NEURO - Neuromuscular diseases

Question 1

What are Neuromuscular Disorders? (what 3 things do they affect?)

Answer 1

Conditions that affect
a) Peripheral nervous system-motor and/or sensory nerves (includes anterior horn and dorsal root ganglion cell disorders )

b) Neuromuscular junction
c) Muscle

Question 2

What are the Symptoms that may suggest a neuromuscular disease?

Answer 2

• Muscle Weakness /Wasting
• Sensory Loss/Numbness
• Fatigue
• Clumsiness
• Poor Balance/Falls
• Diplopia/Blurred Vision
• Dysphagia
• Dyspnoea
• Cramps
• Fasciculation
• Burning / Tingling
• Stiffness

Question 3

Define & give (2) examples of focal neuromuscular disease

Answer 3

Weakness or sensory loss in the territory of a single nerve or nerve root

–Carpal tunnel syndrome-sensory symptoms affecting median nerve supplied digits (thumb, index & middle fingers)

–L5 radiculopathy or peroneal neuropathy causing unilateral foot drop

Question 4

Discuss the distribution of generalised neuromuscular disease symptoms & signs

• motor
• sensory

Answer 4

MOTOR

• Proximal weakness: MYOPATHY, MYASTHENIA
• Distal Weakness- NEUROPATHY, MND (more often than proximal), Myopathy (rarely)

SENSORY
•Indicates a neuropathy-classic “glove & stocking loss”
– (excludes MND, MG or a myopathy)

Question 5

(4) Examination findings of anterior horn cell/motor axon pathology (LMN lesion) on inspection

Answer 5

• Muscle Wasting (focal or generalised): Focal-root, nerve
• Fasciculations (Ant. Horn Cell, benign)
• Foot Drop/Wrist Drop
• Characteristic facies- Myotonic Dystrophy

Question 6

(2) Examination findings of neuromuscular junction pathology on inspection

Answer 6

Ptosis, Strabismus (misalignment of the eyes)

Question 7

(3) Examination findings of sensory pathology on inspection

Answer 7

Trophic changes of skin
Ulcers
Amputation of toes

Question 8

(3) neuromuscular disease causes of diplopia & ptosis

Answer 8

• Myasthenia Gravis
• Ocular nerve palsy
• Thyroid eye disease
• NOT Motor neuron disease

Question 9

(2) neuromuscular disease causes of dysphagia & dysarthria

Answer 9

• Myasthenia Gravis

* Motor neuron disease

Question 10

Describe signs of anterior horn cell diseases

• muscle wasting
• fasciculations
• weakness
• reflexes
• sensation

Answer 10

• muscle wasting: early
• fasciculations: common
• weakness:diffuse, mixed picture
• reflexes: normal/increased
• sensation: normal

Question 11

Describe signs of neuropathy

• muscle wasting
• fasciculations
• weakness
• reflexes
• sensation

Answer 11

• muscle wasting: late
• fasciculations: infrequent
• weakness:distal more than proximal
• reflexes: lost/absent early
• sensation: glove& stocking loss

Question 12

Describe signs of myasthenia gravis

• muscle wasting
• fasciculations
• weakness
• reflexes
• sensation

Answer 12

• muscle wasting: no
• fasciculations: no
• weakness: proximal more than distal. Ptosis, eye muscles fatigues
• reflexes: normal
• sensation: normal

Question 13

Describe signs of myopathy

• muscle wasting
• fasciculations
• weakness
• reflexes
• sensation

Answer 13

• muscle wasting: late
• fasciculations: no
• weakness: proximal more than distal
• reflexes: normal
• sensation: normal

Question 14

(4) Ix if you suspect a neuromuscular problem

Answer 14

•A) Electrophysiology
–Distinguishes neuropathy from myopathy, axonal from demyelinating, sensory vs motor, NMJ Disorder
•B) Laboratory
–FBE, ESR, Vit B12, CXR, RBS, HbA1c, U&E,TFT, LFT, PEP, ANF, ANCA, ENA, HIV, CK, Heavy Metal screen , VDRL, Genetic Tests
•C) Lumbar Puncture
–Elevated protein , no cells in inflammatory demyelinating neuropathies eg GBS,CIDP
•D) Muscle Biopsy , Muscle MRI
–if suspect a myopathy

Reserved for difficult cases:
•E) Nerve Biopsy
•F) MRI of nerve

Question 15

• 55 year old previously well building surveyor
• On no medications
• 6 months ago noticed cramps in both legs worse after exercise
• Increasing leg weakness over past 3 months with left foot drop.
• Had noticed twitching in the muscles of both legs.
• No sensory complaints
• No family history of weakness
• Cranial nerve examination normal. No tongue wasting or fasciculations
• Few scattered fasciculations in upper limb muscles (deltoid and periscapular)
• No muscle wasting or weakness
• Brisk reflexes
• No sensory loss
• Thin leg muscles , fasciculations in thighs only after exercise
• Weakness of hip flexion 4/5 and ankle dorsiflexion 3/5 bilaterally
• Reflexes brisk, plantars downgoing
• Normal sensation
• CK 859 (N: 50-200)
• NCS/EMG- Normal nerve conduction-motor and sensory nerves. Evidence of active and chronic denervation on needle EMG and fasciculations

DDx?

