8) Muscular Dystrophies and Metabolically Mediated Muscular Weakness

Question 1

Myopathies

Answer 1

• Characterized by PROXIMAL muscle weakness
• Neuropathies usually are DISTAL
• Actual preservation of or apparent increase in muscle bulk
• Preservation of deep tendon reflexes

Question 2

Myopathy etiologies

Answer 2

• Hereditary
• Metabolic
• Inflammatory

Question 3

Muscular dystrophies presenting in childhood

Answer 3

• Duchenne
• Becker
• Emery-Dreifuss
• Fascioscapulohumeral
• Limb-girdle
• Congenital

Question 4

Inflammatory myopathies presenting in childhood

Answer 4

• Dermatomyositis

- Polymyositis (rarely)

Question 5

Congenital myopathies presenting in childhood

Answer 5

• Nemaline
• Centronuclear
• Central core

Question 6

Normal motor milestones

Answer 6

• 4 mo. – reaches for toys
• 5 mo. – rolls over
• 6 mo. – sits alone
• 8 mo. – crawls
• 7-9 mo. – stands alone
• 12 mo. – walks alone
• 15 mo. – walks well
• 18 mo. – runs
• 3 yrs. – heel to toe gait

Question 7

Muscle diseases laboratory evaluation

Answer 7

• Elevation of CK – MM band (high concentrations within sarcoplasm)
• Aldolase
• Lactate dehydrogenase
• AST
• ALT
• Acute phase reactants?

Question 8

Acute phase reactants in muscle disease lab eval

Answer 8

• ESR
• C-reactive protein
• Fibrinogen

Question 9

Duchenne muscular dystrophy

Answer 9

• Most commonly known
• X-linked recessive disorder
• Translocation and/or deletion on X chromosome
• Affects normal production of dystrophin

Question 10

Duchenne muscular dystrophy incidence

Answer 10

• 13-33/100,000 live males

- 1/3 cases – new mutation

Question 11

Dystrophin

Answer 11

• Component in dystrophin-associated glycoprotein complex
• Located between sarcolemma and myofibrils
• Supports muscle fiber length

Question 12

Absence of dystrophin leads to

Answer 12

• Cytoskeleton disruption
• Sarcolemmal instability
• Abnormal calcium homeostasis

Question 13

Duchenne muscular dystrophy clinical presentation

Answer 13

• Delayed motor milestones
• Symptoms evident at 3-5 yrs.
• Proximal muscle weakness
• Clumsy gait
• Gower’s Sign
• Calf pseudohypertrophy
• Classic presentation
• Calves are weak***

Question 14

Duchenne muscular dystrophy symptoms age 7 to 8

Answer 14

• Muscle contractions (achilles tendon, iliotibial band)
• Loss of muscle strength
• Proximal lower extremities
• Neck flexors

Question 15

Duchenne muscular dystrophy symptoms age 10

Answer 15

• Assisted ambulation

- Use of wheelchair

Question 16

Duchenne muscular dystrophy life expectancy

Answer 16

• Most pass away in their 20s
• Pulmonary infections
• Congestive heart failure

Question 17

Duchenne’s muscular dystrophy serology

Answer 17

• ↑ CK levels – 20-100x normal
• ↑ Troponin I
• ↑ SGOT and SGPT
• Genetic Testing

Question 18

Duchenne’s muscular dystrophy muscle biopsy

Answer 18

• Muscle fibers of varying size
• Small groups of necrotic and regenerating fibers
• Muscle fibers replaced with connective tissue and fat
• Staining for dystrophin absent

Question 19

Duchenne MD treatment

Answer 19

• No known cure for DMD
• Treatment aims to control symptoms to improve quality of life
• Glucocorticoids can slow the loss of muscle strength: Prednisone and Deflazacort
• Benefits outweigh side effects
• Significant increase in strength, in muscle function and pulmonary function

Question 20

Becker’s muscular dystrophy

Answer 20

• X-linked dystrophinopathy

- Benign form of pseudohypertrophic muscular dystrophy

Question 21

Becker’s muscular dystrophy incidence and onset

Answer 21

• 1/10 of Duchenne’s
• Dystrophin levels – 30-80% of normal
• Rarely diagnosed before age 5
• Walking continues beyond age 15

Question 22

Beckers MD characterized by

Answer 22

• Progressive proximal limb weakness
• Scoliosis
• Muscular contractures
• Fatigue

Question 23

Becker’s MD diagnosis

Answer 23

• Muscle weakness
• ↑ Creatine kinase -MM
• EMG

Question 24

Becker’s MD treatment (physical)

