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Genodermatoses are a broad spectrum of heritable disorders that affect the skin and may or may not affect other organ systems.
Many, but not all, genodermatoses present with cutaneous and sometimes systemic findings in the neonatal period.
Classification and nomenclature of these disorders is evolving as we learn more about the genetic basis and pathogenesis of these conditions.
Newborns with signs of genetic skin disease often require multidisciplinary care.
Heritable disorders of the skin, also known as genodermatoses , encompass a diverse array of conditions that can affect the color, texture, and structural integrity of the epidermis, epidermal appendages, and connective tissue. Some of these diseases affect only the skin, but many are associated with other organ system anomalies. Knowledge of the molecular genetic basis of the genodermatoses is rapidly evolving, with the hope that this will lead to novel and more efficacious therapies. Table 92.1 provides a list of resources and support groups for patients with genodermatoses and their families.
Disorder | Resource(s) | Website |
---|---|---|
Ectodermal dysplasia/Incontinentia pigmenti | National Foundation for Ectodermal Dysplasias | http://www.nfed.org |
Ehlers–Danlos syndrome | The Ehlers-Danlos Society Hypermobility Syndromes Association |
http://www.ehlers-danlos.com http://www.hypermobility.org |
Epidermolysis bullosa | Dystrophic Epidermolysis Bullosa Research Association EB Research Partnership |
http://www.debra.org https://ebresearch.org |
Ichthyoses/disorders of keratinization | Foundation for Ichthyosis & Related Skin Types | http://www.firstskinfoundation.org |
Neurofibromatosis | Neurofibromatosis Network | http://www.nfnetwork.org |
Oculocutaneous albinism | National Organization for Albinism and Hypopigmentation | http://www.albinism.org |
Porphyria | American Porphyria Foundation | http://porphyriafoundation.org |
Tuberous sclerosis | Tuberous Sclerosis Alliance | http://www.tsalliance.org |
Xeroderma pigmentosum | The Xeroderma Pigmentosum Society XP Family Support Group |
http://www.xps.org http://www.xpfamilysupport.org |
Genetic mosaicism refers to an organism composed of two or more genetically distinct populations of cells. Mosaicism affecting the skin can lead to unique cutaneous patterns. One example of this is Blaschko lines, which refers to a linear and whorled pattern with midline demarcation, thought to represent migration of embryonic cells ( Fig. 92.1 ; Lombillo and Sybert, 2005). Blaschko lines are different from dermatomes, skin tension lines, or lines of lymphatic drainage. There are various heritable skin disorders that present with skin lesions that follow Blaschko lines, including pigmentary disorders, incontinentia pigmenti (IP), and Goltz syndrome, which will be discussed in this chapter.
The ichthyoses, also referred to as disorders of keratinization or cornification , are a group of skin disorders that are characterized by scaly skin and/or hyperkeratosis (thickened stratum corneum). Historically they have been classified by their clinical and sometimes histologic features, but nosology is evolving as the molecular basis of these disorders is being discovered. More than 50 genes have been reported to result is various types of ichthyoses. In 2009 an international consensus conference was held to revise the nomenclature and classification of inherited ichthyoses, which were subdivided into two principal groups: nonsyndromic and syndromic forms, summarized in Tables 92.2 and 92.3 , respectively, with exceedingly rare or minor variants that are beyond the scope of this chapter. The most striking neonatal presentations are discussed in more detail.
