer 70

Newly derived osteoblasts cover the shaft of the cartilage in a thin layer of bones.

Question 71

What is the third step in endochondral ossification?

Answer 71

Blood vessels penetrate the cartilage and new osteoblasts form a primary ossification centre.

Question 72

What is the fourth step in endochondral ossification?

Answer 72

The bone of the shaft thickens and the cartilage near each epiphysis is replaced by shafts of bone.

Question 73

What is the fifth step of endochondral ossification?

Answer 73

Blood vessels invade the epiphysis and osteoblasts form secondary centres of ossification.

Question 74

How does the bone elongate in post-natal growth?

Answer 74

The cartilage expands towards the epiphysis and the bone elongates.

Question 75

What happens at the same time as bone elongation in post-natal growth?

Answer 75

The older cartilage is calcified and replaced by bone which is remodelled resulting in the expansion of the medullary cavity of the diaphysis.

Question 76

What is the net result of the processes that occur in post-natal growth in length?

Answer 76

An epiphyseal plate that remains uniform in thickness through time but is constantly moving toward the epiphysis, resulting in elongation of the bone.

Question 77

How is the length of growing bones increased?

Answer 77

Interstitial growth - the epiphyseal plates gradually lengthen.

Question 78

What happens to older chondrocytes in post-natal growth in length?

Answer 78

They enlarge and the cartilaginous matrix hardens. They are replaced by bone.

Question 79

How does post-natal growth occur in terms of width?

Answer 79

Osteoblasts deposit new bone on the outside of the bone shaft and the osteoclasts breakdown tissue from the medulla to maintain the thickness of the bone.

Question 80

What are the distinct stages of the bone redmodelling cycle?

Answer 80

The reversal step, the bone formation step, the mineralization sep, the resting bone surface step and the resorption.

Question 81

What happens in the resting step of the bone remodelling cycle?

Answer 81

All the lining cells that are inactive osteoblasts are attached to the bone surface. Release of certain substances can activate the lining cells and interact with receptors that trigger pre-osteoclast fusion and form multi-nucleate osteoclasts.

Question 82

What happens in the resorption stage in the bone remodelling cycle?

Answer 82

Osteoclasts gather together and they dissolves the matrix of the bone and release lysosomal enzymes to degrate the organic components of the bone.

Question 83

What happens in the reversal stage of the bone remodelling cycle?

Answer 83

These cells remove the debris produced during resorption - following this there is a release of several growth factors that recruite osteoblasts.

Question 84

What occurs in bone formation step in the bone remodelling cycle?

Answer 84

Once osteoblasts are generated, alkaline phosphate is produced to help form a new bone matrix. The matrix is mineralised with calcium and phosphorus to form new bone and it returns to the resting phase - this process is continually occurring within the body.

Question 85

When does bone mass stop increasing?

Answer 85

Between the ages of 25-30.

Question 86

What is the fracture threshold?

Answer 86

The theoretical bone density below which fractures can occur.

Question 87

What happens to bone mass during the menopause?

Answer 87

It decreases. Osteoclast apoptosis is regulated by oestrogen so when these levels decrease, osteoclasts can live longer and breakdown more bone.

Question 88

What are the main steps in fracture healing?

Answer 88

Hematoma formation, callus formation, callus ossification and bone remodelling.

Question 89

What are the key points in hematoma formation in fracture healing?

Answer 89

Blood is released from damaged blood vessels to form a hematoma.

Question 90

What are they key points in callus formation in fracture healing?

Answer 90

The internal callus forms between the ends of the bones and the external callus forms a collar around the break. The blood clot is replaced by fibril cartilage.

Question 91

What occurs in callus ossification in fracture healing?

Answer 91

Woven, spongy bone replaces the internal and external callus.

Question 92

What occurs in bone remodelling in fracture healing?

Answer 92

Compact bone replaces woven bone and part of the internal callus is removed, restoring the medullary cavity.

Question 93

Where do joints occur?

Answer 93

The joins between two or more bones.

Question 94

What are the three common types of joints?

Answer 94

Synovial joints, fibrous joints and cartilaginous joints.

Question 95

What classifies the type of joint?

Answer 95

The range of motion they exhibit and the types of tissue that holds the bone together.

Question 96

What is the largest and most important type of joint?

Answer 96

Synovial - they allow free movement.

Question 97

What are the six subtypes of synovial joint?

Answer 97

Planar, hinge, pivot, condyloid, saddle and ball and socket.

Question 98

What are uniaxial joints?

Answer 98

Can only move along a single axis.

Question 99

What are biaxial joints?

Answer 99

Move about 2 distinct axis.

Question 100

What are polyaxial joints?

Answer 100

They can move through all 3 axis.

Question 101

What are the basic features of the planar joint?

Answer 101

It only allows movement along the plane of articular surface. It allows the bones of the joint to slide along each other.

Question 102

What are the basic features of the hinge joint?

Answer 102

There is only one motion along the x axis (only flextion and extension).

Question 103

What are the basic features of the condyloid joint?

Answer 103

It is a biaxial joint.

Question 104

What are the basic features of the pivot joint?

Answer 104

It is uniaxial only along the y axis.

Question 105

What are the basic features of the saddle joint?

Answer 105

It is biaxial to form a saddle structure and allows movement along two axis, but this movement is not indepepdent.

Question 106

What are the basic features of the ball and socket joint?

Answer 106

It is round and the only polyaxial joint - most mobile of the joint types.

Question 107

What is articular cartilage?

Answer 107

It is the cartilage covering the ends of the bones. It is a smooth, lubricating surface that resists compression.

Question 108

What are the two layers in the joint capsule?

Answer 108

The outer fibrous layer and the inner elastic (synovial) membrane.

Question 109

What are the features of the fibrous joint capsule?

Answer 109

It is a fibrous layer attached to the periosteum of the articulating bone.

Question 110

What are the features of the inner synovial membrane within the joint capsule?

Answer 110

It is the site of production of synovial fluid.

Question 111

What is a joint cavity filled with?

Answer 111

Viscous synovial fluid - the viscosity increases with applied force.

Question 112

What happens to the joints in rheumatoid arthritis?

Answer 112

The synovial membrane becomes swollen and inflamed and there is bone erosion.

Question 113

What happens in osteoarthritis?

Answer 113

There is thinned cartilage and the bone ends rub together.