Musculoskeletal System

Question 1

What are the two meanings of bone?

Answer 1

1) Bone the organ
- organs are made up of different types of tissue
2) Bone the tissue
- One of the tissues found in the bones of the skeleton.

Question 2

What are the 6 functions of the skeletal system?

Answer 2

1) support
2) protection of vital organs
3) movement - muscle must pull on bone
4) Calcium and phosphorous reserve
5) Haemopoiesis
6) Fat storage

Question 3

Why must calcium be tightly regulated?

Answer 3

It is used for many things, e.g. muscle contraction of heart, hormone and enzyme production.

Question 4

What percentage of calcium is stored in the bones?

Answer 4

99% in the bones

Question 5

What is the function of haemopoietic tissue? What colour is it?

Answer 5

Makes RBC’s, WBC’s and platelets.

Red

Question 6

What are the two components of bone marrow?

Answer 6

Haemopoietic tissue and fat storage tissue

Question 7

What is the phosphorous found in bone used for?

Answer 7

To build many substances e.g. ATP

Question 8

Describe the bone marrow at birth compared to that of an adult.

Answer 8

All bone marrow is red at birth.

In adults, red bone marrow tends to be in the axial skeleton.

Question 9

What are the two components of the adult skeleton?

Answer 9

Axial and Appendicular

Question 10

How many bones are in the axial and appendicular skeleton?

Answer 10

80 (some paired)

126 (all paired)

Question 11

What are the differences in function between the axial and appendicular skeleton?

Answer 11

Axial: support/protection and haemopoiesis
Appendicular: movement and fat storage

Question 12

Describe the overall sections of a long bone in order.

Answer 12

Epiphysis, metaphysis, diaphysis, metaphysis, epiphysis

Question 13

Relate the type of forces to the requirement for plates, rods and beams in the epiphysis and diaphysis.

Answer 13

Epiphysis: Forces perpendicular so plates, rods, and beams are needed for support.
Diaphysis: Forces are parallel so no need for plates, rods, and beams.

Question 14

What are plates, rods and beams formed by?

Answer 14

Trabeculae

Question 15

What are trabeculae covered by?

Answer 15

Endosteum

Question 16

List the layers of the epiphysis from outside to inside.

Answer 16

Articular cartilage, compact bone, spongy bone

Question 17

What is another name for spongy bone?

Answer 17

Trabecular bone

Question 18

Why is there no periosteum covering the articular cartilage?

Answer 18

It would just be sheared off by the other bone.

Question 19

What is found between trabeculae?

Answer 19

Medullary cavity with bone marrow inside.

Question 20

Where are blood vessels found in the epiphysis? What is their function?

Answer 20

Inside compact bone and between trabeculae.

RBC’s, WBC’s and platelets can enter blood.

Question 21

Give the layers of the diaphysis from outside in.

Answer 21

Periosteum, compact bone, endosteum, medullary cavity

Question 22

What is the periosteum?

Answer 22

Outer fibro-cellular sheath surrounding the bone. Made up of dense irregular connective tissue, rich with blood vessels and nerves.

Question 23

Describe the compact bone of the diaphysis.

Answer 23

Forms a cylinder

Very light and strong

Question 24

How does the compact bone of the diaphysis compare to that of the epiphysis?

Answer 24

D: thick
E: thin

Question 25

Describe the endosteum of the diaphysis.

Answer 25

Thin, inner fibro-cellular layer lining medullary cavity.

Question 26

What does the medullary cavity of the diaphysis contain in the appendicular skeleton vs the axial skeleton vs the front of the face?

Answer 26

Appendicular: yellow bone marrow
Axial: red bone marrow
Front of face: air (must be lighter)

Question 27

What is another name for the perforating fibres between the periosteum and the compact bone? What are they produced by?

Answer 27

Sharpey’s fibers - very strong

Collagen produced by periosteum blends with the collagen on the bone.

Question 28

Where are the blood vessels found in the diaphysis?

Answer 28

In the periosteum and compact bone.

Question 29

Bone is a type of __________ _________ tissue

Answer 29

Specialised connective

Question 30

What are the two components of connective tissue?

