Neuropediatri Flashcards
Milestone, disorder anak
Lapisan embrional utama sistem saraf
Ektoderm
Notocord
notochord, a layer
of mesodermal cells in contact with the ectoderm, induces
formation of the neural plate from the ectoderm and later signals
differentiation of various cell types mediated by inductive signals.
The notochord later gives rise to the vertebral column
Neurulation
Neurulation occurs at 3 to 6 weeks’ gestation.
Neurulation involves
proliferation and migration of ectodermal cells and invagination,
folding, and fusion of the neural plate in a specific pattern. An
important step in neurulation includes the formation of a midline
groove along which the lateral margins of the neural plate fold.
These lateral margins start to fuse in the center, so that for a
period of time, there are openings at each end, the anterior and
posterior neuropore. Fusion then reaches the neuropores, the
anterior one first, then the posterior one, and the neural tube is
thus formed.
Abnormal neural plate fusion
Abnormal rostral fusion at the anterior
neuropore leads to abnormalities such as encephalocele or
anencephaly, whereas abnormal caudal fusion (at the posterior
neuropore) leads to disorders such as spina bifida
Neural tube segmentation
Following neurulation, the neural tube undergoes segmentation
into three vesicles, in a process called specification, whereby
different segments begin to acquire cell types and characteristics
specific to the central nervous system (CNS) structure that will
eventually arise from them. The three segments include the prosencephalon,
mesencephalon, and rhombencephalon. Abnormalities
during specification, which occurs at 5 to 6 weeks of gestation,
lead to disorders such as septo-optic dysplasia
The peripheral nervous system (including the autonomic ganglia)
forms from
Berasal Dari neural crest cells that are derived from the neural tube
after it fuses. In addition to peripheral nervous system structures,
neural crest cells give rise to the chromaffin tissue of the adrenal
medulla and melanocytes
Prosencephalon membentuk
prosencephalon
subsequently forms the telencephalon, which gives rise to the
cerebral hemispheres, as well as the diencephalon, which forms the
hypothalamus and the thalamus.
Mesencephalon membentuk
mesencephalon gives rise to
the midbrain, and the rhombencephalon gives rise to the rest of the
brainstem (pons and medulla) and the cerebellum
Galactocemia
Patients present in the first days of life
with feeding difficulties, vomiting, diarrhea, and jaundice. They
also have hepatomegaly, failure to thrive, lethargy, and hypotonia.
Cataracts also occur and are caused by an accumulation of
galactitol. Late neurologic sequelae include developmental delay,
cognitive impairment, ataxia, and tremor, with brain MRI
demonstrating white matter changes and cortical and cerebellar
atrophy.
Pyruvate dehydrogenase (PDH)
Pyruvate dehydrogenase (PDH) deficiency is caused by defects of
the PDH complex, which is responsible for the oxidative
decarboxylation of pyruvate to carbon dioxide and acetyl
coenzyme A.
linical presentation is variable, ranging from severe neonatal
lactic acidosis with death in the neonatal period to less severe
forms that are manifested in infancy, in which patients have lactic
and pyruvic acidosis, and episodic or progressive ataxia,
nystagmus, dysarthria, lethargy, weakness with areflexia,
hypotonia, and psychomotor retardation, which can be profound.
These patients have episodic exacerbations, which can be
spontaneous or triggered by infections, stress, or high-carbohydrate
meals. Some patients may have a Leigh’s disease–like presentation.
elevations of lactate and
pyruvate levels, with a low lactate:pyruvate ratio. Enzyme analysis
can be performed in leukocytes, cultured fibroblasts, muscle, or
liver biopsy specimens. Pathologically, there may be cystic lesions
in the white matter and basal ganglia, and certain cases of the
neonatal form may have agenesis of the corpus callosum.
Management of PDH deficiency includes ketogenic diet (high fat
with low carbohydrates) and thiamine supplementation. Carnitine,
coenzyme Q10, and biotin supplementation may be given, but their
efficacy is not well established. Acetazolamide may be used for the
treatment of episodes of ataxia.
Neurofibromatosis type 1
neurofibromatosis type 1 (NF1) have
normal cognition or mild developmental delay. Other
neuropsychiatric manifestations in NF1 include behavioral
problems and learning disabilities.
Renal artery stenosis due to renal artery dysplasia occurs in some
patients with NF1 and can lead to hypertension.
