Myopathies/Muscular Dystrophies

Question 1

Myopathy is a disease of _____ and _____

Answer 1

single muscle fiber and supporting connecting tissue

Question 2

____ does not exclude myopathy

Answer 2

normal biopsy

Question 3

When performing EMG, do on muscles with _____ weakness

Answer 3

mild/mod (motor 3/5)

Question 4

Perform EMG on ____ side of the body

Answer 4

one side, biopsy will be performed on the other

Question 5

What are the three main types of muscle fibers?

Answer 5

Ia - slow, red ox (dark, high density, smallest diameter)
IIA - intermediate (dark color, high density, large diameter)
IIB - Fast twitch (pale color, fatiguable, low density, large diameter) glycolytic

Question 6

EMG assess which type of fibers?

Answer 6

1A - slow red oxidative fibers

Question 7

Steroid myopathy affects ____ so emg will be normal

Answer 7

Type II

Question 8

____ is the reduction in size of single muscle fiber. Caused by (4)

Answer 8

Atrophy
- loss of innervation
- immobilization
- intrinsic muscle disease
- excess corticosteroid use

Question 9

What is fiber group typing?

Answer 9

loss of innervation causes dying back phenomenon with reinnervation which can cause the muscle fiber to change from Ia to IIb

Question 10

_____ is a disease of a small muscle fiber that has arrest in normal maturation process.
example?

Answer 10

hypotrophy

congenital myopathy

such as Nemaline rod myopathy, central nuclear myopathy, fiber type disproportionate myopathy, central core myopathy

Question 11

____ is increase in single fiber volume; can be normal or pathologic
Causes? (4)

Answer 11

Hypertrophy
- T1 increase in size with endurance training
- T2 increase in progressive resistive exercises
- anabolic steroids increase growth hormone which cause increase in T2
- Pseudohypertrophy - fat infiltration seen in DMD. Muscle volume is not increased in size.

Question 12

____ is damage to connective tissue (endomysium) or muscle fiber
- examples (2)

Answer 12

necrosis
- rhabdomyolysis
- polymyositis

will have myoglobinuria

Regeneration depends on extent of insult as well as if supporting structures are intact (basal lamina, connective tissue)

Restorative capacity of muscle tissue with endomysium intact is pretty good.

Question 13

Myopathy presents as ___ weakness and muscle ____

Answer 13

proximal weakness > distal weakness
muscle pain (acquired)
Muscle cramping

Question 14

Myopathy on NCS:
1. Sensory NCS:
2. Motor NCS:
- Latency: _____
- Amplitude: _____
- Conduction velocity: ____
- F wave/H reflex: _____

Answer 14

1. Normal
2. • Normal
   • decreased
   • normal
   • normal

Question 15

Myopathy on EMG
- insertional activity:
- spontaneous:
- voluntary activity: (5)

Answer 15

I: normal, increased, or decreased
S: can be normal or none
- acute: PSW/Fibs
- chronic: CRD
- Myotonia in Pompe’s disease or acid maltase deficiency

V:
- polyphasic
- increased serations
- decreased amplitudes
- short duration ****
- early recruitment (“increased”)

Question 16

Why are the classic findings on EMG voluntary activity apparent?

Answer 16

All looks this way due to collateral sprouting and increased components of a single motor unit. Muscle fibers close together in new motor units.

• polyphasic
• increased serations
• decreased amplitudes (200-600microvolts)
• short duration ****
• early recruitment (“increased”)

Question 17

what is the most consistent and most sensitive finding with myopathy on EMG?

Answer 17

mean duration of the potential is decreased - mean duration based off non-polyphasic potentials

Question 18

How do you discern cramp vs contracture on EMG?

Answer 18

Cramp will have normal muscle fibers firing spontaneously and rapidly with shortening of the muscle

Contracture: silent on EMG, classic example: Mcardles disease/myophosphorylase deficiency: contractures silent on EMG

Question 19

Duchenes MD:
1. ____ inheritence.
2. _____ gene
3. Incidence
4. prevalence
5. ____ are inherited
6. pathology:

Answer 19

1. X-linked recessive inheritence
2. affects short p21 locus of short arm of x-chromosome
3. 1 in 2500 males
4. 1 in 1800
5. 2/3 are inherited
6. lack of dystrophin (<10% of normal)

Question 20

_____ is a protein located in skeletal, cardiac, and brain tissue that binds to the sarcolemma, providing structure and stability to the membrane. Lack of protein results in lack of integrity during contraction of muscle, which results in membrane tears. Regeneration occurs, but is futile because tears recur. Ultimately symptoms occur around age ____

Answer 20

dystrophin

5.

