Muscle and Nerve Disease

Question 1

What is the change in energy that occurs in muscle?

Answer 1

Chemical energy -> mechanical energy

Question 2

What are the four factors responsible for the transformation of energy in muscles?

Answer 2

• Structural
• Contractile mechanism
• Excitation-contraction coupling (ion channels)
• Energy system

Question 3

What are the general symptoms for muscle disease?

Answer 3

• Weakness of skeletal muscle 
• Short of breath (respiratory muscles)
• Poor swallow (aspiration)
• Cardiomyopathy
• Cramp, pain, stiffness, myoglobinuria 
(Babies: poor suck / feed / failure to thrive / floppy)

Question 4

What are the investigations used for muscle diseases?

Answer 4

• History and examination 
• Creatine kinase (CK)
• Electromyography (EMG)
• Muscle biopsy;
o Structure 
o Biochemistry 
o Inflammation
• Genetic testing

Question 5

What is an Elcetromyography (EMG)?

Answer 5

Measures muscle response or electrical activity in response to a nerve’s stimulation of the muscle. The test is used to help detect neuromuscular abnormalities.

Question 6

What are the general signs of muscle diseases?

Answer 6

• Wasting / hypertrophy
• Normal or reduced tone and reflexes
• Motor weakness (NOT sensory)

Question 7

What are the two classification of muscles diseases?

Answer 7

Congenital or acquired

Question 8

What are the causes of congenital muscle diseases

Answer 8

Attack components of muscle responsible for energy transformation 
• Structural -> muscular dystrophies 
• Contractile -> congenital myopathies 
• Coupling -> channelopathies
• Energy -> enzymes / mitochondria

Question 9

What are the causes of acquired muscles diseases?

Answer 9

• Metabolic (Ca, K)
• Endocrine (thyroid, adrenal, vit D)
• Inflammatory muscle disease
• Iatrogenic: medication (steroids / statins)

Question 10

What is responsible for the stability of the sarcolemma (membrane) in Myocytes?

Answer 10

Dystrophin protein links intracellular (myocyte) actin to sarcoglycan complex in the membrane, which is anchored to the extracellular matrix around the myocyte.

Question 11

What occurs in muscular dystrophy?

Answer 11

No support from dystrophin protein, so the sarcolemma wilts and becomes unstable. Over time, cellular proteins like creatine kinase (CK) escape the damaged cell, and Ca enters. This leads to cell death.

In the short term, muscle regeneration occurs creating muscle fibres of different lengths. In the long term, it leads to muscle atrophy and infiltrates by fat and fibrotic tissue, leaving muscles very weak.

Question 12

Name five different types of muscular dystrophies

Answer 12

• Duchenne’s MD (no dystrophin)
• Becker’s MD (dystrophin abnormality)
• Faciosacpulohumeral MD
• Myotonic dystrophy (cataracts)
• Limb-Girdle MD

Question 13

What occurs in channelopathies?

Answer 13

Disorders of Ca, Na, K and Cl channels.

Question 14

Name four different types of channelopathies

Answer 14

• Familial hypokalemic periodic paralysis (all Ca, Na, K)
• Hyperkalemic periodic paralysis (Na)
• Paramyotonia congenita (Na)
• Myotonia congenita (Cl)

Question 15

What are the types of metabolic muscle diseases?

Answer 15

• Disorders of carbohydrate metabolism (glycogenosis)
• Disorders of lipid (fatty acid) metabolism
• Mitochondrial myopathies / cytopathies

Question 16

What are two types of inflammatory muscle diseases (myositis)?

Answer 16

• Polymyositis

* Dermatomyositis

Question 17

What are the clinical features of myositis?

Answer 17

• Acute or subacute
• Painful weak muscles
• Characteristic rash of derma.
• Any age

Question 18

What are the investigations used to myositis?

Answer 18

• High CK
• EMG, inflammation and myopathic 
• Biopsy:
- Polymyo.: CD8 cells
- Dermato: humeral-mefiated, B cells and CD4 cells

Question 19

Name a disorder of the neuromuscular junction?