Answer 30

ECM and cells

Question 31

What is ECM made up of?

Answer 31

Fibres (organic): 1/3 of the dry weight
Ground substance (inorganic): 2/3 of the dry weight

Question 32

In bone, what fibres are present? What is their purpose?

Answer 32

Collagen fibres type I and IV. 
Resists tension (stretching and pulling)

Question 33

What is found in the ground substance?

Answer 33

Water and long chain carbs
Hydroxyapatite Ca10(PO4)6OH
Resists compression (squeezing and crushing)

Question 34

What type of cells are found in bones? What are the functions of each type?

Answer 34

Osteogenic: cell reserve
Osteoblast: bone formation
Osteocyte: bone maintenance
Osteoclast: bone destruction

Question 35

What does tension plus compression add up to?

Answer 35

Torsion (twisting)

Question 36

What are osteogenic cells also known as? What is the precursor, location, and function?

Answer 36

Osteoprogenitor cells.
Precursor: unspecialised stem cells (mesenchyme = embryonic connective tissue)
Location: surface of bone in the periosteum and endosteum.
Function: normally dormant, but can divide and supply developing bone with bone-forming cells.

Question 37

What is the precursor for osteoblasts? What are they located? What is their function?

Answer 37

Osteogenic cell
Location: usually in a layer, under the peri or endosteum. Wherever new bone is being formed.
Function: synthesis, deposition and mineralisation of osteoid.

Question 38

What is osteoid?

Answer 38

Not a cell.
The organic extracellular matrix (mainly collagen) of bone, synthesised by osteoblasts prior to mineral deposition. Collagen accounts for 70% of osteoid with the remainder consisting of proteoglycans and other proteins.
This precursor matrix is eventually infiltrated with bone salts (hydroxyapatite) and this process is called calcification. Water is displaced gradually, so it becomes difficult for full calcification.
This makes the bone strong but also dense, thus nutritive fluids cannot diffuse freely through it.

Question 39

What is the precursor to osteocytes? Where are they located? What is their function?

Answer 39

Osteoblast
Location: trapped within lacunae inside bone. Osteocytes can communicate with neighbouring cells through their long cellular processes and canaliculi.
Function: bone tissue maintenance.

Question 40

How do osteoclasts come about? Where are they found? What is thei function?

Answer 40

Fusion of monocyte (WBC) progenitor cells forming a syncitium.
Location: at sites where bone resorption is occurring.
Function: secretes acid and hydrolytic enzymes to dissolve the mineral and organic components of bone. Exposes collagen using acid and breaks down protein with enzymes.

Question 41

What is the function of the clear zone?

Answer 41

Stops acids and enzymes from getting out from under the bone.

Question 42

What must happen for a child’s bone to grow into an adult’s bone?

Answer 42

Appositional growth: the bone has to be remodelled. This involves appositional growth and bone resorption. We don’t want the bone to get too thick and heavy.

Question 43

How does appositional growth occur? Give an example of when this might occur? What does it occur in response to?

Answer 43

Bone is put down onto an existing layer.
A long bone growing in diameter.
In response to mechanical damage.

Question 44

Describe the process of bone resorption.

Answer 44

Monocyte precursor cells leave blood vessel and start to fuse on bone surface. Osteoclasts form on surface and start dissolving. A tight seal is formed between the osteoclast and the surface of the bone. Osteoclasts eventually die by apoptosis and resorption stops. They have a short life. Blood vessels grow into new space.

Question 45

What is Howship’s lacuna?

Answer 45

A pit formed when an osteoclast dissolves bone.

Question 46

What happens when growth of the bone stops?

Answer 46

Osteoblasts can convert back into osteogenic cells or die. Osteoid becomes fully calcified.

Question 47

Why can’t the tissue bone grow by interstitial growth?

Answer 47

It is too rigid

Question 48

Where does interstitial growth occur? What occurs during interstitial growth?

Answer 48

In softer tissues that can deform.

Involves cells dividing, secreting more extracellular matrix, and growing the tissue from within.

Question 49

What is appositional growth? Why is this the only way bone can grow?