Pheochromocytoma has also been associated with NF1 and the
latter two causes of hypertension should be considered in an NF1
patient with hypertension. Moyamoya syndrome and other
intracranial arterial abnormalities including intracranial aneurysms
may occur in patients with NF1.
Macrocephaly is common in patients with NF1 and occurs
independent of hydrocephalus, although aqueductal stenosis may
occur in NF1. Thinning of the cortex of long bones and other long
bone dysplasias may lead to pathologic fractures and
pseudarthrosis. Other skeletal abnormalities in NF1 include
scoliosis and sphenoid wing dysplasia
glucose transporter type 1 (GLUT-1) deficiency
Glucose crosses the
blood–brain barrier facilitated by GLUT-1.
manifest with
an epileptic encephalopathy with infantile-onset seizures,
developmental delay, microcephaly, and complex involuntary movement. Cerebrospinal fluid (CSF) glucose level is low with a normal serum
glucose level, and other CSF studies are normal, excluding other
causes of hypoglycorrhachia (such as CNS infection).
Electroencephalogram (EEG) may show 2.5 to 4 Hz spikes and
waves and the interictal EEG findings may improve with glucose.
However, EEG findings are not specific, and some patients may
have normal interictal EEG. Neuroimaging does not show specific
abnormalities.
Ketogenic diet should be started as soon as the diagnosis is
suspected, since this treatment option improves seizure control and
the abnormal movements; however, it is less effective for the
psychomotor impairment.
Anencephaly
Anencephaly is the complete absence of both cerebral
hemispheres. Because the underlying mesoderm also fails to
properly differentiate, a large cranial vault defect (in skull,
meninges, and skin) also occurs. This is not compatible with life,
and most such infants are stillborn; in rare cases in which the infant
is born alive, death occurs soon after birth.
Encephalocele
Encephalocele is defined by herniation of neural tissues hamartomatous brain tissue, without recognizable architecture)
into a midline defect in the skull. Encephaloceles are most often
located in the occipital area and less often in frontal areas.
Clinically, they appear as round, protuberant, fluctuant masses
covered by an opaque membrane or normal skin. They are
compatible with life although they cause multiple complications.
Associated clinical features include microcephaly, developmental
delay (which is more severe in occipital as compared with frontal
encephaloceles), and invariably hydrocephalus. Chromosomal
aberrations commonly seen in patients with encephaloceles include
trisomy 13 and trisomy 18. Occipital encephaloceles should be
distinguished from cranial meningocele in which only
leptomeninges and CSF are herniated through a skull defect.
phenylketonuria (PKU)
phenylketonuria (PKU) is a disorder of
phenylalanine metabolism, caused by a deficiency of phenylalanine
hydroxylase. This enzyme converts phenylalanine to tyrosine, and
its deficiency leads to accumulation of phenylalanine, which is then
metabolized by phenylalanine transaminase to phenylpyruvic acid,
which is subsequently oxidized to phenylacetic acid, responsible for
the musty odor of the sweat and urine.
Patients with PKU are
normal at birth, with a rise in the phenylalanine levels after
initiation of feeding. These patients will have developmental delay,
cognitive impairment, microcephaly, seizures, hypotonia, and
severe behavioral disturbances. A musty odor, as described, is
characteristic. These children are fair, with blond hair, blue eyes,
and pale skin given the lack of tyrosine and melanin pigment
treatment of PKU is dietary restriction of phenylalanine, and
these patients should be placed on a low-protein diet and
phenylalanine-free feeding formula as soon as possible after birth,
which will prevent neurologic deterioration. Tetrahydrobiopterin is
used as a treatment adjunct in select patients.
maple syrup urine disease
This is an autosomal
recessive condition caused by branched-chain α-ketoacid
dehydrogenase complex deficiency, leading to the accumulation of
branched amino acids and their ketoacids. The classic type is the most
severe and presents in the neonatal period with lethargy, poor
feeding, and hypotonia after ingestion of protein. At 2 to 3 days of life, a progressive encephalopathy develops with opisthotonus and
abnormal movements. At around 1 week, these patients may have
coma and respiratory failure, with subsequent cerebral edema and
seizures, and eventually death if untreated. Treatment is a low-protein diet, more specifically a branchedchain amino acid–restricted diet, which should be started early in
life (as soon as the diagnosis is suspected) to prevent cognitive
decline. Thiamine should be provided, since some patients may be
responsive to this vitamin. Orthotopic liver transplantation may be
a therapy for these patients.