Question 21

CK levels in DMD are ____ of normal

Answer 21

10 times greater. Aldolase levels increased.

Question 22

Disease?

• clumsy walkers, difficulty with stairs, toe walking, pseudohypertrophy of calves, Gower’s sign.

stop walking by _____
Death by ____
due to ____

Answer 22

DMD

10-12 yoa
20 yoa
cardiac

Question 23

What will you see on muscle bx for DMD

Answer 23

variation of muscle fiber size and splitting. some fibers are hypertrophic, some hypotrophic, some have muscle fiber splitting.

Question 24

Becker’s MD:
1. _____ inheritence
2. Incidence:
3. Prevalence:
4. _____ protein
5. pathology?

Answer 24

X-linked recessive
5/100,000
2.4/100,000
some normal dystrophin (greater than 10%)
less than normal but present

Question 25

Beckers MD
- walk until ____
Mean life expect ____
Cog: ____
Cardiac ____
CK?

Answer 25

20 yoa
mid-30s
cognition normal
cardiac less severe
CK and aldolase 5 x greater than normal.

Question 26

Facioscapulohumeral dystrophy
1. inheritence
2. incidence
3. prevalence
4. age onset:
5. lab abnormalities:

Answer 26

1. AD
2. 4 in 1 million
3. 1 in 20,000
4. second decade
5. CK and FSH 5 x greater than normal

Question 27

Disease?

• facial muscles affected. Difficulty with eye closure (bell’s phenomenon), bilateral scapular winging (one greater than the other - not symmetrical), straight clavicles, extra axial fold, cant abduct arms greater than 90 degrees. Popeye arms (small arms, large forearms, b/c affects biceps, triceps, pecs)
  Hyperlordotic gait
  bilateral trendelenburg gait (waddling)

Answer 27

facioscapulohumeral dystrophy (FSH)

Question 28

Where is the genetic defect in FSH dystrophy?

Answer 28

long arm Ch 4 - 4g35

Question 29

What is coats syndrome

Answer 29

severe profound sensori-neural hearing loss and retinal telengectasias along with FSH

Question 30

Life expectancy in FSH dystrophy?

Answer 30

normal
20% become WC bound.

Question 31

Limb Girdle MD
1. difficult to diagnose bc ____
2. onset:
3. inheritence?
4. men ____ women
5. CK:

Answer 31

1. variable presentations, changes over time
2. 2nd or 3rd decade with weakness
3. AD or AR
4. men = women
5. 20-50 x normal with AR
   <5 x normal with AD

Question 32

Scapuloperoneal MD
1. Weakness in _____
2. ______ appearing legs
3. _____ is most commonly affected (muscle)
4. Inheritence
5. CK?
6. Symmetric?

Answer 32

1. peroneal muscles with associated scapular weakness
2. inverted wine bottle b/c thighs are big with small calves
3. tib ant (foot drop)
4. AD
5. normal or slightly abnormal
6. asymmetry possible

Question 33

disease?

• bilateral ptosis, may be asymmetric. Dysphagia. Onset in 50s or later. Inhereted via AD.

Answer 33

occulopharyngeal muscular dystrophy

Question 34

Myotonic dystrophy is also known as ____

Answer 34

steiners disease

Question 35

In myotonic dystrophy, symptoms start ____. CK ____ early.
Begins in ____
first symptoms?

Answer 35

distal and progress proximally (different from other myotonias)

CK normal early then increases
adolescence to early adulthood

muscle stiffness/cramping

Question 36

What is clinical myotonia?

Answer 36

hit with a reflex hammer and note muscle tightening/shortening with slow relax (not immediate)

Question 37

What is electrical myotonia?

Answer 37

waxing/waning sounds like a dive bomber/motor cycle

Question 38

Myotonic dystrophy:
1. Inheritence
2. Die by _____ at age ____
3. Incidence
4. Prevalence
5. Typical clinical picture

Answer 38

1. AD
2. cardiopulmonary; 50-60yoa
3. 13/100,000
4. 2-5/100,000
5. temporal wasting, high forehead, inverted face, ptosis, inverted V palate, thin neck, frontal balding

Question 39

1. genetic abnormality in myotonic dystrophy
2. ____ are common eye finding
3. cardiac?