Answer 49

Adding new bone onto an existing surface.

Bone is designed to resist deformity.

Question 50

What does bone-remodelling involve?

Answer 50

The two processes, appositional growth and bone resorption, which occur throughout the skeletal system, often completely independent of each other.

Question 51

What process do long bones grow by?

Answer 51

Endochondral ossification

Question 52

How does oestrogen affect bones? Why does osteoporosis occur?

Answer 52

It is needed for osteoclast regulation.

Osteoporosis occurs at menopause because of decline in oestrogen. Affects spongy bone first.

Question 53

As osteoblasts deposit new bone onto a surface, they do so in ________ or _______.
Describe the placement of collagen fibres. What effect does this have?

Answer 53

Layers or sheets
The collagen fibres are typically put down in the same direction within a layer, but can alternate up to 90 degrees out of phase between the layers. This enables bone to withstand forces from different directions, making it significantly stronger. Increases strength without increase of volume.

Question 54

What are the two forms of lamellar bone?

Answer 54

Spongy and compact

Question 55

What is another name for mature bone?

What is another name for immature bone?

Answer 55

M: Lamellar bone
I: Woven bone

Question 56

Describe woven bone.

Answer 56

Wavey collagen, low density, random arrangement, not very strong. Most turns into lamellar bone after 3 years. The only place it is found in the adult skeleton is when a bone is broken.

Question 57

What is another name for spongy bone?

Answer 57

Cancellous or trabecular bone

Question 58

What percentage of the skeleton is spongy bone? What does this change depend on?

Answer 58

20%

Changes depending on loads placed on bones throughout the skeleton.

Question 59

Does spongy bone have osteons?

Answer 59

NO

Question 60

Where is spongy bone mostly found?

Answer 60

In the epiphysis

Question 61

What is the size of a trabecula of spongy bone?

Answer 61

Less than 0.4 mm because it is rare to find osteoclasts more than 0.2 mm away from a blood vessel as it will not get enough nutrients

Question 62

What is the turnover of spongy bone compared to compact bone? Why so?

Answer 62

5 times due to increased surface area over which osteoclasts can move.

Question 63

What is another name for compact bone?

Answer 63

Cortical bone

Question 64

What is a by-product of appositional growth in compact bone?

Answer 64

Circumferential lamellae

Question 65

What is the normal thickness of compact bone? Why is it thicker than spongy bone?

Answer 65

Variable thickness, normally greater than 0.4mm

Able to be thicker because it has a lattice of blood vessels.

Question 66

Describe the formation of primary osteons.

Answer 66

Primary osteons are formed around an existing blood vessel on the surface of bone (normally in the periosteum). This occurs when the bone is growing and new bone tissue is being deposited onto an existing surface.

Question 67

Describe the 4 steps required for appositional growth to form a primary osteon.

Answer 67

1) Osteoblasts in the active periosteum either side of a blood vessel put down new bone forming ridges.
2) As the bone continues to grow, these ridges come together and fuse, forming a tunnel around the blood vessel. The tunnel is now lined with endosteum.
3) The osetoblasts in the endosteum build concentric lamellae onto the walls of the tunnel. The tunnel is slowly filled inward toward the centre, forming a new osteon.
4) The bone continues to grow outwards as the osteoblasts in the periosteum build new circumferential lamellae. Osteon formation repeats as new periosteal ridges fold over another blood vessel.

Question 68

What are secondary osteons created inside?

Answer 68

The existing bone tissue

Question 69

What is the first step for secondary osteon formation.

Answer 69

1) Osteoclasts form and gather in an area that needs to be remodelled. this group of osteoclasts starts boring its way through the existing bone. This area is called the cutting cone and creates a tunnel inside the existing bone. This is how secondary osteons differ to primary osteons. In primary osteons, the tunnel is created on the surface of a bone as it grows.

Question 70

What is the second step for secondary osteon formation?

Answer 70

After the tunnel has been created, osteoblasts move in and line the tunnel wall. They form the new active endosteum and start depositing osteoid onto the walls of the tunnel.

Question 71

What is the third step of secondary osteon formation?