NTD
NTDs include meningocele, myelomeningocele,
diastematomyelia, diplomyelia, and sacral agenesis.
Sacral agenesis
Sacral agenesis is absence of the sacrum rather than absence of the
sacral spinal cord and is frequently associated with other
malformations.
Sacral agenesis, or absence of the whole (or in some cases parts
of the) sacrum, classically occurs in association with a variety of
other urogenital, gastrointestinal, and spinal cord abnormalities. It
has been associated with maternal insulin-dependent diabetes.
Autosomal dominant forms associated with homeobox gene
mutations have been identified. Clinical manifestations range from
mild motor deficits to severe sensory and motor deficits and bowel
and bladder dysfunction
Myelomeningocele
Myelomeningocele (also known as spinal dysraphism or
rachischisis) is protrusion of potentially all layers of intraspinal
contents through a bony defect: spinal cord, nerve roots, and
meninges. The spinal cord may either be exposed, or a thin
membrane may cover the protrusion. They most often occur in the
lumbosacral region but can occur at any level. This is a clinically
severe NTD associated with hydrocephalus, motor and sensory
abnormalities of the legs, and bowel/bladder dysfunction.
Myelomeningocele occurs in association with Chiari II
malformations
Diastematomyelia
Diastematomyelia is splitting of the spinal cord into two portions
by a midline septum. Diplomyelia is duplication of the spinal cord
and is distinguished from diastematomyelia by the presence of two
central canals each surrounded by gray and white matter as in a
normal spinal cord.
cardiac rhabdomyomas
cardiac rhabdomyomas, manifestations may include
heart failure due to obstruction or cardiomyopathy, arrhythmias,
and stroke from cerebral embolization. Surveillance with periodic
echocardiograms should occur in TSC (tuberous sclerosis complex) patients with rhabdomyomas
to ensure lack of enlargement and regression. Medical management
of arrhythmias, heart failure, or surgical removal is necessary in
some patients.
tuberous sclerosis complex
- cardiac rhabdomyomas occur in more than half
of patients with tuberous sclerosis complex - Renal angiomyolipomas, benign tumors consisting of vessels,
smooth muscle, and fat, occur in more than half of patients with
TSC. - Lymphangiomyomatosis is a rare, often fatal pulmonary disease
occurring most often in female patients with TSC. - ophthalmologic manifestations may
occur. Retinal hamartomas may be seen, ranging from subtle to
classic mulberry-like lesions near the optic disc, and also including
plaques or depigmented lesions.
Propionic acidemia
Propionic acidemia is an autosomal recessive disorder caused by
a deficiency of propionyl-CoA carboxylase. This enzyme normally
participates in the carboxylation of propionyl-CoA to Dmethylmalonyl-CoA, a step that requires the coenzyme biotin.
Children with propionic acidemia appear normal at birth but will
develop symptoms in the early neonatal period, in infancy, or later
in childhood. Patients present with feeding difficulty, lethargy,
hypotonia, dehydration, and attacks of metabolic acidosis with
ketosis and hyperammonemia. They may progress to have seizures
and coma. Other findings include hepatomegaly, pancytopenia, and
bleeding disorders including intracranial hemorrhage. Patients who
survive have developmental delay and involuntary movements
(resulting from basal ganglia involvement).
spina
bifida occulta
spina
bifida occulta. This is a defect in the bony components along the
posterior aspect of the vertebral column. It can often be
asymptomatic, but an abnormal conus medullaris and filum
terminale are possible. The presence of a tuft of hair, associated
with underlying spina bifida occulta, does not necessarily imply
impending cognitive or motor delay. In fact, when early neurologic
development is normal, it will typically continue to be so.
However, associated neurologic dysfunction may portend future
neurologic impairment
occult spinal dysraphism
child with a
tuft of hair over the lumbar region but with no other evidence of
NTD.
variety of developmental abnormalities may
be seen involving the spinal cord or roots and posterior fossa, and
associated findings may include dermoid or epidermoid cysts,
intraspinal or cutaneous lipomas, and tethered cord.
Diastematomyelia, or splitting of the spinal cord, may also be seen.
Rarely, a sinus tract connects the dura with the surface of the skin.
