L3.2 Neuromuscular Diseases Part 2

Question 1

group of inherited, primary diseases of muscle characterized by progressive loss of strength in specific muscle groups.

Answer 1

Muscular dystrophies

Question 2

The most common form of muscular dystrophy

Answer 2

Duchenne muscular dystrophy

Question 3

Duchenne muscular dystrophy is recessive/dominant sex-linked gene located on the chromosome ___ and carried only by males/females.

Answer 3

recessive, X, females

Question 4

Duchenne muscular dystrophy is also known as

Answer 4

pseudohypertrophic muscular dystrophy

Question 5

Progressive disease in which the child becomes weaker and usually dies of a respiratory infection or cardiorespiratory insufficiency in the late teen or early 20s

Answer 5

Duchenne muscular dystrophy

Question 6

T/F.
Most frequent presenting symptom of DMD is

• Abnormal gait
• Frequent falls
• Difficulty climbing steps

Answer 6

T

Question 7

Gait pattern of DMD :
toe walking with compensatory adaptation to weak knee flexor/extensor and lordotic posture of spine as a compensation to hip flexor/extensor weakness

Answer 7

knee extensor, hip extensor

Question 8

____ is the deficiency at the plasma membrane of muscle & disrupts membrane cytoskeleton and leads to secondary loss of other components of muscle cytoskeleton

Answer 8

dystrophin

Question 9

dystrophin
1. causes membrane instability leading to membrane injury
2. Causes aggressive fibrotic replacement of muscle and eventually there is failure of regeneration with muscle fiber death and loss

T,F
F,T
both T
both F

Answer 9

both T

Question 10

_____ is required inside muscle cells for structural support & strengthen muscle cells by anchoring elements of the internal cytoskeleton to the surface membrane.

Answer 10

dystrophin

Question 11

Absence of dystrophin leads to disruption of linkages in cytoskeleton of cell membrane. This leads to

a. membrane microtears
b. Increase calcium channel leaks
c. necrosis of cell
d. all

Answer 11

d

Question 12

Without _____, the cell membrane becomes permeable, so that extracellular components enter the cell, increasing the internal pressure until the muscle cell “explodes” and dies. The subsequent immune response can add to the damage.

Answer 12

dystrophin

Question 13

T/F. DMD onset is noted before 5 years

Answer 13

F, 4 yrs.

Question 14

Apparent enlargement of calf and sometimes other muscles which is due to an accumulation of fat and connective tissue in the muscle

Answer 14

Pseudohypertrophy

Question 15

T/F. Enlarged tongue (macroglossia) causes wide arch to mandible and maxilla with separation of teeth

Answer 15

T

Question 16

T/F. Mild mental retardation has been noted in some boys with Duchenne dystrophy

Answer 16

T

Question 17

1. Cardiac abnormalities – dystrophic protein is present in both myocardium and cardiac Purkinje fiber
2. Nearly all patient over 12 demonstrates abnormalities in ECG

T,F
F,T
both T
both F

Answer 17

T, F (over 13)

Question 18

Respiratory difficulties of DMD are due to:

a. Weakness of respiratory muscles

b. Alteration in respiratory system mechanics

c. Impairment of central control of respiration

d. All

Answer 18

d

Question 19

1. Breathing becomes affected during the earlier stages of Duchenne, leading to respiratory infections
2. Severe respiratory and heart problems mark the disease’s final stages, usually in the boy’s teens and early 20s

T,F
F,T
both T
both F

Answer 19

F (later stages), T

Question 20

Diagnosis for DMD includes:

a. Family history

b. History of malignant hyperthermia during general anesthesia for an unrelated surgical intervention

c. Elevated CK

d. all

Answer 20

d

Question 21

Complications of DMD include:

a. Contractures
b. Scoliosis
c. Respiratory tract infection
d. Bed sores
e. All

Answer 21

e

Question 22

DMD functional grades of UE.
what grade is:
Standing with arms at the sides, patient can abduct the arm in a full circle until they touch above the head