Answer 15

–Amyotrophic Lateral Sclerosis (ALS: most common motor neuron disease. ALS is characterized by stiff muscles, muscle twitching, and gradually worsening weakness due to muscle wasting. This results in difficulty speaking, swallowing, and eventually breathing.)
–Is a Disorder of Upper and Lower Motor Neurons
–Associated in some with Fronto-Temporal Dementia (FTLD)

Question 16

• 35 year old previously well lawyer
• On no medications
• 6 months ago she noticed episodic diplopia, worse towards the end of the day
• Now increasing dyspnoea over past month with exercise
• No sensory complaints
• No family history of weakness
• Mild ptosis (L>R)
• Failure to fully adduct the left eye
• Speech becomes slurred during the latter part of history taking
• Proximal weakness in shoulder girdle muscles not evident initially but appears with repetitive trials

DDx?

Answer 16

Post-Synaptic
–Myasthenia Gravis: Post-Synaptic Abs vs Acetylcholine receptors
–MuSK Myasthenia: Post-Synaptic Abs vs MuSK

Pre-synaptic
–Lambert Eaton Myasthenic Syndrome (LEMS)
•Pre-Synaptic, Ab’s vs Ca2+ channels
•Often associated with neoplasm (50%) small cell lung
–Botulism

Question 17

(6) Clinical Features that should make you suspect Myasthenia Gravis

Answer 17

• History of fatigueability
• Early involvement of extraocular muscles and lid opening muscles
• Dysarthria
• No muscle wasting
• Weakness increasing with repetitive exercise
• Reflexes and sensation unaffected

Question 18

Pathogenesis of myasthenia gravis

Answer 18

• Due to autoantibodies which cross react with the acetylcholine receptor at neuromuscular junctions
• High association with thymic hyperplasia or thymoma

Question 19

Pathogenesis of MuSK Myasthenia

Answer 19

Antibodies binding to MuSK (c.f. antibodies to ACh receptor) cause the subunits of the Ach Receptor to deaggregate and lose function

A subset of myasthenia gravis

Question 20

(4) Diagnostic tests for myasthenia gravis

Answer 20

1. Tensilon Test
   •use short acting AChesterase antagonist -> increased ACh at the junction -> temporary reversed weakness in MG
2. Blood test for Autoantibodies-Ach Receptor, MuSK
3. CT Chest- Thymoma
4. EMG Studies- Rep Stim, Single Fibre EMG, Post-Exercise Facilitation

Question 21

Pathogenesis of myasthenia gravis vs. Lambert-Eaton

Answer 21

Myasthenia gravis: Antibodies against AChR (post synaptic)

Lambert-Eaton: antibodies against presynaptic calcium channels. 50% associated with small cell lung cancer (pre-synaptic)

Question 22

Compare eletrophysiology of myasthenia c.f. Lambert-Eaton

Answer 22

MG: Reduction in the amplitude of the muscle response with repetitive nerve stimulation (using up the ACh available)

C.f. Lambert-Eaton: changes to CMAP (compound muscle action potential) size post exercise

Question 23

Difference b/w myasthenia gravis & Lambert-Eaton from repetitive movements (e.g. making a fist)

Answer 23

Myasthenia gravis: get gradually tired (using up ACh)

Lambert-Eaton: gets gradually stronger (mechanically open up the presynaptic Ca2+ channels)

Question 24

• 65 year old Type II diabetic
• On no medications
• Complains of poor balance and feelings in soles of feet like “walking on cotton wool”
• Poor Balance on walking
• Wide based gait
• Romberg’s positive
• Weakness of dorsiflexion bilaterally
• Absent ankle reflexes
• Stocking loss of pain and temperature sensation with a level where it changes from abnormal to normal just below both knees

Basic causative pathology?