Answer 24

• Exercise and PT (minimize abnormal, painful joint position
  Slow down development of scoliosis)
• Rehabilitation devices (maintain mobility and independence)
• Respiratory care
• Surgery (reduce muscle contractures)
• Gene therapy

Question 25

Emery-Dreifuss muscular dystrophy characteristic triad

Answer 25

• Early contractures of the elbow, ankle, and posterior neck
• Progressive weakness and wasting
• Cardiomyopathy

Question 26

Progressive weakness and wasting in Emery-Dreifuss MD

Answer 26

• Proximal upper extremity
• Distal lower extremity
• Scapulohumeroperoneal muscle wasting

Question 27

Cardiomyopathy in Emery-Dreifuss MD

Answer 27

• Cardiac conduction defect

- May not coexist with detectable muscle weakness

Question 28

Types of Emery-Dreifuss MD

Answer 28

• X-linked

- Autosomal dominant form

Question 29

Emery-Dreifuss X-linked form

Answer 29

• STA gene on Xq28
• Codes for nuclear membrane protein – emerin
• Complete absence of emerin in most patients

Question 30

Emery-Dreifuss autosomal dominant form

Answer 30

• LMNA gene at 1q21
• Codes for inner nuclear membrane proteins
• lamin A and lamin C

Question 31

Lamins

Answer 31

• Provide structural stability to the cell nucleus
• Define its shape
• Provide the scaffolding for the proteins required for nuclear functions
• Emerin is an important nuclear membrane protein

Question 32

Fascioscapulohumeral muscular dystrophy

Answer 32

• Autosomal dominant inheritance
• Deletion on chromosome 4
• Slowly progressive
• Intellectual function remains intact

Question 33

Fascioscapulohumeral MD involves muscles of

Answer 33

• “Mask-like” facial appearance
• Shoulder girdle
• Proximal upper extremities

Question 34

Fascioscapulohumeral MD onset

Answer 34

• 3rd to 4th decade

- Earlier onset = poorer prognosis

Question 35

Fascioscapulohumeral MD diagnosis

Answer 35

• CK levels – normal to mildly elevated

- EMG and biopsy

Question 36

Fascioscapulohumeral MD classic findings

Answer 36

• Facial weakness
• Inability to whistle
• Sullen expression
• Shoulder girdle weakness
• Scapular winging
• Sloping shoulders
• Serratus anterior,
  trapezium, and rhomboids
• Upper extremity
• Biceps and triceps late in disease process

Question 37

Fascioscapulohumeral MD other findings

Answer 37

• Lower extremity
• Drop foot – early on
• Peroneals and anterior tibialis
• Assisted ambulation
• Exophthalmos
• Mild labile hypertension

Question 38

Fascioscapulohumeral MD treatment

Answer 38

• Palliative
• Scapular stabilization
• Ankle foot orthoses

Question 39

Limb-Girdle dystrophy

Answer 39

• Autosomal transmission
• Genetic defect: abnormal dystrophin-glycoprotein complex
• Sarcolemmal instability and muscle cell necrosis occur

Question 40

Limb-Girdle dystrophy muscles affected

Answer 40

• Shoulder and pelvic girdle
• Proximal muscular weakness
• Facial involvement minimal

Question 41

LGMD-1

Answer 41

• Autosomal dominant transmission
• Second to third decade
• Currently five identified types

Question 42

LGMD-2

Answer 42

• Autosomal recessive
• Late first to second decade
• Currently nine identified types
• Slow course over 20 to 30 years

Question 43

LGMD onset and course

Answer 43

• LGMD-1
• LGMD-2
• Cardiomyopathy
• Pulmonary insufficiency

Question 44

LGMD treatment

Answer 44

• Physical therapy

- Cardiac and pulmonary care

Question 45

Myotonic dystrophy

Answer 45

• Most common adult form of myopathy
• Autosomal dominant disorder
• Three recognized forms

Question 46

Myotonic dystrophy DM1 (Steinerts disease)

Answer 46

• Chromosome 19

- Common adult form

Question 47

Myotonic dystrophy DM2 (proximal myotonic myopathy)

Answer 47

• Chromosome 3

- Juvenile form

Question 48

Congenital myotonic dystrophy

Answer 48

• Chromosome 19

- Infantile variety

Question 49

Myotonic dystrophy presentation

Answer 49

• The failure of voluntary muscles to relax
• Spasms and stiffening
• Irregularities in the ion channels of muscle membranes
• Steadily progressive disease
• Distal weakness and myotonia (trouble relaxing a muscle)