Answer 71

Layer upon layer of new concentric lamellae are put down. A blood vessel will also grow into the tunnel to suppply the active osteoblasts. This area is called the closing cone and moves along behind the cutting cone. Some of the osteoblasts are trapped in the newly deposited bone and become osteocytes.

Question 72

What is the fourth step of secondary osteon formation?

Answer 72

Eventually, the tunnel is reduced to the size of a typical Haversian canal. The remaining osteoblasts lining the Haversian canal either die or become bone lining cells.

Question 73

How fast does boring of a tunnel through bone occur?

Answer 73

1mm/20 days

Question 74

What is the unit of spongy bone vs compact bone?

Answer 74

S: trabecula
c: osteon (Haversian system)

Question 75

Compare and contrast the process of unit formation in spongy bone and compact bone.

Answer 75

S: grows outwards into the medullary cavity.
C: grows inwards into the Haversian canal.

Question 76

Where is spongy bone and compact bone found?

Answer 76

S: inside bones, epiphysis of long bones
C: the outer shell of bones, diaphysis of long bones

Question 77

What is the blood supply for spongy bone and compact bone?

Answer 77

S: Blood vessels in the medullary cavity
C: Blood vessels within the Haversian and Volkmann’s canals

Question 78

What are the differences in function between spongy bone and compact bone?

Answer 78

S: To supprt the outer cortex of compact bone in areas where forces occur from multiple directions. This is to help reduce the weight of the bone. Rapid turnover of Ca and P.
C: To provide a strong dense shell of bone on the outside, thickening in areas that are exposed to large forces.

Question 79

How can we distinguish between a primary and secondary osteon?

Answer 79

If tunnel is grown, primary osteon

If tunnel is bored, secondary osteon

Question 80

Define joint.

Answer 80

A joint or articulation is any point at which two or more bones interconnect. This union will be a compromise between the need to provide support and the need to remain mobile.

Question 81

What is another name for joint?

Answer 81

Arthrosis

Question 82

What are the functions of joints?

Answer 82

1) Movement
2) Force transmission
3) Growth

Question 83

What is the stiffness of a joint due to?

Answer 83

Abnormal adhesion and rigidity of the bones of a joint.

Ankylosis is due to increased synarthrosis.

Question 84

Define each of the three joint types based of functional classification. State their stability level, movement, and location.

Answer 84

Synarthrosis: immovable joint, high stability, low movement, axial skeleton, force transmission and growth
Amphiarthrosis: slightly movable, medium stability, medium movement, both axial and appendicular skeleton, support function
Diarthrosis: freely movable, low stability, high movement, appendicular skeleton, injured the most, most abundant.

Question 85

What is synarthrosis and amphiarthrosis held together by?

Answer 85

A block of tissue

Question 86

Describe synovial joints.

Answer 86

Most common
Unlike the other types of joints found in the human body, synovial joints are not restricted by the properties of a specific tissue or tissues which hold the ends of the bones tightly together. Apart from the articular capsule, the ends of the articulating bones in a synovial joint are mostly free. This permits a wide range of motion, but can also introduce instability.

Question 87

What is articular cartilage? What is its function? How thick is it?

Answer 87

A specialised type of hyaline cartilage (a type of connective tissue). Its primary function is to protect the ends of bones that come together to form a joint. This connective tissue forms a thin layer. typically 1-7 mm thick, which is attached to the bone. Articular cartilage can absorb shock, support heavy loads, and provide a smooth, near frictionless surface when combined with synovial fluid.

Question 88

What causes arthritis?

Answer 88

The degradation of the articular cartilage.

Question 89

What is meant by CoF?

Answer 89

Coefficient of friction

Higher means lots of friction.

Question 90

What percentage of the articular cartilage is made up of cells? What type of cells? Describe their function, location and properties.

Answer 90

5%
Chondrocytes
- Build, repair, and maintain cartilage
- Live in spaces called lacunae
- Depending on the zone, they occur by themselves or in groups called nests

Question 91

What percentage of the articular cartilage is made up of extracellular matrix? What makes up the ECM?

