Malformations & Developmental Diseases Part 2

Question 1

What are the 3 main categories of Forebrain Anomalies?

Answer 1

• Disorders of migration & sulcation
  
  • Polymicrogyria
  • Agyria & Pachygyria
• Disorders of cleavage of forebrain
  
  • Arrhinencephaly
  • Holoprosencephaly
  • Olfactory aplasia
• **Agenesis of corpus callosum **

Question 2

What is the general pathogenesis of disorders of migration & sulcation?

Answer 2

• Disturbance of process of neuronal migration from germinal matrix to cortex
• Sulcation is induced by presence of normally migrated neuronal population

Question 3

Polymicrogyria

Definition

Focal vs. Diffuse

Answer 3

• Too many irregular small fused gyri
  
  • Disordered organization of the neurons in the cortex at the time of migration
  • Neurite extension, synaptogenesis & maturation
• Focal or Diffuse
  
  • Clinical findings range from minimal cognitive impairment to severe mental retardation

Question 4

What is the etiology of Polymicrogyria?

Answer 4

• Intrauterine ischemia
  
  • Polymicrogyria associated w/ in utero infarcts
• Twinning
• Intrauterine infection (CMV, toxo, VZV, syphilis)
• Familial syndromes (mutations identified)

Question 5

How does Polymicrogyria present grossly?

Answer 5

• Many small gyri fused together
• Cortical ribbon is thin & excessively folded & fused
• 2 or 4 cortical layers

Question 6

What is this?

Answer 6

Polymicrogyria

• Stains myelin blue
• 6 layered cortex very patchy
• Gray matter thickened & wavy
• Abnormal sulcation

Question 7

What is the difference between Agyria & Pachygyria?

Answer 7

• Agyria (lissencephaly) = absence of gyri
• Pachygyria = decreased numbers of broad coursed gyri
• Brain is small

Question 8

What is the pathogenesis of Agyria & Pachygyria?

What is Miller Dieker syndrome?

Answer 8

• Neurons migrate only part way to cortex
• Gyri don’t form correctly (or at all)
• 4th month of gestation
• Several genetic types (mutated chr 17 or X chromosome)
  
  • Miller Dieker Syndrome
    
    • Seizures, mental retardation, lissencephaly
    • Deletion in LIS1 gene (chr 17)

Question 9

What are the symptoms of Agyria & Pachygyria?

Answer 9

• Failure to thrive
• Microcephaly
• Marked developmental delay
• Severe seizure disorder
• Hypoplasia of the optic nerve
• Microphthalmia

Question 10

What are the symptoms of Miller-Dieker syndrome?

Answer 10

• Prominent forehead, bitemporal hallowing, anteverted nostrils, prominent upper lip, micrognathia
• 90% w/ chr deletions of 17p13.3 (lissencephaly I gene)

Question 11

Sometimes the pattern of agyria allows prediction of the _______ _____.

Females with _____ mutation have imaging abnormalities distinct from other agyrias.

Answer 11

Causative gene

DCX

Question 12

How does Pachygyria present grossly?

Answer 12

Thickened cortical ribbon (4 layers)

Question 13

What is this?

Answer 13

Pachygyria

• Ribbon formation
• Sulci missing

Question 14

What is Schizencephaly?

Answer 14

• Unilateral or bilateral clefts w/i the cerebral hemispheres
• Abnormality of morphogenesis
• Cleft may be fused or unfused
• Usually surrounded by abnormal brain, microgyria

Question 15

How does Schizencephaly present when the clefts are bilateral?

Answer 15

• Severe MR
• Intractable Szs
• Microcephaly
• Spastic quadriplegia

Question 16

What is Arrhinencephaly?

Answer 16

“Disorders of cleavage of forebrain”

• Term applied to this category of malformations
• Absence of olfactory tract/bulbs
• Holoprosencephaly & olfactory aplasia

Question 17

Arrhinencephaly

Severity of craniofacial defect __________ severity of underlying brain abnormality.

Answer 17

mirrors

• “The face predicts the brain”
• Cyclopia – most severe
• Hypotelorism – minimal change

Question 18

How does Arrhinencephaly present clinically?

Answer 18

• Clinical findings vary with severity of malformation
• Severe mental retardation, stillbirth, lack of olfaction

Question 19

What is the pathogenesis of Arrhinencephaly?