Question 50

Myotonic dystrophy incidence and onset

Answer 50

• 1/8000 – 10,000

- Life span - ~ 6 decades

Question 51

Myotonic dystrophy clinical findings

Answer 51

• Intellectual impairment – 80% of patients
• Subcapsular cataracts
• Muscular weakness:
• Distal extremity muscles
• Facial and neck → muscles hatchet face
• Premature frontal balding

Question 52

Myotonic dystrophy diagnosis

Answer 52

• Presence of cataracts
• Cardiac conduction defect
• First degree heart block
• Weak respiratory muscles
• ↑ Creatine kinase
• Muscle biopsy
• Fiber I atrophy

Question 53

Myotonic dystrophy treatment

Answer 53

• Aimed at managing symptoms and minimizing disability

- Rehabilitation medicine

Question 54

Myotonic dystrophy medications

Answer 54

• Anti-diabetic drugs to normalize blood sugar levels
• Anti-myotonic drugs (such as mexiletine) when myotonia impairs normal activities
• Nonsteroidal anti-inflammatory drugs to manage muscle pain

Question 55

Myotonia Congenita

Answer 55

• Autosomal dominant: Thomsen Disease
• Autosomal recessive: Becker Disease
• Slight weakness
• No cardiac involvement

Question 56

Myotonia congenita treatment

Answer 56

• Anti-myotonic drugs
• Phenytoin
• Quinine
• Procainamide
• Acetazolamide
• Tocainide

Question 57

Distal muscular dystrophy variants

Answer 57

• Early onset

- Late onset

Question 58

Early onset distal muscular dystrophy

Answer 58

• Sporadic with distal leg weakness
• Occurs in 2nd to 3rd decade
• Marked ↑ CK

Question 59

Late onset distal muscular dystrophy

Answer 59

• Autosomal dominant
• Begins in legs – AT and calf muscles
• Cardiomyopathy
• Welander form – affects the small muscles of hands

Question 60

Role of thyroid gland

Answer 60

• Absorbs dietary iodine
• Synthesizes T3 (thyrotropin): 20% of normal thyroid hormone
• Synthesized T4 (thyroxine): 80% of normal thyroid hormone

Question 61

Pituitary gland

Answer 61

• Controls the thyroid
• Produces TSH which is regulated by T3 and T4 levels
• End result: control of cellular metabolism

Question 62

Thyroid regulated metabolism

Answer 62

• Thyroid gland – T3 and T4 – regulate metabolism
• Pituitary gland – TSH – regulate T3 and T4 synthesis
• Hypothalamus – TRH – regulates pituitary

Question 63

Hyperthyroidism effects on muscles

Answer 63

• Occasional muscle weakness

Question 64

Hypothyroidism effects on muscle

Answer 64

• Muscle pain and weakness
• Creatine kinase may be elevated
• May have muscular hypertrophy
• Delayed recovery of deep tendon reflex responses

Question 65

Hyperparathyroidism effects on muscles

Answer 65

• May be associated with muscle weakness
• “Pain” is secondary to underlying bone disease
• Possible muscular hypertrophy
• Hyperreflexia

Question 66

Hypoparathyroidism effects on muscles

Answer 66

• Neurological signs consistent with tetany
• Must rule out polymyositis due to high CK
• Hyporeflexia

Question 67

Adrenal disorders

Answer 67

• Endogenous elevations may produce myopathy

Question 68

Pituitary disorders

Answer 68

• Acromegaly – secondary muscle enlargement

- Pan-hypopituitaryism associated with thyroid and parathyroid disorders

Question 69

Vitamin deficiencies

Answer 69

• Mal-absorption disorders

- Vitamin E and D muscular myopathies

Question 70

Autoimmune mediated myopathies

Answer 70

• Non-suppurative (no exudate) inflammatory process
• Weakness of shoulder and pelvic girdle
• Polymyositis, dermatomyositis
• May be associated with viral infection

Question 71

Polymyositis

Answer 71

• Necrosis from activated T cells and macrophages

Question 72

Dermatomyositis

Answer 72

• Necrosis from B lymphocytes and T4 cells

Question 73

Inflammatory myopathies classification

Answer 73

• Group I = primary idiopathic polymyositis
• Group II = primary idiopathic dermatomyositis
• Group III = dermatomyositis or polymyositis associated with neoplasm
• Group IV = Childhood dermatomyositis or polymyositis associated with vasculitis
• Group V = dermatomyositis or polymyositis associated with collagen vascular disease