Answer 39

1. Chromosome 19 (CTG repeat)
2. cataracts
3. conduction block, arrythmias

Question 40

Name the 7 most common muscular dystrophies

Answer 40

1. Duchennes
2. Beckers
3. Facioscapulohumeral
4. limb-girdle
5. scapuloperoneal
6. oculopharyngeal
7. myotonic disorders (myotonic dystrophy, non-dystrophic ((inherited and acquired)) including (a) myotonia congenita
   - thompsons disease
   - becker type
   - autosomal w/ painful myotonic contractions
   and (b) paramyotonia congenita.

Question 41

Describe the different non-dystrophic inherited and acquired myotonias:
A
1.
2.
3.

B:

Answer 41

A Myotonia Congenita
1. Thompsons
2. Beckers
3. Autosomal w/ painful myotonic contractions

B: para-myotonia congenita

Question 42

Thompsons Myotonic congenita (group of non-dystrophic inherited and acquired myotonias)

1.inheritence
2. onset at _____
3. Clinically will have ___ and ____ myotonia
4. _____ phenomenon

Answer 42

1. AD (named after danish physician)
2. 1-6 yoa
3. • percussion myotonia (myotonia with delayed painless muscle contraction with slow release)
   • Action myotonia (shortening of the muscle with forceful activity (gripping))
4. warm up - increased activity once warmed up (most other dystonias fatigue with repeated activity)

Question 43

What is defective in non-dystrophic inherited and acquired myotonias (specifically myotonia congenita and para-myotonia congenita)

Answer 43

mutation in voltage gated Na channels (delay in sodium inactivation)

Question 44

Beckers myotonia congenita
(group of non-dystrophic inherited and acquired myotonias)
1. Inheritence
2. ___- and ____ myotonia but less severe than thompsons
3. age of onset _____

Answer 44

1. AR
2. percussion and action myotonia but less severe than thompsons
3. 4-12 yoa

Question 45

Para myotonia congenita
(group of non-dystrophic inherited and acquired myotonias)
1. opposite of _____
2. what is the paradoxical effect with exercise
3. EMG: ____ with decreasing temperatures
4. decreased ____ with cooling and exertion
5. Mutation is in

Answer 45

1. Myotonia congenita
2. paradoxical effect with exercise (do worse with activity) opposite of warm up phenom seen myotonia congenita.
3. increased electrical myotonia with decreasing temperatures
4. CMAP with cooling and exertion
5. mutation is in voltage gated sodium channels (delay in sodium inactivation)

Question 46

Name the most common congenital myopathies: 4

Answer 46

1. central core
2. nemaline rod
3. centronuclear
4. fiber type disproportion

Question 47

Congenital myopathies present with ____ feet, ____ tone, and ___ spine deformities.

Answer 47

club feet, hyoptonia, kyphosis

T1 fibers affected > T2

Question 48

Central core congenital myopathy:
1. inheritence
2. lower or upper extremity?
3. prone to ______.
4. delayed ____
5. Biopsy?
6. Walk at

Answer 48

1. Autosomal dominant
2. BLE > UE - symmetric
3. malignant hyperthermia
4. milestones
5. “hollowed out”
6. 3-7 yoa

also infantile onset, hypotonia, gowers sign

Question 49

Nemaline Rode congenital myotaphty
1. inheritence
2. ____ at birth
3. ____ onset
4. biopsy?
5. ___ types

Answer 49

1. AD
2. hypotonic
3. infantile onset
4. abnormal rods in muscle fibers; in z-line
5. four different types

Question 50

Pathology?
high arch palates, weak sucking and weak cry. nuclei are centrally located in all muscle fibers, hypotonic at birth.

inheritence?

Answer 50

centronuclear congenital myopathy

AR

Question 51

Pathology?
weak cry, weak suck, hypotonic baby, multiple joint contractures including club foot, high arched palate, congenital hip dislocation, kyphoscoliosis. Type 1 muscle fibers more numberous but smaller than T2 muscle fibers.

Answer 51

congenital fiber type disproportion congenital myopathy

Question 52

Mitochondrial myopathies have what classic finding on muscle biopsy?

Answer 52

ragged red fibers

Question 53

What is the mutation in congenital fiber type disproportion congenital myopathy?