Answer 22

1

Question 23

DMD functional grades of UE.
what grade is:
Patient cannot raise hands above the head, but can raise an 8 oz glass of water to the mouth (using both hands if necessary)

Answer 23

3

Question 24

DMD functional grades of UE.
what grade is:
Patient can raise arm above head by flexing the elbow or using accessory muscles

Answer 24

2

Question 25

DMD functional grades of UE.
what grade is:
Patient can raise hands to the mouth but cannot raise an 8 oz glass of water to the mouth

Answer 25

4

Question 26

DMD functional grades of UE.
what grade is:
Patient cannot raise hands to the mouth and has no useful function of hands

Answer 26

6

Question 27

DMD functional grades of UE.
what grade is:
Patient cannot raise hands to the mouth but can use the hands to hold a pen or pick up pennies from a table

Answer 27

5

Question 28

DMD functional grades of LE.
what grade is:
Walks and climbs stairs without assistance

Answer 28

1

Question 29

DMD functional grades of LE.
what grade is:
Walks and climbs stairs slowly (elapsed time of more than 12 seconds for four standard stairs) with aid of a railing

Answer 29

3

Question 30

DMD functional grades of LE.
what grade is:
Walks and climbs stairs with the aid of a railing

Answer 30

2

Question 31

DMD functional grades of LE.
what grade is:
Walks unassisted and rises from a chair, but cannot climb stairs

Answer 31

4

Question 32

DMD functional grades of LE.
what grade is:
Walks unassisted but cannot rise from a chair or climb stairs

Answer 32

5

Question 33

DMD functional grades of LE.
what grade is:
Walks only with assistance or walks independently with long leg braces

Answer 33

6

Question 34

DMD functional grades of LE.
what grade is:
Is in a wheelchair

Answer 34

9

Question 35

DMD functional grades of LE.
what grade is:
Is confined to bed

Answer 35

10

Question 36

DMD functional grades of LE.
what grade is:
stand in long leg braces, but is unable to walk even with assistance

Answer 36

8

Question 37

DMD functional grades of LE.
what grade is:
Walks in long leg braces, but requires assistance for balance

Answer 37

7

Question 38

What is the treatment of DMD

a. No pharmaceutical treatment
b. Glucocorticoid corticosteroids
c. Creatine monohydrate
d. Myoblast transplant

Answer 38

a.

Question 38

Given between 6 months to 2 years have improved function; kept those affected “stronger for longer”

a. No pharmaceutical treatment
b. Glucocorticoid corticosteroids
c. Creatine monohydrate
d. Myoblast transplant

Answer 38

Glucocorticoid corticosteroids

Question 39

(natural occurring substance used by body builders) increased muscle performance

a. No pharmaceutical treatment
b. Glucocorticoid corticosteroids
c. Creatine monohydrate
d. Myoblast transplant

Answer 39

Creatine monohydrate

Question 40

aim to replace missing dytrophin

a. No pharmaceutical treatment
b. Glucocorticoid corticosteroids
c. Creatine monohydrate
d. Myoblast transplant

Answer 40

d

Question 41

____ is similar to the Duchenne form, but appears somewhat later in life and progresses more slowly.

Answer 41

Becker’s muscular dystrophy

Question 42

Patients with Becker dystrophy had defects in the same dystrophin gene chromosome ____

Answer 42

X

Question 43

____ can first appear later than Duchene

Answer 43

Becker’s dystrophy

Question 44

Progression is typically slow and walk usually preserved into the 30s (some up to late 40s and 50s )

a. DMD
b.Becker’s dystrophy

Answer 44

Becker’s dystrophy

Question 45

T/F. Becker patients have longer life expectancy than Duchenne

Answer 45

T

Question 46

CPK may be elevated

• Gradual proximal weakness (LE initially with gradual involvement of pectoral and UE at 10 – 20 years from onset)
• Extensors are weaker than flexor

a. DMD
b.Becker’s dystrophy

Answer 46

Becker’s dystrophy

Question 47

Muscle noted to be most severely involved in Becker’s dystrophy:
a. hip extensor
b. knee extensors
c. neck flexors
d. all