Disorder | Newborn Cutaneous Features | Extracutaneous Features |
---|---|---|
Common Ichthyoses | ||
Ichthyosis vulgaris | Onset usually after 2–6 months of age | Association with atopy |
Recessive X-linked ichthyosis | May have mild scaling and/or erythroderma or mild collodion membrane | Cryptorchidism (5%–20%); corneal opacities (~50%); prolonged labor; contiguous gene syndromes |
Autosomal Recessive Congenital Ichthyosis, Major Subtypes | ||
Lamellar Ichthyosis | Collodion membrane; ectropion; eclabium | With or without short stature |
Congenital ichthyosiform erythroderma | Mild scaling and erythroderma or mild collodion membrane | With or without short stature; failure to thrive |
Harlequin ichthyosis | Severe collodion membrane with armor-like scales; ectropion; eclabium; contractures | Contractures; failure to thrive; short stature |
Keratinopathic Ichthyosis, Major Subtype | ||
Epidermolytic ichthyosis | Erythroderma, bullae, or erosions, mild scaling | With or without growth failure |
Disorder | Newborn Cutaneous Features | Extracutaneous Features |
---|---|---|
Prominent Hair Abnormalities | ||
Netherton syndrome | Erythroderma, scaling | Atopic diathesis with elevated IgE concentration and eosinophilia; failure to thrive |
Ichthyosis–hypotrichosis–sclerosing cholangitis syndrome a | Mild scaling; jaundice | Sclerosing cholangitis or congenital paucity of bile ducts |
Trichothiodystrophy b | Collodion membrane or erythroderma and scaling | Developmental delay; short stature; cataracts; facial dysmorphism; bone abnormalities; gonadal abnormalities; recurrent infections |
Ichthyosis follicularis–atrichia–photophobia | Mild collodion membrane; congenital atrichia (alopecia) | Severe photophobia (vascularizing keratitis); developmental delay; short stature; atopic diathesis; other |
Prominent Neurologic Abnormalities | ||
Sjögren–Larsson syndrome | Scaling accentuated on scalp and neck, with or without erythema | Spastic paraplegia; mental retardation; ocular findings (retinal glistening white dots) |
Mental retardation–enteropathy–deafness–neuropathy–ichthyosis–keratoderma syndrome | EKV-like features, may present at birth or within the first few weeks of life | Congenital sensorineural deafness; peripheral neuropathy; developmental and growth delay; chronic diarrhea |
Refsum disease | Usually normal | Tetrad of retinitis pigmentosa, peripheral neuropathy, cerebellar ataxia, and elevated protein levels in the cerebrospinal fluid; anosmia; progressive deafness; other |
Prominent Skeletal Abnormalities | ||
Conradi-Hünermann-Happle syndrome (CDPX2) | Severe scaly erythroderma or collodion membrane | Chondrodysplasia punctata with asymmetric skeletal hypoplasia; cataracts; short stature |
Congenital hemidysplasia–ichthyosiform erythroderma or nevus-limb defects c | Persistent cutaneous findings may present at birth or within the first few months | Ipsilateral skeletal hypoplasia (x-ray may show punctate epiphyseal dysplasia); with or without renal, cardiac, or CNS anomalies |
Fatal Disease Course | ||
Gaucher syndrome type 2 | Mild collodion membrane or CIE-like features | Hydrops fetalis; progressive neurologic deterioration; hepatosplenomegaly |
Multiple sulfatase deficiency | RXLI-like (may have mild scaling and/or erythroderma or mild collodion membrane) or presents later | Metachromatic leukodystrophy and mucopolysaccharidosis with progressive neurologic deterioration |
Cerebral dysgenesis-neuropathy-ichthyosis-keratoderma | Normal at birth, presents between 5 and 11 months of age | Sensorineural deafness; cerebral dysgenesis; neuropathy; microcephaly; neurogenic muscle atrophy; optic nerve atrophy; cachexia |
Arthrogryposis–renal dysfunction–cholestasis syndrome | Scaling within a few days of birth or mild collodion membrane | Arthrogryposis; intrahepatic bile duct hypoplasia with cholestasis; renal tubular degeneration with metabolic acidosis; cerebral malformation; abnormal platelets |
Other Abnormalities | ||
Keratitis–ichthyosis–deafness syndrome | Erythematous, thickened skin; with or without congenital alopecia | Congenital sensorineural deafness; progressive keratitis with photophobia |
Neutral lipid storage disease with ichthyosis c | Mild collodion membrane or CIE-like or EKV-like features | Vacuolated granulocytes (Jordan anomaly); hepatosplenomegaly; myopathy; cataracts; hearing loss; developmental delay |
Ichthyosis prematurity syndrome | Thick, desquamating scale (vernix caseosa-like) with accentuation on scalp and eyebrows | Polyhydramnios with opaque amniotic fluid (from shedding epidermis); respiratory distress at birth; asthma; eosinophilia |
a Also known as neonatal ichthyosis sclerosing cholangitis syndrome.
b Also known as ichthyosis–brittle hair–impaired intelligence–decreased fertility–short stature syndrome; there are forms of trichothiodystrophy not associated with congenital ichthyosis.
The term collodion baby refers to a neonate born encased in shiny, thickened skin that resembles parchment or plastic wrap ( Fig. 92.2 ). The taut skin leads to various distorting features such as ectropion (eversion of eyelids), eclabium (eversion of lips), flattening or hypoplasia of the nose and ears, and pseudocontractures of the digits. These infants have an ineffective cutaneous barrier against transepidermal water loss and invasion of pathogenic organisms and are at risk of multiple complications, including temperature instability, dehydration, electrolyte instability, infections, poor sucking, failure to thrive, keratitis, ear canal obstruction, percutaneous toxicity from topical medications, pneumonia from aspiration of squamous material in amniotic fluid, and distal limb or digital ischemia.
