1. Neurocutaneous Syndromes Dr. Lamyaa Jad FRCPC
Pediatric Neurologist
King Fahad Medical City
2. Definition Referred to as neurocutaneous syndromes because of frequent involvement of the skin in addition to the nervous system
Other name phakomatosis- phakos= greek for lentil or birth mark
Notable for their dysplastic nature and tendency to form tumors in various tissues
4. Neurocutaneous Disorders
Neurofibromatosis I/II
Tuberous Sclerosis
Sturge-Weber
Von Hippel-Lindau
Ataxia Teleangiectesia
PHACES Syndrome
Linear Nevus Syndrome
Hypomelanosis of Ito
Incontinentia Pigmenti
5. Neurofibromatosis Autosomal dominant disorders
Affects nervous system, skin, bone, and soft tissue
Type I &Type II
3rd segmental NF=disease limited to single body region may be related to mosaicism or segmental hyperexpression of the condition
6. NF-1
NF-1 Most prevalent
Incidence 1/4000
M=F
Autosomal dominant
Chromosome 17q11.2
Protein product Neurofibromin ;tumour suppressor
Signs can range from benign cutaneous manifestations to profound disfigurement.
7. First degree Relative with NF-1
Chromosome 17q11.2
9. Features of NF1 Pigmentary Features
Café-au lait macules
Skinfold freckling
Hyperpigmented iris hamartomas (Lisch nodules)
Optic Pathway Gliomas
Neurofibromas
Bony Abnormalities
Learning Disabilities and T2 Hyperintensities
10.
Café -au-lait macules
Trunk and extremities, spares face
11. NF-1 �Café-au-lait Macules
Flat ,homogenous hyperpigmentation with smooth regular borders
Numbers increase in 1st 2yrs of life
Do not evolve into tumors
May fade in adults
12. Skin fold freckling ;multiple hyperpigmented areas 2-3 mm in diameter
13. NF-1 �Skinfold Freckling� Freckling in non-sun-exposed regions, such as the axilla and inguinal regions
Occur in 80% by age 6
Also observed under the neck and breasts where skinfolds exist
14. Optic Glioma
15. NF-1 �Optic Pathway Gliomas
Most common CNS tumor in NF1 15-20%
Grade I glioma (pilocytic astrocytomas)
Mean age of presentation= 4.2 years
Arise anywhere along the optic pathway
Frequently involve the optic nerve, chiasm, or hypothalamus.
May cause visual loss ,proptosis & precocious puberty
Annual ophthalmologic examinations recommended during 1st 10 yrs of life
16. NF-1 �Lisch Nodules Hyperpigmented iris hamartomas
Found in~30% of individuals with NF1 by age 6
Do not cause visual impairment or other clinical sequelae
Slit lamp necessary for accurate detection of Lisch nodules
17. identified with slit lamp
Hamartomas located within the iris.
>74% patients with NF-I, two or more increases with age-
18. NF-1 �Dermal Neurofibroma Most common tumor in adults with NF1
A benign peripheral nerve sheath tumor composed of Schwann cells, fibroblasts, and mast cells
Do not appear until puberty and increase with age & are present in nearly all adults with NF1
No risk of malignant transformation, but carry a major cosmetic burden
19. Two or more -Small, rubbery, purplish skin
Skin, peripheral nerves, GI tract
During adolescence and pregnancy.
20. NF-1 �Plexiform Neurofibromas Found in 1/3rd of NF1
Diffuse neurofibroma involving multiple nerve fascicles
May involve multiple tissues, including skin, fascia, muscle, bone, and internal organs
May arise from deep structures, remain silent until later in life
May stimulate underlying bone growth, causing leg length discrepancies, scoliosis, or sphenoid wing dysplasia
Cross tissue planes ,highly vascular so, extremely difficult to resect
21. Plexiform Neurofibromas 10% lifetime risk of malignant transformation
can evolve into a malignant peripheral nerve sheath tumor.
