L16 - Alterations in skeletal muscle function

Question 1

What are the functions of skeletal muscle?

Answer 1

Posture
Movement
Stability of joints
Heat generation

Question 2

In the remodelling of muscles, which of the following statements are true?

(i) You can increase the number but not size of the muscle fibres
(ii) You can increase the size but not number of muscle fibres

Answer 2

(ii) you can increase the size but not numbers of muscle fibres

Question 3

How often does muscle remodel?

Answer 3

Continuously

Question 4

How long does it take to replace to contractile proteins (actin and myosin) present in muscle fibres?

Answer 4

2 weeks

Question 5

What is the name for when destruction of contractile proteins is greater than replacement?

Answer 5

Atrophy - especially present in the upper limbs of elderly

Question 6

What is the name for when the replacement of contractile proteins is greater than their destruction?

Answer 6

Hypertrophy - muscle increases in (cell) size

Question 7

What effect on muscles due to exercise is there little evidence for?

Answer 7

hyperplasia

Question 8

What are the affects on skeletal muscle of exercise?

Answer 8

metabolic adaption
Increased volume of mitochondria
Increased ATPase
SR swells
Increased density of T tubule systems
Increased Z band width
Increase in number of contractile proteins

Question 9

What is the purpose of the Z line?

Answer 9

Serves as an anchoring point for actin, at either end of the sarcomere

Question 10

What is an example of high resistance exercise?

Answer 10

Weightlifting at high intensity e.g. 70-90% intensity (of 1 repetition max), short duration (3 sets of 8-12 reps), modest frequency (2-3 days per week)

Question 11

What is the effect on muscle of high resistance exercise?

Answer 11

1. Larger muscle - stimulates contractile protein synthesis -> fatter muscle fibres
2. Increased number of cross-link between C proteins

Increased muscle mass and strength may lead to HYPERTROPHY (myosatelite cells)

Question 12

What is an example of an endurance exercise?

Answer 12

Jogging e.g. low intensity for longer duration (30-60 mins) for 5 days a week

Question 13

What is the effect of endurance exercise on skeletal muscle?

Answer 13

Increases its metabolic activity without increasing its size:

1. Stimulates synthesis of mitochondrial proteins
2. Vascular changes -> greater oxygen utilisation
3. Shift to oxidative metabolism (lipids) - therefore reducing the concentration of lipids in blood

Question 14

Give examples of disuse atrophy

Answer 14

Bed rest
Limb immobilisation
Sedentary behaviour

Question 15

What happens in disuse atrophy to the skeletal muscles?

Answer 15

Loss of contractile proteins -> reduced muscle fibre diameter -> loss of power

Question 16

Define sarcopenia

Answer 16

the loss of skeletal muscle mass and strength as a result of ageing

Question 17

When do muscle begin to atrophy?

Answer 17

30+ (slowly at first)

Question 18

Approximately how much muscle mass is lost by age 80?

Answer 18

50%

Question 19

What problems can loss of muscle mass have in the elderly?

Answer 19

1. Problems with mobility - e.g. getting out of chairs, due to weaker muscles
2. Temperature regulation - less heat produced from shivering

Question 20

What is denervation atrophy (neurogenic muscular atrophy)?

Answer 20

Atrophy caused by inhibition of a motor nerve

Question 21

What are signs of motor neuron lesions?

Answer 21

Weakness
Flaccidity (part of body soft and hanging limply/loosely)
Muscle atrophy

Question 22

How long does it take for re-innervation of skeletal muscle?

Answer 22

Re-innervation within 3 months for recovery

Question 23

How does atrophied muscle compare to the look of normal muscle?

Answer 23

Atrophic fibres are small, angulated and brightly eosinophilic. Looks like an apparent increase in the number of nuclei.

Question 24

How can you increase muscle length?

Answer 24

Stretching

Question 25

Why can the length of muscle be reduced?

Answer 25

Immobility

Question 26

How can the length of muscle be changed?

Answer 26

Addition of sarcomeres (?)
Changes in neurology (pain, stretch receptors and stretch reflex)
Viscoelastic properties ( connective tissue alignment)

Question 27

How many fibres can a motor neurone innervate?

Answer 27

Multiple!

Question 28

What is the name of the ACh receptor located on the folded end-plate region of the motor neurone synaptic cleft?

Answer 28

nicotinic receptor

Question 29

What is the affect of ACh binding to nicotinic receptors on the motor end plate?

Answer 29

Binding of ACh opens the sodium channels. Sodium enters the sarcolemma causing local depolarisation that spread along the sarcolemma and down T tubules into the muscle fibres.

Question 30

What causes ACh release at the presynaptic terminal?

Answer 30

Opening of pre-synaptic voltage-dependent calcium channels

Question 31

In what direction does the myosin heads pull the actin?