In occult spinal dysraphism, neurologic manifestations vary widely
and may range from minimal motor deficits and ankle hyporeflexia
to bowel and bladder dysfunction, sensory loss, and paraparesis or
paraplegia. Although patients may be initially asymptomatic, these
neurologic deficits can develop subsequently and be irreversible
Lesch–Nyhan disease
Lesch–Nyhan disease, which is inherited in an Xlinked fashion and is caused by deficiency of the enzyme
hypoxanthine guanine phosphoribosyltransferase, which
participates in the salvage pathway of purine metabolism
The classic form may manifest in the newborn
period with severe hypotonia. These children will have delayed
motor development, progressive limb and neck rigidity with
dystonia, choreoathetotic movements, facial grimacing, seizures,
spasticity, and intellectual impairment. Aggressive behavior, selfmutilation, and progressive dementia are hallmarks of the
neurologic form of the disease.
Faktor resiko NTD (Neural Tube Defect)
Several risk factors for NTDs have been identified. Neural tube
defects are more common in females. Folate is involved in various
pathways of nucleic acid synthesis and DNA methylation reactions,
and maternal folate deficiency is a well-established risk factor for
NTD. Therefore, prenatal and perinatal maternal supplementation
with 0.4-mg folic acid is recommended. Teratogens associated with
NTDs include retinoic acid (vitamin A or the acidic form, tretinoin,
found in acne medications). Other teratogens associated with NTDs
include antiepileptics, particularly valproic acid and
carbamazepine, which may lead to NTDs by affecting folate
metabolism. Other risk factors for NTDs include maternal diabetes
and history of pregnancy resulting in an infant with an NTD
Niemann-Pick Disease
Niemann–Pick types A and
B are caused by acid sphingomyelinase deficiency, leading to
accumulation of sphingomyelin. This disorder is autosomal
recessive.
Type A involves the CNS as well as other viscera and manifests
in infancy with feeding difficulty, failure to thrive, hypotonia, head
lag, inability to sit, and eventual psychomotor retardation with
regression. Cherry-red spot is commonly seen, and these patients
have massive hepatosplenomegaly. Most affected children do not
survive beyond 3 years of age.
Type B is purely visceral and does not affect the CNS, presenting
with hepatosplenomegaly and interstitial lung disease. These
patients may present in mid-childhood and may survive into
adulthood.
Niemann–Pick type C, which is an autosomal
recessive disorder caused by defects in intracellular cholesterol
circulation, resulting in lysosomal storage of phospholipids and
glycolipids, with alteration in glycolipid metabolism.
Metachromatic leukodystrophy
Metachromatic leukodystrophy is an autosomal recessive disorder
caused by deficiency of the lysosomal enzyme arylsulfatase A with
accumulation of sulfatide, resulting in demyelination of the central
and peripheral nervous system.
Syringomyelia
Syringomyelia is a fluid-filled cavity within the spinal cord that is
separate from the central canal and lined by gliotic tissue
hydromyelia
hydromyelia is the term used to describe an enlargement in the
central canal itself, and the cavity wall is, therefore, lined by
ependyma.
Chiari I malformation
displacement of the
cerebellum and cerebellar tonsils downward through the foramen
magnum. In minor
downward displacement of less than 1 cm, the patient may be
asymptomatic, and care should be taken in attributing nonspecific
neurologic symptoms to the Chiari malformation. In more severe
downward displacem; headache, ataxia,
nystagmus, cranial nerve abnormalities, and other brainstem
symptoms may occur. Associated findings include syringomyelia.
The pathophysiology of Chiari I malformation may relate to
posterior fossa overcrowding due to posterior fossa hypoplasia
Chiari II malformation/ Arnold–Chiari
malformation
displacement of the cerebellar vermis and
tonsils in association with a myelomeningocele. Brainstem
dysfunction is often prominent, including cranial nerve
abnormalities, stridor, apnea, and feeding difficulties. Fourth
ventricle compression leads to hydrocephalus. The exact cause of
Chiari II is not known; however, a theory suggests that Chiari II
malformation may be secondary to the presence of the caudal
myelomeningocele, producing downward traction and hence
herniation of the brainstem and cerebellum through the foramen
magnum. Management of Chiari II malformation includes shunting
for hydrocephalus and surgical intervention for the
myelomeningocele. Treatment may include posterior fossa
decompression through suboccipital craniectomy. Management of
complications including seizures, feeding difficulties, and bowel
and bladder dysfunction is also necessary
Chiari III malformation
Chiari III malformation is cerebellar herniation into a cervical or
occipital encephalocele
Glycoproteinoses
Glycoproteinoses are a group of lysosomal storage disorders of
autosomal recessive inheritance, in which the enzymatic defect
leads to accumulation of oligosaccharides, glycopeptides, and
glycolipids. Accumulation in the brain and viscera leads to
vacuolization of multiple cell types. There are multiple phenotypes
depending on the enzyme affected. In general, these patients have
coarse facial features, skeletal abnormalities, and psychomotor
retardation.