Malignant peripheral nerve sheath tumors are highly aggressive, lethal tumors that frequently metastasize and rarely do not respond to chemotherapy and radiation
Pain and neurologic deficit are the two most
reliable indicators of malignant transformation
22. Malignant Peripheral Nerve Sheath Tumor
PET studies useful in distinguishing benign from malignant peripheral nerve sheath tumors
Standard treatment of malignant peripheral nerve sheath tumor ;wide surgical excision followed by local radiotherapy
Treatment delays local recurrence, but does not improve long-term survival
23. Sphenoid Dysplasia.
24. NF-1 �Bony Abnormalities
Skeletal dysplasias ; sphenoid wing dysplasia ,scoliosis & tibial pseudarthrosis
Scoliosis affects 10-20%
Cortical thinning of long bones or dysplastic bony changes lead to repeated pathologic fractures with incomplete healing resulting in pseudarthrosis
Tibial pseudarthrosis typically presents in early infancy
Short in stature 13% of NF1 height <than 2 std deviations below the mean.
Macrocephaly; 24% of NF1 head circumference >2 S.D. above the mean
25. Scoliosis most common bony manifestation Pseudoarthrosis.
26. NF-1 �T2 Hyperintensities
Areas of signal hyperintensity on T2 MRI observed in 60-70% of children with NF1; termed unidentified bright objects(UBO’s)
UBO’s are found in ;brainstem, basal ganglia, thalamus & cerebellum.
The relationship between unidentified bright objects and cognitive dysfunction in NF1 is controversial
27. NF-1 �Learning Disabilities Specific learning disabilities 30-65%
Learning deficits involve visual spatial and visual motor
integration skills & language-based skills ;reading
& spelling
ADHD
IQ 89 -94.
All children with NF1 should undergo comprehensive cognitive evaluation to identify specific cognitive deficits
28. The Clinical Manifestations of NF1 are Age Dependent �
29. Diagnostic Criteria for NF-1 The diagnostic criteria are met if >2 of below are present
Café au lait macules
Prepubertal ; Six or more > 5 mm
Postpubertal : Six or more >15 mm
Neurofibromas >2 of any type or 1 plexiform neurofibroma
Axillary /inguinal freckling
Optic glioma
Lisch nodules >2 =(iris hamartomas (
Osseous lesions; such as sphenoid dysplasia or thinning of the long bone cortex, with or without pseudoarthrosis
1st degree relative with NF-1 according to the above criteria
30. Complications learning disabilities, ADHD, Speech disorder
Seizures
Hydrocephalus
Macrocephaly
Moya-moya Disease
Precocious puberty
Hypertension.
Fibromuscular dysplasia
Pheochromocytoma
Malignancy
Neurofibrosarcoma
Malignant Schwanoma Abnormal signals in the globus pallidus, thalamus and internal capsule 30
31. Neurofibromatosis II
Bilateral Acoustic Neuromas
Hearing loss
Unsteadiness
Headache
Facial weakness
common in 2nd -3rd decade
Chromosome 22q1.11
protein product merlin (or schwannomin)= tumor supressor
32. Subcapsular opacity- 50% of NF-II 32 Neurofibromatosis II
33. Neurofibromatosis II 33 Ependymomas (80%)in spinal cord.
Spinal Schwannomas (70%) intradural extramedullary
34. Tumor Types in NF II Vestibular schwannomas
Schwannomas on other cranial nerves ;CN1 , CNIII , CNIV
Meningioma
Pilocytic astrocytomas
Ependymomas
36. Management of NF1 ,NII Genetic counseling
50 % sporadic mutation
Prenatal diagnosis in familial cases.