Answer 91

95%

• Water and soluble ions (75%): the fluid phase that can move in and out of the tissue.
• Fibres (75% dry weight)
• Glycosaminoglycans (GAG)
• Proteoglycans (PG)

Question 92

What are the functions of the fibers found in the articular cartilage?

Answer 92

• Provides the structural integrity to the tissue.
• Specific zonation patterns
• Part of the solid phase that is fixed inside the tissue.

Question 93

What type of fibres are present in the ECM of articular cartilage? How are they different to the other type?

Answer 93

Collagen (mainly type II)

They are thinner and more flexible than type I

Question 94

What makes up the ground substance?

Answer 94

Water and soluble ions, glycosaminoglycans, and proteoglycans.

Question 95

Give examples of glycosaminoglycans and proteoglycans. Outline their functions.

Answer 95

GAG: Hyaluronic acid, Chondroitin sulphate, keratin sulphate
PG: Aggrecan
Provides the swelling and hydrating mechanism for the proper function of cartilage. Also part of the solid phase that is fixed inside the tissue.

Question 96

Does cartilage contain blood vessels, nerves or lymphatics? What nourishes chondrocytes?

Answer 96

NO

Chondrocytes are nourished by diffusion only

Question 97

Describe the loading cycle of articular cartilage.

Answer 97

• Negative charges on the repeating disaccharide units attract positive ions into the cartilage from the joint space. This increases the ion conc. in the matrix.
• Creates osmotic pressure/ gradient, which draws water into the matrix. The cartilage begins to swell with the influx of water.
• As the cartilage swells, the collagen is placed under increasing tension. Eventually, the swelling force = tensional forces, and the cartilage stops swelling. This known unloaded equilibrium.
• When a load is introduced, the fluid phase (water and positive ions) is squeezed out of the cartilage back into the joint space and synovial fluid.
• The loss of the fluid phase reduces the volume of the cartilage (creep). This pushes the negative charges closer together. Eventually, the compressive load will be supported by the solid phase and the repulsion of the negative charges. The cartilage will stop shrinking = loaded equilibrium

Question 98

Is cartilage hydrophilic or hydrophobic?

Answer 98

Hydrophilic

Question 99

Distinguish between the area of contact for loaded and unloaded cartilage.

Answer 99

Unloaded: small area of contact
Loaded: deforms so load is spread out over a larger area

Question 100

What are all synovial joints surrounded and enclosed by? Why must this be suitably loose? What is it perforated and reinforced by?

Answer 100

A joint capsule
The capsule forms a sleeve around the joint connecting the ends of the contributing bones. Must be suitably loose to permit the joint to function properly. The articular capsule is perforated by vessels and nerves and may be reinforced by ligaments.

Question 101

Where does the articular capsule become tight?

Answer 101

At the extreme limits of the natural range of joint motion, thereby protecting the joint from damage caused by excessive movement.

Question 102

What is a ligament?

Answer 102

Dense regular connective tissue connecting bone to bone

Question 103

What are the two layers of the articular capsule?

Answer 103

An outer fibrous layer and an inner synovial membrane

Question 104

Describe the fibrous layer.

Answer 104

Outer layer of dense connective tissue. Variable in thickness. The fibrous layer is made up of parallel but interlacing bundles of white collagen fibres that are continuous with the periosteum of the bone. Poorly vascularised but richly innervated, which is why it hurts to sprain joints.

Question 105

What are capsular or intrinsic ligaments?

Answer 105

Thicker sections of the articular capsule. These ligaments, along with the rest of the capsule, resist tensional forces and are designed to check excessive and abnormal joint movement.

Question 106

What is the function of the fibrous layer of the articular capsule?

Answer 106

Supports the synovial membrane and protects both the synovial membrane and the whole joint.

Question 107

Describe the synovial membrane.

Answer 107

Inner layer of loose connective tissue of variable thickness. Lines all non-articular surfaces inside the joint cavity, up to the edge of the articular cartilage.

Question 108

What can the articular cartilage be further split into?

Answer 108

Two histological layers:

1) Intima
2) Subintima

Question 109

Describe the intima of the synovial membrane.