Answer 19

Myasthenia gravis

Question 20

What is myasthenia gravis?

Answer 20

Chronic autoimmune (Type II Hypersensitivity) neuromuscular disease that causes weakness in the skeletal muscle.

B cells produce antibodies which bind to the nicotinic ACh receptors on the sarcolemma, which blocks ACh and so don’t respond to contract signal from CNS.

Question 21

What is the clinical presentation of myasthenia gravis?

Answer 21

Fatigue:
• Limbs
• Eyelids (ptosis)
• Muscle of mastication, swallow
• Talking 
• SOB
• Dipolopia (double vision)

Question 22

What is the investigation of myasthenia gravis?

Answer 22

• ACh receptor antibodies 
• Anti-muscarinic antibodies 
• Neurophysiology:
   - Repetitive stimulation
   - Jitter 
• CT chest (thymoma)

Question 23

What is the treatment of myasthenia gravis?

Answer 23

• Symptomatic: acetylcholinesterase inhibitor (pyridostigmine)
• Immunosuppression (reduce production of autoantibodies)
- Prednisolone
- Steroid saving agent (azathioprine)
• Immunoglobulin / plasma exchange
• Thymectomy (reduces muscle weakness)

Question 24

What types of autoantibodies are produces in myasthenia gravis?

Answer 24

Complement pathway:
Enzymatic cascade to fight bacterial infection -> inflammation -> muscle cell destruction and reduction of ACh receptor on sarcolemma

Muscle specific receptor tyrosine kinase antibodies:
Targets proteins in muscle cells

Question 25

What is another way myesthina gravis can present (secondarily)?

Answer 25

As a paraneoplastic syndrome, so an underlying cancer, like a thymoma, generate an immune response generating autoantibodies.

Question 26

What are the different components of a peripheral nerve?

Answer 26

• Sensory axons
   - Small fibres (pain and temperature)
   - Large fibres (joint position sense and vibration)
• Motor axons 
• Autonomic axons 
• Nerve sheath (myelin)

Question 27

What is the aetiology for peripheral neuropathy?

Answer 27

• Hereditary 
• Metabolic: diabetes, alcohol, renal, B12
• Toxic: drugs
• Infectious: Lyme, HIV, leprosy 
• Malignancy: paraneoplastic 
• Inflammatory demyelinating 
   - Acute – Guillain Barre Syndrome 
   - Chronic – chronic inflammatory demyelinating polyneuropathy

Question 28

What is the clinical presentation of nerve roots disease?

Answer 28

• Myotomal wasting and weakness
• Reflex change
• Dermatomal sensory change

Question 29

What is the clinical picture of individual nerve disease?

Answer 29

• Wasting and weakness of innervated muscle

* Specific sensory change

Question 30

What is the clinical picture of generalised peripheral neuropathy?

Answer 30

Sensory and motor symptoms, usually starting distally and moving proximally

Question 31

What investigations are carried out for peripheral nerve diseases?

Answer 31

• Blood tests
• Genetic tests
• Nerve conduction studies
• Lumbar puncture (CSF analysis)
• Nerve biopsy

Question 32

What are the UMN and LMN signs of amyotrophic lateral sclerosis?

Answer 32

Degeneration of motor neurone 
• LMN = muscle fasciculations, wasting, weakness 
• UMN = increased tone, brisk reflexes  
• No sensory involvement 
• 10% have cognitive decline

Question 33

Give an example of an anterior horn cell/motor disease

Answer 33

Amyotrophic lateral sclerosis (ALS)

Question 34

What is the prognosis of ALS?

Answer 34

• 3-5yrs from symptom onset
• 2-3yrs from diagnosis
• 50% die within 14 months of diagnosis

Question 35

What is the diagnosis of ALS?

Answer 35

• Unique combination of UMN + LMN signs

* EMG

Question 36

What is the management of ALS?

Answer 36

• Supportive: PEG feed, non-invasive ventilation, physio, OT, SALT, care
• Riluzole (delays the onset of ventilator-dependence or tracheostomy)
• Anticipatory / palliative care