Annual evaluation ;
Hearing
language
development
Blood pressure
spine
eye exam
change in neurofibroma
36
37. Tuberous Scelrosis 1/6000
Ch. 9q34-TSC1-Hamartin
Ch. 16p13-TSC2-Tuberin
50% sporadic
Wide clinical spectrum
37
38. TS Dermatologic Features
95 % of TS patients have 1 characteristic skin lesion
Ash-leaf spots; elliptic hypopigmented macules
Angiofibromas; involve malar regions of face
Shagreen patches ;over lower trunk
Fibrous forehead brown plaques; infants & neonates
Periungual and ungual fibromas; adolescence or adulthood
39. TS�Ophthalmic Features
Retinal hamartomas
Flat, translucent lesion 70 %
Multilobular mulberry lesion 55%
Transitional lesion 9%
Chorioretinal depigmentation
Angiofibromas of the eyelids
Nonparalytic strabismus
Colobomas
Sector iris depigmentation
40. �Central nervous system Manifestation of Tuberous Sclerosis � Cortical tubers
White matter heterotopias
Subependymal nodules
Subependymal giant cell tumors (Subependymal giant cell astrcytoma)
Relative risk of malignancy in TS 18-fold higher
Risk of invasive cancer higher in TSC2 than TSC1 mutations
41. Cardiac Rhabdomyomas Develop in utero detected on prenatal ultrasound
Benign mainly asymptomatic, some symptomatic in perinatal period
Spontaneous regression in 1st few yrs of life
Other cardiovascular manifestations
Coarctation of the aorta
Renal artery stenosis
Aortic aneurysm
42. Renal Manifestation of TS Angiomyolipomas most common
Benign cysts
Lymphangiomas
Renal cell carcinoma 1 - 2 % of adults
43. Pulmonary Manifestations Lymphangioleiomyomatosis+/- with renal angiomyofibromas
Some women have this combination as an isolated finding with no other features of TS and no identifiable germline mutation in TSC1 or TSC2 genes
44. Hypopigmented in 90% of patients
Enhanced by wood’s lamp examination 44
45. Retinal Lesions Mulberry Tumors
Retina nerve fiber and undifferentiated glial tissue
30-50% Ts
Can be found in normal persons. 45
46. Facial Angiofibroma Forehead Plaque 46
47. Shagreen patch at lower back. 47
48. Confetti lesions 48
49. Candle Dripping Tubers 49
50. Cardiac Rhabdomyoma 50
52. Diagnosis of TS
Definite :2 major features or
1 major feature +2 minor features.
Probable : 1 major +1 minor feature.
Possible : 1 major feature or >2 minor features.
53. Major Features of TS
Facial angiofibromas or forehead plaque
Nontraumatic ungual or periungual fibromas
Hypomelanotic macules 3 (>3)
Shagreen patch (connective tissue nevus
Multiple retinal nodular hamartomas
Cortical tuber
Subependymal nodule
Subependymal giant cell astrocytoma
Cardiac rhabdomyoma, single or multiple
Lymphangiomyomatosis
Renal angiomyolipoma
54. Minor Features of TS
Multiple randomly distributed pits in dental enamel
Hamartomatous rectal polyps
Bone cysts
Cerebral white matter radial migration lines
Gingival fibromas
Nonrenal hamartoma
Retinal achromic patch
Confetti skin lesions
Multiple renal cysts
55. Management of TS CT/MRI brain
Cardiac Echo
Renal Ultrasound .adolescence renal ultrasonography every 1 - 3 yrs
Seizure control-ACTH for infantile spasm
Symptomatic tumor treatment.
Cosmetic treatments
55
56. Sturge-Weber Syndrome
Etiology-Anomalous development of primordial vascular bed.
1/50,000
Hypothesis : somatic mutations in fetal ectodermal tissues cause inappropriate control /maturation of capillary blood vessel formation
NOT a heritable disorder, recurrence is unlikely
57. Sturge-Weber Syndrome
Facial (port-wine stain)
Leptomeningeal angioma
Vascular malformations associated with ocular and neurologic abnormalities
58. Sturge Weber Syndrome Portwine Stain 58
59. Sturge Weber Syndrome �Cutaneous Port Wine Stain
Small % of children with port-wine stains have SWS
Present on forehead & upper eyelid , distribution of 1st /2nd divisions of trigeminal
Leptomeningeal angioma ;90 % when port wine stain involves both upper & lower eyelids vs 10 % with 1 eyelid affected
Extension of skin lesion to both sides of face , trunk & extremities common
Treated by selective photothermolysis using pulsed dye laser
60. Sturge Weber Syndrome� Leptomeningeal Angioma Occurs in 10 -20 % with a facial port wine stain
Found ipsilateral to port wine stain
Commonly affects parietal & occipital areas
Pathology ; thickening & discoloration of leptomeninges caused by the increased vascularity
Angiomatous tissue fills the subarachnoid space in the sulci, & large tortuous venous structures drain superficially into the deep venous system.