Answer 47

d

Question 48

Age of onset 4 years old

Progressive is fast, loss of ambulatory function by 10

Gene location Xp21

Almost absent dysrophin

Presence of mental retardation

a. DMD
b.Becker’s dystrophy

Answer 48

a

Question 49

Age of onset between 5 to 15 years

Slower rate of progression, ability to walk even up to late teen

Gene location Xp21

Abundance of dystrophin in immunostaining

Mental retardation not common; mildly reduced intellectual performance but degree of impairment is not as severe as DMD

a. DMD
b.Becker’s dystrophy

Answer 49

b

Question 50

Cardiac problem is usually severe

Respiratory problem is seen as early as 5 to 10 years old

Contractures develop early

scoliosis is more common and usually severe

Gower’s and pseudohypertrophy common

a. DMD
b.Becker’s dystrophy

Answer 50

a

Question 51

Cardiac involvement is mild and slowly progressive

Lesser pulmonary dysfunction

Early development of contracture is not common

Scoliosis is not common and severe

Gower’s and calf enlargement is a nonspecific finding

a. DMD
b.Becker’s dystrophy

Answer 51

b

Question 52

Age of onset
3 – 12 years old

Sex
Male and female

Distribution and pattern of weakness
Proximal muscles; slower rate of progression

Pathology
Abnormality in dystrophin associated glycoprotein

Signs and symptoms
Calf hypertrophy, + Gower’s, loss of ambulation between 10- 20 years old, Spinal deformity less problematic than DMD, restrictive pulmonary insufficiency not as severe as DMD, fewer cardiac manifestation

a. DMD
b.Becker’s dystrophy
c. Severe Childhood Autosomal Recessive Muscular Dystrophy (SCARMD)

Answer 52

c

Question 53

Group of infants presenting with hypotonia, muscle weakness at birth or within first few months of life, congenital contracture and dystrophic pattern on muscle biopsy

a. DMD
b.Becker’s dystrophy
c. Severe Childhood Autosomal Recessive Muscular Dystrophy (SCARMD)
d. Congenital Muscular Dystrophy

Answer 53

d

Question 54

Usually static but some may show slow progression while others gain developmental milestones and achieve ability to walk

a. DMD
b.Becker’s dystrophy
c. Severe Childhood Autosomal Recessive Muscular Dystrophy (SCARMD)
d. Congenital Muscular Dystrophy

Answer 54

d

Question 55

mental retardation, structural malformation, dystrophic myopathy

a. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (Fakuyama congential muscular dystrophy)

b. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (Walker Warburg syndrome)

c. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (muscle eye-brain disease)

d. CONGENITAL MUSCULAR DYSTROPHY WITHOUT CENTRAL NERVOUS SYSTEM INVOLVEMENT

Answer 55

a

Question 56

mental retardation, ocular abnormality, cleft lip /palate

a. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (Fakuyama congential muscular dystrophy)

b. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (Walker Warburg syndrome)

c. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (muscle eye-brain disease)

d. CONGENITAL MUSCULAR DYSTROPHY WITHOUT CENTRAL NERVOUS SYSTEM INVOLVEMENT

Answer 56

b

Question 57

weakness, retardation, ocular abnormality (myopia and uncontrolled eye movement)

a. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (Fakuyama congential muscular dystrophy)

b. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (Walker Warburg syndrome)

c. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (muscle eye-brain disease)