Answer 19

• Attributed to absent cleavage of forebrain
  
  • 4th-6th wk of gestation
• Usually sporadic
• Autosomal dominant form (SHH on 7q26)
• Associated w/ Trisomies
• Association w/ EtOH, Accutane (retinoic acid) during pregnancy & DM

Question 20

What is the definition of Holoprosencephaly?

What are the 3 types?

Answer 20

**Incomplete separation of hemispheres **

• Alobar holoprosencephaly
• Semilobar holoprosencephaly
• Lobar holoprosencephaly

Question 21

What is Alobar holoprosencephaly?

Answer 21

• Small brain
• Cerebral hemispheres fused into single mass w/ no interhemispheric fissure: single large ventricle
• Hypoplasia of cortex

Question 22

What is Semilobar holoprosencephaly?

Answer 22

Partial formation of interhemispheric fissure

Question 23

What is Lobar holoprosencephaly?

Answer 23

• Midline continuity of cortex at frontal pole
• Almost normal brain size – often associated w/ craniofacial anomalies

Question 24

What is this?

Answer 24

Holoprosencephaly

• Lots of mature cells
• Clumps, no layers

Question 25

What are the symptoms of Holoprosencephaly?

Answer 25

• Profound MR, seizures, rigidity, apnea, temp imbalance
• HCP w/ aqueductal obstruction
• Endocrine disorders w/ hypothalamic or pituitary malformations
• Facial abnormalities
  
  • Cyclopia
  • Cebocephaly
  • Premaxillary agenesis

Question 26

How is Holoprosencephaly diagnosed?

Answer 26

• Facial X-ray – deformed anterior craniobasal bones
• Cytogenetics
• MRI
• EEG, VER, ABR generally abnormal

Question 27

What is Olfactory Aplasia?

Answer 27

Absence of olfactory bulbs, tracts, trigone & anterior perforated area

Question 28

What is this?

Answer 28

Holoprosencephaly

Question 29

**Agenesis of the Corpus Callosum **

Definition

Probst bundles

Etiology

Answer 29

• Results from an insult to the commissural plate during embryogenesis
• No corpus callosum or cingulate gyrus
• Gyri extending perpendicular to 3rd ventricle roof
  
  • Corpus callosum forms first
  • Cingulate gyrus forms in response
  • So if you have a cingulate gyrus, that means you MUST have a corpus callosum
• Probst bundles – stumps of white matter at edge of cortex
• No specific etiology or timing

Question 30

What are symptoms of Agenesis of the Corpus Callosum?

Answer 30

• Isolated: asymptomatic (except in close perception/language tests)
• Associated migration defects (heterotopia, microgyria, pachygyria) may present w/ MR, microcephaly, hemiparesis, diplegia & seizures
• Frequently found in association w/ other malformations
  
  • Aicardi Syndrome – X-linked, chorioretinal defects, seizures

Question 31

How does Agenesis of the Corpus Callosum present on CT/MRI?

Answer 31

• Widely separated frontal horns
• Abnormally high position of the 3rd ventricle

Question 32

What is this?

Answer 32

Agenesis of the Corpus Callosum

• Corpus callosum & cingulate gyrus missing
• Cortex plowing straight into the ventricle

Question 33

**Aicardi Syndrome **

Males vs. Females

Characterizations

EEG

Answer 33

• Patients almost all females (lethal in males)
• Characterized by:
  
  • Severe MR
  • Intractable seizures
  • Onset btwn birth & 4 mo
  • Chorioretinal lacunae
  • Hemivertebrae & costovertebral anomalies
• EEG – independent activity from both hemispheres (absence of CC)

Question 34

Type 1 Chiari Malformation

Definition

Associations

Genetics

Answer 34

• Chronic tonsillar herniation
• Associated with:
  
  • Hydrocephalus
  • Sudden death
  • Neurologic signs/symptoms
    
    • Cranial nerve palsies
    • Ataxia
    • Long tract signs
  • May be asymptomatic
• 90% also have syringomyelia
• No known genetic or associated risk factors at present

Question 35

Type 2 Chiari Malformation

Definition

Associations

Answer 35

“Arnold-Chiari malformation”

• Herniated cerebellar tissue through foramen magnum w/ displacement of dorsal medulla
  
  • Hump or Z-shape in brainstem/spinal cord
• Associated w/ lumbar Myelomeningocele (Chiari 2 in 95% of children w/ MMC)

Question 36

Type 2 Chiari Malformation

Clinical Findings

Answer 36

• Lower CN defects (swallowing, respiration)
• Arm weakness, spasticity
• S/S referable to hydrocephalus