Question 74

Inflammatory myopathy diagnostic criteria

Answer 74

• Progressive and symmetrical proximal muscle weakness
• Increased concentration of serum muscle enzymes
• Abnormal EMG findings
• Abnormal muscle biopsy(It’s the gold standard)
• Cutaneous skin changes → dermatomyositis

Question 75

Primary idiopathic polymyositis incidence

Answer 75

• ~1/3 of all myopathies
• Female to males – 2:1
• Distal muscles spared in 75% of cases
• This is a proximal myopathy

Question 76

Primary idiopathic polymyositis clinical presentation

Answer 76

• Proximal limb weakness
• Shoulder girdle involvement
• Pain in buttocks and thighs (achy, tender with deep palpation)
• “Inflammatory” symptoms

Question 77

Primary idiopathic polymyositis histopathology

Answer 77

• Muscle fibers in stages of necrosis and regeneration
• Focal and endomysial inflammatory cell infiltrate
• T-lymphocytes (T8+) with macrophage invade non-necrotic fibers
• Destroyed fibers are replaced with fat and fibrous tissue

Question 78

Primary idiopathic polymyositis characteristic skin changes

Answer 78

• Skin changes may precede muscle weakness

- Amyopathic dermatomyositis –skin findings only

Question 79

Primary idiopathic polymyositis autoantibodies

Answer 79

• Jo-1 – pulmonary involvement

- Mi-2 – 25% of all patients (specific but not sensitive)

Question 80

Primary idiopathic dermatomyositis skin findings

Answer 80

• Gottron’s papules
• Heliotrope rash
• Violaceous to dusky color
• Periungual erythema
• Photosensitive poikiloderma (Shawl sign)
• Hyperkeratosis of palms and fingers

Question 81

Gottron’s papules (dermatomyositis)

Answer 81

• Diffuse erythema over bony prominences
• Often telangiectatic
• Often pruritic

Question 82

Violaceous to dusky color (dermatomyositis)

Answer 82

• Symmetrical distribution

- Involves periorbital area

Question 83

Periungual erythema (dermatomyositis)

Answer 83

• Nail-fold capillary changes
• Raynaud’s phenomenon
• Hypertrophy of the cuticle

Question 84

Hyperkeratosis of palms and fingers (dermatomyositis)

Answer 84

• Darkened horizontal lines on lateral and palmar aspect of fingers

Question 85

Primary idiopathic dermatomyositis systemic changes

Answer 85

• Inflammatory myopathy (arthralgias, arthritis or both)
• Pulmonary disease (proximal dysphagia of pharynx and esophagus, aspiration pathology)
• Cardiac involvement (not common, carries more severe prognosis)

Question 86

Polymyositis or dermatomyositis associated with neoplasm

Answer 86

• Myositis may be paraneoplastic syndrome
• 20% of inflammatory myopathies
• Skin and muscle changes are consistent with these myopathies
• Malignancy is most typical of that for patients age group
• CK levels are normally elevated (normal levels suggest increased possibility of malignancy)

Question 87

Childhood polymyositis or dermatomyositis with vasculitis

Answer 87

• Dermatomyositis more common
• 8 to 20% of immune myopathies
• Etiology unknown

Question 88

Childhood polymyositis or dermatomyositis with vasculitis clinical presentation

Answer 88

• Vasculitis in skin and muscles
• Gastrointestinal involvement
• Abnormal accumulations of calcium deposits (calcifications) in muscle and skin tissues
• Necrotizing lesions of the skin
• Ischemic infarction of kidneys, GI tract and brain are possible

Question 89

Childhood Polymyositis or Dermatomyositis with Vasculitis diagnosis

Answer 89

• MRI
• Muscle biopsy
• Blood tests
• Nailfold capillaroscopy

Question 90

Nailfold capillaroscopy

Answer 90

• Causes abnormal swelling and distortion of the blood vessels around the nails
• This finding suggests active disease
• Examine the nailbeds by using a lighted magnifying tool

Question 91

Childhood polymyositis or dermatomyositis with vasculitis treatment

Answer 91

• Goal is to minimize inflammation, improve function, and prevent disability
• Corticosteroids
• Corticosteroid-sparing agents
• Cyclosporine, azathioprene, tacrolimus, hydroxychloroquine, mycophenalate mofetil, anti TNF drugs
• Skin protection
• PT
• Speech therapy
• Diet assessment

Question 92

Polymyositis or dermatomyositis with associated connective tissue disease

Answer 92

• Overlap syndromes
• Polymyositis has been associated with other connective-tissue diseases, including the following:
• Systemic lupus erythematosus
• Rheumatoid arthritis
• Mixed connective-tissue disease
• Sjögren syndrome
• Scleroderma