The underlying parenchyma may be atrophic with intraparenchymal calcification 2nd ry chronic tissue hypoxia caused by venous stasis.
61. Sturge Weber Syndrome� Ocular Features Glaucoma
in 30 - 70 %
Risk highest in 1st decade
Congenital glaucoma in 50% (buphthalmos)
Treatment usually surgical
Vascular malformations of conjunctiva, episclera, choroid, and retina
Iris Heterochromia ; darker iris ipsilateral to facial angioma
Visual field defects; common when occipital cortex affected
62. Sturge Weber Syndrome �Neurologic Features Seizures
Hemiparesis
Hemiatrophy
Mental retardation
Behavior problems
Homonymous hemianopia
Hydrocephalus
63. � Sturge Weber Syndrome �Seizures �
80 % of SWS
More common with bilateral port-wine stains
Can develop at any age
May be associated with acute hemiparesis
Onset < 1 year & poor response to anticonvulsant associated with cognitive impairment
Adequate control accomplished with AED in 40 %
In refractory cases, hemispherectomy or limited surgical resection of epileptogenic tissue
64. Sturge Weber Syndrome Hemiparesis Develops acutely in conjunction with onset of seizures
Deficit contralateral to intracranial lesions
Affected extremity grows at slower rate ? hemiatrophy
Possible mechanisms ; cumulative effect of repeated thrombotic events in leptomeningeal angioma or chronic disturbance of blood flow and O2 delivery to brain
65. Sturge Weber Syndrome Diagnosis Neuroimaging
MRI with contrast
By 1 yr of age, -ve brain MRI with gadolinium can exclude leptomeningeal angioma
CCT = intraparynchymal calcification
It is reasonable to perform imaging in infancy only if ocular & neurologic abnormalities (glaucoma, seizures, or hemiparesis) present
66. Sturge Weber Syndrome prognosis depends on;
Extent of leptomeningeal angioma & cerebral cortex perfusion
Severity of ocular involvement.
Age of onset of seizures
Ability to control seizures
67. Buphthalmos 67
68. Gyriform Pattern of Cortical Calcification 68
69. Unilateral cortical atrophy 69
70. Treatment Seizures-medications
hemispherectomy or lobectomy
Physical Therapy and Rehabilitation
Ophthalmic evaluations periodically
Port Wine Stain- Laser
Aspirin controversial
70
71. �Ataxia-Telangiectasia� Autosomal recessive disorder
Defective DNA repair mechanisms
Incidence 1 in 20,000 -100,000 live births
1.4 - 2.0 % of Caucasians in US carry 1 defective AT gene
72. Ataxia-Telangiectasia� Pathology
Central & peripheral nervous systems involved
CNS abnormalities more severe; cerebellar atrophy with loss of Purkinje cells
Peripheral nerves have malformed Schwann cells nuclei
Thymus hypoplastic, with few lymphocytes & absent Hassall corpuscles consistent with the associated immune deficiency
74. Ataxia-Telangiectasia �Clinical Features Progressive cerebellar ataxia
Abnormal eye movement
Oculocutaneous telangiectasias
Immune deficiency
Increased incidence of malignancy
Radiation sensitivity
Diabetes mellitus caused by insulin resistance.
75. Ataxia-Telangiectasia � Neurologic Abnormalities Progressive cerebellar ataxia
Gross & fine motor skills deteriorate
Oculomotor apraxia; Abnormality with voluntary and involuntary saccades & smooth pursuit
Nystagmus
Extrapyramidal abnormalities; dystonia, chorea
Peripheral axonal neuropathy
Anterior horn cell degeneration
76. Ataxia-Telangiectasia Telangiectasias Bulbar conjunctivae
Exposed areas of the skin;pinnae, nose, face, and neck
Usually appear at 3-5yrs of age.