Macam :
sialidosis Sialidosis is caused by deficiency of lysosomal α-N-acetyl
neuraminidase (sialidase), α-mannosidosis caused by α-
mannosidase deficiency, β-mannosidosis caused by β-mannosidase
deficiency, fucosidosis caused by α-fucosidase deficiency,
aspartylglucosaminuria caused by aspartylglucosaminidase
deficiency, and Schindler’s disease caused by α-Nacetylgalactosaminidase deficiency.
Joubert’s syndrome
Joubert’s syndrome is an autosomal
recessive disorder characterized clinically by developmental delay,
ataxia, oculomotor abnormalities, and respiratory difficulties.
MRi : molar tooth sign, which results from
cerebellar vermis hypoplasia with fourth ventricular enlargement,
a large interpeduncular fossa, and abnormal superior cerebellar
peduncles
COACH syndrome
COACH syndrome (cerebellar
vermis hypoplasia, oligophrenia, congenital ataxia, coloboma, and
hepatic fibrosis
Fabry’s disease
Fabry’s disease is an X-linked
disorder caused by deficiency of the enzyme α-galactosidase,
resulting in accumulation of ceramide trihexoside in epithelial,
mesenchymal, and neural cells.
The initial manifestations begin in childhood or adolescence,
presenting with dysesthesias, lancinating pain, and episodes of
burning sensation from small fiber neuropathy, which also may be
associated with autonomic dysfunction. Dermatologic
manifestations include the characteristic angiokeratomas (punctate,
nonblanching blue-black lesions), more prominent in the lower
abdomen and legs, especially in the groins, hips, and periumbilical
regions. Cardiac involvement manifests with valvular disease,
arrhythmias, cardiomyopathy, and ischemic heart disease. There is
also renal involvement from endothelial and glomerular damage,
causing acute renal failure and eventually chronic renal disease
leading to hypertension and uremia. Vascular compromise arises from endothelial and vascular smooth muscle involvement and can
lead to ischemic stroke. Another frequent clinical finding is corneal
opacity.
Pathologically, there is lysosomal storage of birefringent lipids,
with membrane-bound lamellar deposits on electron microscopy.
Treatment includes enzyme replacement therapy
holoprosencephaly.
Failure of the prosencephalon to form the telencephalon and
diencephalon, and failure of formation of two distinct cerebral
hemispheres
Macam :
- alobar : cerebral hemispheres are almost completely fused, with absence of
the interhemispheric fissure and corpus callosum. There is a single
midline ventricle. Variable dysgenesis and fusion of the thalamus,
hypothalamus, and basal ganglia is present.
- semilobar
holoprosencephaly, parts of the posterior hemispheres may be
separated by a fissure.
-lobar holoprosencephaly, only the most
anterior portions of the hemispheres are not separated, and there is
partial agenesis of the corpus callosum, but the splenium and genu
are present.
alobar holoprosencephaly, associated midline
facial defects such as cyclopia (single midline eye) and proboscis
(single-nostril nose) often occur, and these more severely affected
individuals are usually stillborn or do not survive long after birth.
If death does not occur in utero, the clinical picture includes severe
cognitive and motor delay, feeding difficulties, and seizures.
Endocrinologic problems including diabetes insipidus and
panhypopituitarism are frequent. Hydrocephalus is a frequent
complication.
arrhinencephaly
The olfactory bulb and tracts develop from the prosencephalon a
few days after the hemispheres divide. In severe forms of
holoprosencephaly, arrhinencephaly (agenesis of the olfactory bulb
and tract) invariably occurs. However, in less severe forms of
holoprosencephaly, arrhinencephaly may occur in isolation.
Kallmann’s syndrome, an X-linked dominant disorder, is
characterized by anosmia (due to arrhinencephaly) and
hypogonadism