d. CONGENITAL MUSCULAR DYSTROPHY WITHOUT CENTRAL NERVOUS SYSTEM INVOLVEMENT

Answer 57

c

Question 58

Main features are muscle weakness, hypotonia, congenital contracture, normal to moderately elevated CK, normal intellect

a. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (Fakuyama congential muscular dystrophy)

b. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (Walker Warburg syndrome)

c. Congenital muscular dystrophy with CENTRAL NERVOUS SYSTEM INVOLVEMENT (muscle eye-brain disease)

d. CONGENITAL MUSCULAR DYSTROPHY WITHOUT CENTRAL NERVOUS SYSTEM INVOLVEMENT

Answer 58

d

Question 59

Physical therapy intervention for congenital myopathy:

a. Maintenance of flexibility with stretching and appropriate bracing or casting

b. Bracing is needed for standing or ambulation

c. Power mobility should be considered for those with sufficient cognitive skills

d. all

Answer 59

d

Question 60

Age of Onset
Teens or early adulthood

Inheritance/ gender affected:
Autosomal dominant/ males and females

Muscles first affected
Face, shoulder girdle muscles

Progression
Slow, sometimes with rapid spurts

a. DMD
b.Becker’s dystrophy
c. Severe Childhood Autosomal Recessive Muscular Dystrophy (SCARMD)
d. Fascioscapulohumeral Muscular dystrophy

Answer 60

d

Question 61

third most common muscular dystrophy

Answer 61

Facioscapulohumeral muscular dystrophy (FSHD)

Question 62

T/F. Facial weakness of FSHD involves:
orbicularis oculi, zygomaticus and orbicularis oris; with expressionless appearance, difficulty in whistling, pursing lips, drinking through straw or smiling

Answer 62

T

Question 63

FSHD Spares what muscles
a. masseter
b. temporalis
c. extraocular muscle
d. pharyngeal muscle
e. all

Answer 63

e

Question 64

1. UE involvement of FSHD includes: trapezius, rhomboids, serratus anterior, latissium dorsi
2. • Scapula positioned anteriorly give the shoulder a forward sloped appearance

T,F
F,T
both T
both F

Answer 64

T, F (laterally)

Question 65

T/F. The weakness of FSHD can spread to the muscles of abdomen, feet, upper arms, pelvic area and lower arms

Answer 65

T

Question 66

• Early onset FSHMD with sensory neural hearing deficit
• Presents with myopathy in infancy and progresses fairly rapidly
• Become wheelchair reliant by late 2 nd and 3 rd decade

a. DMD
b.Becker’s dystrophy
c. Severe Childhood Autosomal Recessive Muscular Dystrophy (SCARMD)
d. Coat’s syndrome

Answer 66

d

Question 67

Other related problems of FSHMD, EXCEPT:

a. Spinal deformity as scoliosis and hyperlordosis

b. Mild restrictive lung disease

c. Cardiac problems are uncommon

d. Contractures are relatively rare

e. C & D

Answer 67

E. (Cardiac problems are rare. Contractures are relatively uncommon)

Question 68

The mutation associated with FSHD is located on human chromosome ___

Answer 68

4

Question 69

Age of onset
some seen in early childhood, other Adolescence or early adulthood

Inheritance/ gender
X-linked recessive/male

Muscles first affected
Upper arms, lower legs
*contracture of elbow flexor hallmark of EMD

Progression
slow

a. DMD
b.Becker’s dystrophy
c. Severe Childhood Autosomal Recessive Muscular Dystrophy (SCARMD)
d. Coat’s syndrome
e. Emery Dreifuss Muscular Dystrophy

Question 70

All are true about Emery Dreifuss Muscular Dystrophy, EXCEPT:

a. A rare form of muscular dystrophy

b. Weakness generally starts in the shoulders, upper arms and lower legs (scapulohumeral and peroneal distribution)

c. Weakness my spreads to involve the muscles of chest and pelvic area

d. Life threatening heart problems (as cardiomyopathy, arrhythmia) are uncommon

e. May show evidence of nocturnal hypoventialation due toestrictive expansion of chest