Answer 31

Towards the center of the sarcomere

Question 32

How is the affect of ACh, at motor end plates, removed?

Answer 32

By acetylcholinesterase - breaks down very quickly

Question 33

What happens to ACh release at high motor neuron firing rates?

Answer 33

ACh release decreases

Question 34

What percentage of ACh receptors need to be fully occupied to get full muscle contraction?

Answer 34

only 25%

Question 35

What is the name of a type of neuromuscular junction disorder?

Answer 35

Myasthenia Gravis

Question 36

What causes Myasthenia gravis?

Answer 36

Autoimmune destruction of the end-pate ACh receptors IgG antibodies to ACHRs)

Question 37

What is the result of the autoimmune destruction of ACHRs in Myasthenia gravis?

Answer 37

Loss of junctional folds at end plate and widening of synaptic cleft

Question 38

What are the primary signs of Myasthenia gravis?

Answer 38

Drooping upper eyelids (ptosis)
Double vision (eyes not moving at the same time)

Question 39

How can you do a basic test for Myasthenis gravis?

Answer 39

Ask an individual to hold their arm out: at first they have enough ACh released to maintain there arm out and then suddenly the arm drops - not from fatigue but from lack of ACh.

Question 40

Why do symptoms of Myasthenia Gravis fluctuate?

Answer 40

It is effected by general state of health, fatigue and emotion

Question 41

How can Myasthenis gravis be treated?

Answer 41

1. Acetylcholinesterase inhibitors (stop ACh breaking down so fast)
2. Immune supressants
3. Plasmapheresis: removal of harmful antibodies from patients serum
4. Thymectomy - linked to thymus (T-lymphocytes)
   Though eventually individual will have to use a wheelchair

Question 42

Describe some ways that toxins can affect the neuromuscular junction

Answer 42

They could affect:
neuronal Na+ channel
Ca2+ channel
muscle Na+ channel
AChR channel
acetylcholinesterase
ACh release

Question 43

What are muscular dystrophies?

Answer 43

Genetic disorders causing progressive muscle weakness and wasting

Question 44

What is the most common type of muscular dystrophy?

Answer 44

Duchenne-type and Becker-type

Question 45

Where does Duchenne and Becker muscular dystrophy affect?

Answer 45

Proximal limbs

Question 46

What in general is the cause of muscular dystrophy?

Answer 46

Protein deficiency

Question 47

What is the cause of Duchenne MD?

Answer 47

Complete absence of the protein dystorphin which normally connects the sarcolemma to actin

Question 48

What is the cause of Becker MD?

Answer 48

Altered truncated form of dystrophin

Question 49

What histological changes do you seen in Duchenne muscular dystrophy?

Answer 49

Absence of dystrophin if stained for
Muscle fibres different sizes
Damaged and dying muscle fibres
Replacement of muscle fibres with fibrous connective tissue and fat

Question 50

Why does the lack of dystrohin in DMD cause damage to muscle fibres?

Answer 50

Dystrophin pulls the sarcolemma alongwith the actin as the muscle fibre contract. If this is missing or damaged muscle fibre contraction can cause tearing

Question 51

What are the consequences of protein abnormality in DMD?

Answer 51

1. Muscle fibres tear themselves apart on contraction
2. Enzyme creatine (phosph)kinase liberated into the serum
3. Calcium eneters cell causing cell death (necrosis)
4. Pseudohypertrophy (swelling) before fat and connective tissue replaces muscle fibres

Question 52

What are is the sign of DMD, which involves an individual using their arms to help extend their legs?

Answer 52

Gower’s sign

Question 53

What is the age of onset of DMD?

Answer 53

Early onset - child falls down often, crawls more than others at playgroup

Question 54

Define contracture

Answer 54

a condition of shortening and hardening of muscles, tendons, or other tissue, often leading to deformity and rigidity of joints

Question 55

Why do individuals with DMD experience contractures?

Answer 55

They have an imbalance between agonist and anatgonist muscles

Question 56

What treatment is used for DMD?

Answer 56

Prednisolone - an anti-inflammatory seems to work even though it is not an inflammatory disease (and anabolic steroids don’t work)

Question 57

What is the current genetic research for MDM treatments?

Answer 57

gene therapy and stem cell therapy to get cells to produce dystrophin

Question 58

What are the two categories of skeletal muscle disorders?

Answer 58

1. Myopathies (primary muscle disease)

2. Denervation (loss of nerve supply to muscle)

Question 59

List three types of myopathies

Answer 59

Muscular dystrophies
Inflammatory myopathies
Myopathies secondary to systemic disease

Question 60

List 5 origins of skeletal muscle problems

Answer 60

Neurological
Metabolic
Immunological
Neuromuscular junction
Muscle tissues itself (proteins, ion channels, inflammation)