Answer 24

Neuropathy

Question 25

Describe focal mononeuropathies

• (5) types of causes
• (2) Dx

Answer 25

Most common type of neuropathy

Symptoms consistent with anatomy of nerve involved
–Compressive: carpal tunnel syndrome, Ulnar Neuropathy
–Rarely other causes
•Infection: Leprosy
•Inflammatory: Eg: Bell’s Palsy
•Infiltrative: Cancer, amyloid
•Ischaemic: Eg: diabetes (III N palsy

Diagnosis

• Focal symptoms and signs
• NCS/EMG to localise lesion and confirm diagnosis

Question 26

Describe multifocal mononeuropathies (mononeuritis multiplex)

• Px
• (2) types of causes

Answer 26

Multiple peripheral nerves affected rather than generalised
–eg ulnar and tibial

• Almost always ischaemic: Eg: diabetes, vasculitis
• Occasionally infective: Eg: AIDS, CMV, Sarcoid, leprosy

Question 27

Describe generalised peripheral neuropathies

• chronology type
• pathology types
• most common system affected

Answer 27

•Acute or Chronic
•Axonal or Demyelinating
•Sensorimotor most common
–distal weakness and glove and stocking sensory loss

Question 28

Px of acute polyneuropathies

• (3) examples of demyelinating
• (5) examples of axonal pathology

Answer 28

Rapidly increasing diffuse weakness &/or sensory loss occurring over days

•Demyelinating
–Guillain-Barre Syndrome
–AIDS-seroconversion phase
–Lymphoma

•Axonal
–AMAN (acute motor axonal neuropathy), AMSAN (acute motor sensory axonal neuropathy)
–Glue sniffers neuropathy: N-Hexane toxicity
–Vasculitis
–Thiamine Deficiency
–Porphyria

Question 29

Causes of chronic polyneuropathies

• (7) causes of axonal pathology
• (3) causes of demyelinating pathology

Answer 29

Axonal
–Genetic: HMSN Type II
–Metabolic: Diabetes, Hypothyroidism
–Toxin: Alcohol, Drugs, Prescription medication, Heavy Metals (As, Pb)
–Nutritional: thiamine, B12 defc, B6 excess)
–Paraneoplastic: Anti Hu
–Immune: Abnormal paraprotein, Sjogren’s
–Ischaemic: Diabetes, vasculitis

Demyelinating
–Genetic: HMSN Type I, HNPP
–Immune
•Inflammatory: CIDP
•Non-Inflammatory: IgM anti MAG
–Paraneoplastic: POEMS

Question 30

Classic changes on Motor nerve conduction studies (MNCS) for axonopathy

Answer 30

low amplitude CMAPs , normal conduction velocity

Question 31

Classic changes on Motor nerve conduction studies (MNCS) for inherited demyelinating neuropathy

Answer 31

Slow conduction velocity, no block (C.f. conduction block in acquired)

Question 32

Classic changes on Motor nerve conduction studies (MNCS) for acquired demyelinating neuropathy

Answer 32

Slow conduction velocity & conduction block (c.f. no block in inherited)

Question 33

• 18 year old previously well young man
• History of increasing weakness over last 6 months
• Most noticeable getting out of chairs, walking up stairs, using hair dryer
• On no medications
• No sensory complaints
• Family history of weakness
• Does not fluctuate during day
• Waddling gait
• Can’t rise from squat without help
• Proximal weakness in shoulder girdle and hip girdle muscles

Basic causative pathology?

Answer 33

Myopathy

Question 34

(4) pathologies of myopathies

Answer 34

• inherited (dystrophies; Duchenne’s, Becker’s, etc)
• metabolic
• ion channel mutations
• acquired (drugs, endocrine/metabolic, inflammatory)

Question 35

(4) Ix of myopathies

Answer 35

• Electrophysiology: Needle EMG: myopathy, myotonia
• CK: if elevated almost always indicates a myopathy. (Occ: 500-1000 in MND)

•Family History- Genetic Tests
–Myotonic Dystrophy: Triplet Repeat Chr. 19
–Duchenne’s: Loss of Dystrophin gene on X chromosome

•Muscle Biopsy

Question 36

(3) What would you see in muscle biopsy in muscular dystrophies?

Answer 36

• Varying muscle fibre size
• Regenerating and Degenerating fibres
• Increased fibrosis

Question 37

What special stains could you use to identify muscle membrane proteins for Ix of muscular dystrophies?

• Duchenne’s, Becker’s
• Limb Girdle Dystrophies
• Limb Girdle Dystrophies

Answer 37

• Dystrophin- Duchenne’s, Becker’s
• Dysferlin- Limb Girdle Dystrophies
• Sarcoglycans-Limb Girdle Dystrophies

Question 38

(2) What would you see in muscle biopsy in polymyositis?

Answer 38

•Inflammatory cell infiltrate
–T lymphocytes: Polymyositis and Inclusion body myositis
–B lymphocytes: Dermatomyositis

•Degenerating and regenerating muscle cells