Answer 70

d. [Life threatening heart problems (as cardiomyopathy,arrhythmia) are COMMON]

Question 71

Emery Dreifuss Muscular Dystrophy:

1. Has tight cervical and lumbar spinal extensor muscle resulting in limitation of neck and trunk flexion; unable to flex chin to sternum or touch toes
2. Is caused by a defect in the gene on the X chromosome X that codes for the protein called emerin

T,F
F,T
both T
both F

Answer 71

both T

Question 72

Age of onset: early childhood (2-6)

X- link, Xp21

Lack of dystrophin

Toe walk is due to compensatory strategy to stabilize knee because of proximal weakness

Proximal muscles LE> UE

Life expectancy: rarely beyond 20s

a. DMD
b. Emery Dreifuss Muscular Dystrophy

Answer 72

a

Question 73

Age of onset: early childhood or adolescence or early adulthood

X-link, Xq28

Lack of emerin

Toe walk is due to weakness of dorsiflexors

Selective scapulohumeral peroneal distribution weakness by sparing deltoid and forearm muscle

Life expectancy: variable

a. DMD
b. Emery Dreifuss Muscular Dystrophy

Answer 73

b

Question 74

Age of onset
Childhood and adulthood

Inheritance/gender
Autosomal recessive and dominant forms/ male and female

Muscles first affected
Proximal shoulder and pelvic girdle muscles

progression
Usually slow

a. DMD
b. Emery Dreifuss Muscular Dystrophy
c. Limb girdle muscular dystrophy

Answer 74

c

Question 75

Limb girdle muscular dystrophy .

1. The limb-girdle form of the disease first affects the muscles of the hip and shoulder areas.
2. There are several forms that vary from mode of inheritance, chromosome affected, clinical presentation

T,F
F,T
both T
both F

Answer 75

both T

Question 76

Term applied to muscle disorders presenting in infancy with generalized muscle weakness and hypotonia followed by delayed developmental milestones

Answer 76

congenital myopathy

Question 77

all are definitions of Congenital myopathy, EXCEPT:

a. First described in 1956 , central core disease

b. May be differentiated diagnostically through morphologic characteristics using electron microscope, enzyme histochemistry, immunocytochemistry, molecular analysis

c. Mode of inheritance and gene loci are variable

d. None

Answer 77

d

Question 78

T/F. Features of congenital myopathy are

Onset: early life presenting with hypotonia, hyporeflexia, generalized weakness (proximal than distal)

Poor muscle bulk

Dysmorphic feature

Non progressive

Hereditary

Morphologic features in histochemical exam of muscle biopsy

Answer 78

T

Question 79

T/F. Clinical signs of a floppy infant

Frog leg posture

Reduced movement with legs fully abducted and arms lying beside the body either flexed or extended

Head lag

Round back when sitting

Rag doll posture

Answer 79

T

Question 80

T/F. Laboratory findings of congenital myopathy are

Creatinine kinase
Normal or mild elevation

EMG and NCV
NCV studies normal
EMG normal

______________ – Gold standard
See ultra structure of muscle

Genetic studies are required for diagnosis

Answer 80

F (not required)

Muscle biopsy – Gold standard

Question 81

all are definitions of Congenital myopathies, EXCEPT:

a. Heterogenous disorders presenting with infantile hypotonia due to genetic defects causing myopathies with the absence of any structural abnormality of the CNS or peripheral nervous system

b. Develop symmetrical proximal weakness predominantly limb girdle distribution

c. Non-progressive and static

d. None

Answer 81

d

Question 82

Congenital myopathies have:

1. CPK normal, EMG normal or may have mild, nonspecific changes of myopathic character
2. Patients do not lose muscle fibers as in the case of dystrophic myopathies