Answer 109

Thin and normally only 1-3 cells thick. These cells are loosely called synoviocytes and secrete some of the components found in synovial fluid.

Question 110

Describe the subintima of the synovial membrane.

Answer 110

Highly vascular and contains macrophages, fat cells and fibroblasts which help maintain and protect the articular capsule during normal movement.

Question 111

What is the joint cavity? What is it filled with?

Answer 111

The small area between the articulating surfaces, while the peripheral margins of the joint cavity are filled by the collapsing and in-folding of the synovial membrane (villi).This potential space is filled with a fluid called synovial fluid.

Question 112

What does the amount of synovial fluid not exceed?

Answer 112

The amount of fluid inside a healthy joint cavity rarely exceeds 1 mL, even in large human joints such as the knee.

Question 113

What is synovial fluid? What is found in it?

Answer 113

A clear or slightly yellowish fluid that is an ultrafiltrate of blood plasma that leaks out of the vessels in the synovial membrane subintima. Other compounds (e.g. hyaluronic acid) not found in the blood filtrate are secreted by the synoviocytes. Free cells are also found in low concentrations. These cells tend to be monocytes, lymphocytes, macrophages, and synoviocytes.

Question 114

What are the functions of synovial fluid?

Answer 114

Joint lubrication, shock absorption, chondrocyte metabolism, and overall joint maintenance.

Question 115

What is muscle tissue designed to do?

Answer 115

Specifically to move different parts of the body by pulling on another tissue.

Question 116

What are the 5 functions of muscles?

Answer 116

1) Movement
2) Stability
3) Communication
4) Control of body openings an passages
5) Heat production

Question 117

Describe the movement function of muscle.

Answer 117

Movement of bones in skeletal system (skeletal muscle), gut contents and lymph transportation (smooth muscle), and circulating blood (cardiac muscle).

Question 118

How does muscle pay a role in stabilising joints and maintaining posture?

Answer 118

Muscle is especially important in stabilising those joints that have a wide range of movement. In these joints, stability (normally provided by the ligaments and/or the articular capsule) has been replaced with active contraction of the surrounding muscles.

Question 119

How is muscle used for communication

Answer 119

Facial expression, body language, writing and speech

Question 120

How is muscle used for controlling the body openings and passages?

Answer 120

Some ring-like muscles (sphincters) help control the admission of light (eyelids and pupils) and food and drink (muscles around the mouth) that enter our bodies. The elimination of waste is also controlled by the urethral and anal sphincters (smooth and skeletal muscle). Normally, the passage of food and liquid through the gut is also controlled by smooth muscle.

Question 121

Skeletal muscle can produce as much as ___% of our body heat. What is this heat used to maintain?

Answer 121

85%

Maintains the body at 37 degrees celsius for normal function.

Question 122

What does the ramp up when cold?

Answer 122

Tonus contraction, which causes shivering

Question 123

What is a bone avulsion?

Answer 123

A break in the osteotendinous junction

Question 124

What are tendons made up of?

Answer 124

Dense regular connective tissue

Question 125

What is epimysium?

Answer 125

Dense irregular connective tissue surrounding the perimysium and the entire muscle. Defines the outer boundary of muscle.

Question 126

What is perimysium?

Answer 126

Dense irregular connective tissue surrounding the fascicles.

Question 127

What is endomysium?

Answer 127

Loose irregular connective tissue surrounding myocytes. Contains the nerves and capillaries that supply the myocytes.

Question 128

What is a myocyte/myofibre? What does it contain? What is its size?

Answer 128

A muscle fibre/cell. A bundle of myofibrils. Has many nuclei, sarcoplasm and sarcolemma. Highly variable in diameter, 10 fold difference.

Question 129

Describe the sarcoplasm and sarcolemma.

Answer 129

Sarcoplasm: cell cytoplasm, area between myofibrils. Contains mitochondria, glucose, lipids, myoglobin and is therefore highly active and aerobic.
Sarcolemma: cell membrane. Highly conductive. Allows for quick and even conduction and thus uniform contraction.

Question 130

What are myofibrils? Describe their size.