Answer 53

herterozygous TPM3 mutation

Question 54

Name the most common metabolic myopathies:
1. (a & b)
2. (a & b)
3. (a, b, & c)

Answer 54

1. glycogen storage disorder
   - mcardles disease (muscle phosphorylase deficiency)
   - pompes disease - acid maltase deficiency
2. lipid metabolism disorder
   - carnitine deficiency
   - carnitine palmytyltransferase deficiency
3. Periodic paralysis
   - hypo K
   - normo K
   - hyper K

Question 55

Mcardles metabolic myopathies is type _____ glycogen metabolic storage disorder.
1. secondary to ____ deficiency
2. presents as (3)
3. biopsy?

Answer 55

V

1. phophorylase enzyme deficiency
2. muscle pain, stiffness, cramps with exercise intolerance
3. large glycogen vacuoles on biopsy

Question 56

Pompe’s disease is a glycogen storae disorder with ____ deficiency.

This deficiency causes _____ defect

Associated with _____

Answer 56

acid maltase enzyme deficiency

Type II glyconeogenesis deficiency

myotonia (only dystrophy with myotonia)

Question 57

Name the two lipid metabolism deficiency disoriders (not on test)

Answer 57

1. carnitine def
2. carnitine palmityltransferase def

Question 58

will see ______ for periodic focal paresis/paralysis.
1. inheritence?
2. failure of?

Answer 58

hypo, normo, or hyper-K levels.
1. AD
2. failure of action potential propogation along muscle membrane

Question 59

____ presents as progressive weakness that affects the shoulder and hip girdles in an acute, subacute, or chronic presentation. Typically symmetric but can be asymmetric. Frequent complaints of muscle pain.

___ in urine
____ more common in (M vs F)
increased levels of ____ and ____

Answer 59

Polymyositis - acquired inflammatory myopathy

myoglobin
females > males (especially AAs)
CK and aldolase

Question 60

what is on biopsy in polymyositis

Answer 60

inflammatory cells (lymphocytes and plasma cells) in connective tissue around the muscle fibers as well as necrosis

Question 61

_____ will have classic heliotropic rash around the eyes

Answer 61

dermatomyositis. Presents just like polymyositis otherwise

progressive weakness that affects the shoulder and hip girdles in an acute, subacute, or chronic presentation. Typically symmetric but can be asymmetric. Frequent complaints of muscle pain.

Question 62

Inclusion body myositis
1. Insidious onset of ____ and ____ over years
2. ______ extremities frequently affected
3. No complaints of _____
4. No _____ component in the pathology so no weakness/pain
5. Male ___: Female ____
6. age of onset:
7. Elevated ____
8. Does not respond to ____
9. Biopsy:
10. Electron microscopy:

Answer 62

1. weakness and fatigue
2. proximal lower extremities
3. pain (as opposed to polymyositis)
4. inflammatory
5. 3:1
6. mid 50s
7. CK but not greater than 10 times normal
8. steroids (as opposed to polymyositis)
9. rimmed vacuoles with basophilic inclusion bodies
10. intranuclear and intra-cytoplasmic filaments (pathognomonic)

Question 63

What will be seen on electron microscopy and biopsy with inclusion body myositis

Answer 63

Bx: rimmed vacuoles with basophyilic inclusion bodies

EM: intranuclear and intra-cytoplasmic filaments

Question 64

Name the 4 most common endocrine myopathies

Answer 64

1. hypo/hyper thyroidism
2. hyperparathyroidism
3. adrenal- excess (cushings) too little (addsons)
4. pituitary

Question 65

Name the 3 most common toxic or drug induced myopathies

Answer 65

1. alcohol - causes myopathic problemsn just like polyneuropathic processes
2. any cholesterol lowering agent (statins and others)
3. steroid myopathy

Question 66

name the 3 most common etiologies for infectious myopathy

Answer 66

1. HIV (syhpillus of the 20th century: any peripheral, central neuropathic problem, myopathic problems)
2. Viral (influenza, coxsackie, echovirus, adenovirus, herpes simplex)
3. Parasitic
   - Protozoans (toxoplasmosis)
   - Cestode (cystercercosis)
   - Nematode (trichinosis)

Question 67

Critical illness myopathy/neuropathy will have
1. ___ and ___ findings
2. extreme ____
3. ____ process
4. ____ pattern

Answer 67

1. neuropathic and myopathic findings
2. extreme weakness
3. inflammatory process (can have some extensive steroid use as well but will see findings on EMG)
4. asymmetric pattern