T,F
F,T
both T
both F

Answer 82

both T

Question 83

Congenital myopathies with:

absent mitochondria and sarcoplasmic reticulum in the core region

Autosomal dominant affecting chromosome 19; present with mild, nonprogressive proximal or generalized weakness but achieves motor milestones rather late; related with + history of malignant hyperthermia

a. Central cord
b. Nemaline or “rod body myopathy”

Answer 83

a

Question 84

Congenital myopathies with:

Typical form is autosomal recessive * some autosommal dominant with locus at chromosome 1; mild nonprogressive myopathy with hypotonia and proximal weakness; may have kyphoscoliosis, cardiomyopathy, pigeon chest, pes cavus, swallowing problems

-severe form may present in neonates with respiratory difficulty; fatal

a. Central cord
b. Nemaline or “rod body myopathy”

Answer 84

b

Question 85

X-link recessive chromosome X; presents with severe respiratory insufficiency, generalized hypotonia, swallowing difficulty, congenital contractures, facial weakness and weakness of extraocular muscles

a. Central cord
b. Nemaline or “rod body myopathy”
c. Severe X-link myotubular myopathy
d. Mini-core Disease

Answer 85

c

Question 86

Autosommal recessive Due to decrease in mitochondrial oxidative enzymes in some muscles; presents with hypotonia and delayed motor development, mild facial weakness and diaphragmatic weakness putting them at risk for nocturnal hypoventilation

a. Central cord
b. Nemaline or “rod body myopathy”
c. Severe X-link myotubular myopathy
d. Mini-core Disease

Answer 86

d

Question 87

Autosomal recessive and dominant pattern; type 1 fibers smaller than type 2 Presents with infantile hypotonia, delayed gross motor milestones, non progressive with kyphoscoliosis, long narrow face, high arch palate, high arch

a. Congenital fiber type disproportion
b. Nemaline or “rod body myopathy”
c. Severe X-link myotubular myopathy
d. Mini-core Disease

Answer 87

a

Question 88

Non-X linked; presents with early hypotonia, delayed motor milestone, genralized weakness of both proximal and distal, ptosis, weakness of external ocular muscles and axial muscle Autosomal dominant inheritance

a. Congenital fiber type disproportion
b. Myotubular myopathy (Centronuclear myopathy)
c. Severe X-link myotubular myopathy
d. Mini-core Disease

Answer 88

b

Question 89

Example
Central core

Etiology
Congenital, Metabolic, Endocrine

inheritance
Sporadic, Autosomal recessive

Progression
Static or improves with time or treatment

Muscle enzyme
Mildly increased or normal

EMG
No fibrillation

a. myopathy
b. dystrophy

Answer 89

a

Question 90

Example
Duchene Becker’s Limb girdle

Etiology
genetic

Inheritance
Always inherited

Progression
Always progressive

Muscle enzyme
Markedly increased

EMG
Fibrillation present

a. myopathy
b. dystrophy

Answer 90

b

Question 91

a state of delayed relaxation or sustained contraction of skeletal muscle

Answer 91

myotonia

Question 92

Age of onset
Early childhood to adulthood; newborn period for congenital form

Inheritance/ gender affected
Autosomal dominant/ males and females

Muscles first affected
Face, feet, hands, front of neck

Progression
slow

a. DMD
b.Becker’s dystrophy
c. Myotonic muscular dystrophy

Answer 92

c

Question 93

All are definition of Myotonic muscular dystrophy, EXCEPT:
* Also known as _____

a. Affects skeletal muscle, smooth, myocardium, brain and ocular structures

b. Associated findings is baldness and gonadal atrophy (males), cataracts and cardiac dysrrhythmias

c. Most common adult form of myotonic muscular dystrophy

d. Presents with an unusual symptom, myotonia, which is similar to spasm or stiffening of muscles.

e. None

Answer 93

E,

Steinert’s disease

Question 94

Myotonic muscular dystrophy is autosomally dominant/recessive disease affecting both sexes.