Answer 130

Contractile organelles made up of many sarcomeres containing z line/band, A band (dark) and I band (light). Striated. 1 micrometer

Question 131

List the layers of the not muscle and muscle in order

Answer 131

Not muscle: Skin, superficial fascia (subcutaneous layer), deep fascia
Muscle: Epimysium, muscle, perimysium, fascicle, endomysium, myocyte, sarcolemma, sarcoplasm, myofibril

Question 132

What is deep fascia?

Answer 132

A wrapping of dense connective tissue (regular and irregular) covering the deep structures of the body. It underlies the skin and the subcutaneous tissue.

Question 133

What is muscle grouped into?

Answer 133

Muscles that are supplied with the same nerves or have a similar action can be found grouped together in regions called compartments.

Question 134

What is the outer sleeve and walls of the compartments of muscle made up of? What are the walls or septa of muscle compartments referred to as? What happens when investing fascia comes into contact with

Answer 134

Deep fascia
Investing fascia (e.g. intermuscular septa, interosseous membranes)
Where investing fascia comes into contact with bone, it fuses with the periosteum.

Question 135

Describe the movement of epimysium in different areas.

Answer 135

In most areas, the outer layer of muscle can move and glide under the deep fascia. In other areas, the deep fascia is part of the muscle tendon and can act as an attachment point for the muscle.

Question 136

What is increase in muscle size due to?

Answer 136

Increase in muscle size is due to increases in the size of fibres (hypertrophy) rather than any increase in fibre numbers (hyperplasia. The myocytes themselves will increase in diameter with more myofibrils packed into each muscle cell. Typically, the effect will be an increase in overall muscle size and strength, but the same number of cells will still contribute to the contraction.

Question 137

What factors can stimulate skeletal muscle hypertrophy?

Answer 137

• Repetitive contraction of muscles to near maximal tension (heavy resistance training)
• Use of anabolic steroids

Question 138

What are anabolic steroids?

Answer 138

Variants of the male sex hormone testosterone, which have been synthesised by pharmaceutical companies. These steroids increase protein synthesis through their interactions with specific target tissues that include skeletal muscle and bone.

Question 139

What are the side effects of anabolic steroids?

Answer 139

Anabolic steroids don’t just target muscle and bone tissue, they can also effect other tissues which can have side effects such as: acne, hair loss, excess hair gain in the wrong places, liver failure, shrivelled testes, infertility, increased susceptibility to coronary artery disease (increased absorption of cholesterol), and extreme mood swings (roid rage).

Question 140

What is meant by atrophy?

Answer 140

Decrease in the size of myocytes. Muscular atrophy occurs when muscles are not used or stimulated by motor neurones. For example, when a limb is immobilised in a cast for a period of time or if a muscle is paralysed. It also occurs as part of the complex pathology in disease such as heart failure, diabetes, cancer and AIDS.

Question 141

When does normal loss of muscle mass start? When is the rate accelerated? By what age is 40% of muscle mass lost? What happens to the lost muscle?

Answer 141

At the age of 20 years
After the age of 50
By the time we reach 80 years
Muscle is replaced by fat and connective tissue.

Question 142

What is muscle loss due to? When can atrophy be reversed?

Answer 142

Some of the loss is due to individual fibre shrinkage i.e. atrophy. Some is due to individual fibre loss i.e. hypoplasia. If atrophy is not permitted to proceed too far, it can normally be reversed.

Question 143

What is another name for satellite cells?

Answer 143

Myoblasts

Question 144

Where are satellite cells found?

Answer 144

They lie beside muscle fibres outside the sarcolemma but within the same basement membrane.

Question 145

Why aren’t myocytes able to divide by mitosis?

Answer 145

Because myocytes are large multinucleated cells, created when myoblasts fused together into a syncitium. They are too large to divide by mitosis.

Question 146

What are the satellite cells able to do?

Answer 146

They are the only cells in muscle that can divide and fuse with other satellite cells and myocytes to repair any damage that may have occurred. While the number of muscle fibers is more or less set at the time of birth, satellite cells do have a limited ability to replace muscle fibres that die from old age or injury.