Delayed appearance of telangiectasia results in delayed diagnosis
77. Ataxia-Telangiectasia
78. Ataxia-Telangiectasia �Immune deficiency Cellular and humoral immunity 70%
Recurrent sinopulmonary infections
Progressive pulmonary disease a major cause of morbidity and mortality
79. Ataxia-Telangiectasia �Laboratory abnormalities Elevation of serum alpha-fetoprotein
Absence or marked reduction of IgA, IgG2, and other IgG subclasses
Inability to produce antibodies to polysaccharide antigens
Oligoclonal gammopathy
Lymphopenia
80. Ataxia-Telangiectasia �Malignancy After 10 yrs, the incidence of cancer is 1 %/yr
10- 20 % develop malignancy
85 % lymphomas and acute leukemias
Predisposition to breast cancer & others
AT cells susceptible to damage by ionizing radiation, or chemotherapeutic agents causing double-stranded breaks in DNA.
81. Ataxia-Telangiectasia
82. Von-Hippel-Lindau Disease Chromosome 3q25
Variable penetrance and delayed expression
Cerebellar hemagioblastomas and retinal angiomata.
Affects many organ systems-Cerebellum, spinal cord, medulla, retina, kidney, pancreas, and epididymis.
83. Cerebellar Hemangioblastoma Raised intracranial pressure
Cystic cerebellar lesion with vascular mural nodule- erythropoietin like protein.
Spinal Cord-abnormalities of proprioception, disturbances of bladder control & gait impairment
84. Retinal Angioma Peripheral-Initially vision unaffected
Grow, bleed, leave serous fluid-retinal detachment
Small-Laser photocoagulation
Large-Freezing probe from outside globe.
25% of retinal angioma patients have extraocular manifestation
60% with nonocular manifestations have retinal angioma
85. Von-Hippel-Lindau Disease
Cystic lesions of kidneys, pancreas, liver and
epididymis
Pheochromocytomas.
Renal carcinoma is most common cause of death.
86. Linear Sebaceous Nevus 86
87. Linear Nevus Syndrome
84%-Face
50%-Scalp, Neck and face
Scalp lesions devoid of hair
Seizures 75%
Infantile spasm
Generalized Tonic
Tonic Clonic
Neurological Deficits
Cranial Nerve palsies VI, VII
Cortical Blindness
Hemiparesis (hemimegalencephaly)
Mental Retardation-i70%
87
88. PHACE Syndrome.
89. PHACE Syndrome� Posterior fossa malformations
Hemangiomas
Arterial anomalies
Coaractation of the aorta
Eye abnormalities
90. Incontententia Pigmenta�Stage I
Erythematous linear streaks and plaques of vesicles
DD-Herpes, bullous impetigo, mastocytosis
eosinophilic spongiosis
Resolve by 4 mo
91. Incontententia Pigmenta�Stage II
Verrucous plaques
Dry & hyperkeratotic
Involute in 6 months
92. Incontententia Pigmenta�Stage III Hyperpigmentation
Hallmark
Macular whorls, linear streaks
Lines of Blaschko.
Sites are not necessorily same.
Invariably affects axilla and groin
Fade by early adolescence.
93. Incontententia Pigmenta�Stage IV
Hypopigmented
Hairless
Anhydrotic
Usually lower legs. 93
94. Incontententia Pigmenta�Other Manifestations
CNS (33%)
Motor and cognitive developmental retardation
Seizures
Microcephaly
Spasticity
paralysis
Dental(80%)
Late dentition
Hypodontia
Conical teeth
Impaction
Ocular(30%)
Neovascularization
Microphthalmos
Strabismus
Optic Nerve atrophy
Cataracts
Retrolenticular masses.
94
95. Incontententia Pigmenta Genetics Functional mosaicism
Random X-inactivation of an X-linked dominant Gene
Lethal in Males
Xq28
Increased frequency of spontaneous abortions. 95
96. Hypomelanosis of Ito Mosaicism-Family history is rare
Neurological Association
Mental retardation (70%)
Seizures (40%)
Microcephaly(25%)
Developmental delay
Deafness
Visual problems
Headache
Tooth or mouth problems
96
97. Hypomelanosis of Ito