Question 37

Type 2 Chiari Malformation

Etiology

Pathogenesis

Answer 37

• Vit A deficiency (maternal) associated w/ Chiari II & Myelomeningocele
• No genetic associations yet found
• Pathogenesis (hypothesis)
  
  • Disproportion btwn growth of posterior fossa & its contents (posterior fossa too small)
  • Kinking or medullar & “squashing” of cerebellum into spinal canal

Question 38

Dandy Walker Malformation

Definition

Associations

Risk Factors

Answer 38

• Agenesis of vermis
  
  • Cystic dilatation of 4th ventricle
  • Enlargement of posterior fossa
  • Hydrocephalus frequently present
• Associated w/ motor retardation, spasticity, respiratory failure
• Risk factors: Isotretinoin use during pregnancy

Question 39

Dandy Walker Malformation

Etiology

Pathogenesis

Answer 39

• Etiology
  
  • Most cases sporadic
  • Associated w/ Trisomies
• Pathogenesis
  
  • Not understood
  • Believed to occur before 3rd month gestation

Question 40

Syringomeylia (syrinx)

Definition

Associations

Answer 40

• Fluid-filled cleft-like cavity in spinal cord
  
  • Cavity extends transversely cross cord crossing behind central canal
  • Largest in cervical regions
• Associated w/ Chiari type 1 malformation (90%)
• Also seen post trauma & in association w/ spinal cord tumors

Question 41

Syringomyelia (syrinx)

Clinical Presentation

Answer 41

• Loss of pain/temperature
• Retention of position & vibration senses & motor function
• Onset of symptoms in 2nd/3rd decades (progressive)

Question 42

What are the 2 types of Perinatal Hypoxic/Ischemic Lesions?

What is the main Perinatal Hemorrhagic lesion?

Answer 42

• Hypoxia/Ischemia
  
  • White matter
    
    • White matter necrosis (periventricular leukomalacia)
  • Gray + white matter
    
    • Multicystic encephalopathy
• Hemorrhagic Lesions
  
  • Subependymal germinal plate/matrix hemorrhage

Question 43

How do perinatal insults present clinically?

Answer 43

Cerebral Palsy

• Non-progressive neurologic motor defect
  
  • Spasticity, dystonia, ataxia/athetosis, paresis
• Attributed to insults occuring in the fetal & perinatal periods
• Wide range of Neuropathologic findings
  
  • Often hypoxic/ischemic or hemorrhagic events

Question 44

White Matter Necrosis: Periventricular Leukomalacia

Definition

Population

Answer 44

• Sharply defined foci of necrosis in WM
  
  • Gross discrete chalky yellow plaques
  • May eventually cavitated
• Common in premature infants w/ ischemia/hypoxia
• Also occurs in full-term infants w/ cardiac or pulmonary disease

Question 45

Periventricular Leukomalacia

Pathogenesis

Answer 45

• Impaired perfusion of boundary zone
• Poor cerebral vascular autoregulation
• Selectively vulnerable oligodendrocytes

Question 46

What is this?

Answer 46

Periventricular Leukomalacia

• Central zone of necrosis
• Surrounding mineralization axons

Question 47

Multicystic Encephalopathy

Definition

Clinical

Answer 47

• Destruction of both gray & white matter in 3rd trimester
• Sponge-like glial lined cysts remain
• Attributed to extensive hypoxia/ischemia

Question 48

Subependymal Germinal Matrix Hemorrhage

Location

Onset

Answer 48

• Originate in periventricular germinal matrix
  
  • Most frequently in germinal zone overlying head of caudate & thalamus
  • Frequently break through into ventricular system or underlying parenchyma
• Onset related to extreme physical distress (context of prematurity)
  
  • Perinatal occurrence
  • Hemodynamic instability
  • Mechanical ventilation
  • Hyaline membrane disease

Question 49

**Subependymal Germinal Matrix Hemorrhages **

• Grade 1
• Grade 2
• Grade 3
• Grade 4

Answer 49

• Grade 1
  
  • confined to germinal matrix
• Grade 2
  
  • germinal matrix & lateral ventricle
  • no ventricular dilatation
• Grade 3
  
  • germinal matrix & lateral ventricle
  • acute ventricular distention
• Grade 4
  
  • as above w/ extension into adjacent brain parenchyma

Question 50

What is this?

Answer 50

Subependymal Germinal Matrix Hemorrhage