1. It is characterized by an inability of the muscles to relax
2. primarily affects the muscles of the hands and feet

T,F
F,T
both T
both F

Answer 94

dominant , both T

Question 95

T/F. Facial features of Myotonic muscular dystrophy is: long, thin face with temporal and masseter muscle wasting, “lugubrious facie” Males have frontal baldness

Answer 95

T

Question 96

True about Myotonic muscular dystrophy, EXCEPT:

a. Greater involvement of the distal than proximal muscles

b. Patients with Myotonic Muscular Dystrophy seen to require more sleep

c. They have mild mental retardation

d. Cardiac problems can be serious and should be followed up carefully

e. None

Answer 96

E

Question 97

True about Myotonia Congenita or Thomsen’s disease, EXCEPT:

Autosomal dominant/recessive?

a. Present at birth but manifest late like difficulty releasing object or difficulty walking

b. Exacerbated by prolong rest or inactivity and aggravated by cold

c. Muscle hypertrophy or “Herculean” appearance

d. Recessive form (called Becker form) is late onset with more myotonia , hypertrophy with weakness

e. None

Answer 97

dominant, E

Question 98

True about Paramyotonia Congenita:

a. Autosomal dominant

b. Mild involvement, usually aggravated by cold

c. + hypertrophy of musculature with severe hand and facial involvement but myotonic episodes subside within hours

d. All

Answer 98

d

Question 99

True about Schwartz Jampel syndrome:

a. Autosomal recessive

b. Dwarfism, diffuse bone disease, narrow palpebral fissure, blepharospasm, micrognathia and flat facies

c. Skeletal abnormalities: short neck, kyphosis, hypertrophic muscles which are stiff

d. all

Answer 99

d

Question 100

NMJ Disorders.

Born to mothers with MG due to transplacental transfer; symptoms present within first few hours; with difficulty feeding, generalized weakness, respiratory problems, weak cry, facial weakness, sometimes ptosis; resolves within 2-3 weeks

a. Transient Neonatal Myasthenia
b. Congenital Myasthenia Syndromes
c. Autoimmune Myasthenia Gravis
d. Infantile Botulism
e. Acquired Botulism

Answer 100

a

Question 101

Genetic disorder may present during neonatal period, late childhood or adult life; initial presentation is ptosis, ophthalmoparesis, facial weakness, generalized hypotonia

a. Transient Neonatal Myasthenia
b. Congenital Myasthenia Syndromes
c. Autoimmune Myasthenia Gravis
d. Infantile Botulism
e. Acquired Botulism

Answer 101

b

Question 102

Onset is insidious presenting with acute respiratory difficulties, ptosis, ophthalmoparesis, facial weakness, swallowing difficulties, weakness or trunk, limbs (proximal>distal) usually at the end of the day

a. Transient Neonatal Myasthenia
b. Congenital Myasthenia Syndromes
c. Autoimmune Myasthenia Gravis
d. Infantile Botulism
e. Acquired Botulism

Answer 102

c

Question 103

Happens between 10 days to 6 months, acute onset of hypotonia, dysphagia, constipation, weak cry, respiratory insufficiency, hypotonia, ptosis, weakness; diagnosis: (+) Clostridium botulinum toxin in rectal aspirate

a. Transient Neonatal Myasthenia
b. Congenital Myasthenia Syndromes
c. Autoimmune Myasthenia Gravis
d. Infantile Botulism
e. Acquired Botulism

Answer 103

d

Question 104

Acquire form poorly cooked contaminated food with toxin or from open wound that comes in contact with the bacteria through soil; presents with ptosis, diplopia, bulbar weakness, constipation, pupillary dilation

a. Transient Neonatal Myasthenia
b. Congenital Myasthenia Syndromes
c. Autoimmune Myasthenia Gravis
d. Infantile Botulism
e. Acquired Botulism

Answer 104

e