These neonates need diligent supportive care in a humidified incubator with close monitoring of temperature, fluid and electrolyte balance, and caloric intake. Surveillance for signs of cutaneous or systemic infection is important, but prophylactic antibiotics or antifungals are not recommended. Skin care is somewhat controversial, but many advocate application of a bland petroleum-based or water-in-oil emollient at least every 6 to 8 hours. Caution is advised with use of topical medications or keratolytics because of increased percutaneous absorption and risk of toxicity. If there are erosions or fissures, bathing with normal saline may be more comfortable than with plain water. Ophthalmology and otolaryngology consultations should be considered for eye and ear involvement.
Collodion baby refers not to a specific disease but rather to an initial phenotype seen in several forms of ichthyosis ( Table 92.4 ). Ichthyosis prematurity syndrome, Netherton syndrome (NS), and Sjögren–Larsson syndrome must also be considered in the differential diagnosis. The collodion membrane is typically shed in 3 to 4 weeks, and the eventual phenotype depends on the underlying genetic mutation. More than half of collodion babies have autosomal recessive congenital ichthyosis (ARCI), discussed in more detail below. About 10% have almost normal skin after the collodion membrane sheds, which has been referred to as self-healing collodion baby . It is difficult to predict the long-term prognosis during the neonatal period. The diagnostic work-up should include a detailed family history and consideration of microscopic examination of scalp and eyebrow hair to look for tiger-tail banding seen on polarized microscopy in trichothiodystrophy (TTD). The role of skin biopsy before the collodion membrane has shed is controversial, and the underlying diagnosis may become evident with time, which will help determine appropriate genetic testing or the need for biochemical or metabolic assays.
Nonsyndromic ichthyoses |
|
Syndromic ichthyoses |
|
Metabolic diseases |
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Other diseases |
|
ARCI encompasses a spectrum of nonsyndromic autosomal recessive ichthyoses that includes phenotypes ranging from lamellar ichthyosis (LI) to nonbullous congenital ichthyosiform erythroderma (CIE) to harlequin ichthyosis (HI). ARCI is caused by mutations in more than a dozen different genes.
The classic LI phenotype is characterized by coarse, yellow to brown-black, platelike scales ( Fig. 92.3 ) with varying degrees of underlying erythema, ectropion, and eclabium. Many patients with LI are born with a full or partial collodion membrane, discussed earlier. The classic CIE phenotype is characterized by more prominent erythroderma and finer, white scales that may not be apparent until the collodion membrane sheds. Neonates with CIE often have a less severe collodion membrane or may be born without a membrane. The principles of neonatal management for these phenotypes are the same as those discussed earlier for a collodion baby.
HI is the most severe clinical phenotype of ichthyosis in a newborn and is rarely diagnosed by prenatal ultrasound. These neonates are born with an “armor” of thick, fissured, platelike scales ( Fig. 92.4 ). They have severe ectropion and eclabium and flattened, hypoplastic nose and ears. Constricting bands lead to contractures and digital ischemia. They are at high risk of the complications discussed earlier for collodion babies but have a higher rate of infant mortality. Historically, almost 50% of babies with HI have died in the neonatal period, more than half in the first 3 days of life. The cause of death is most commonly attributed to sepsis and/or respiratory failure. Intensive, multidisciplinary, supportive care is critical for neonates with HI, with detailed recommendations for neonatal care available. Early initiation of therapy with a systemically acting retinoid (such as isotretinoin, 0.5 to 1 mg/kg per day, or acitretin, 0.5 mg/kg per day) before day of life 7 may improve the survival rate. Patients who survive infancy have a lifelong ichthyosis that resembles CIE.
The term keratinopathic ichthyoses encompass ichthyoses that are a result of keratin mutations, most of which are autosomal dominant. Epidermolytic ichthyosis (EI), previously referred to as epidermolytic hyperkeratosis or bullous CIE , is the most common and presents with generalized erythroderma and bullae. The term epidermolytic hyperkeratosis describes the histopathologic or ultrastructural features seen on skin biopsy characterized by marked hyperkeratosis (thickened stratum corneum) with clumping and lysis (disintegration) of the epidermal cells above the basal layer. Newborns with EI typically present with widespread erythema and superficial blistering, as a result of the fragility of the epidermis from abnormal keratin production ( Fig. 92.5 ). These neonates may receive a misdiagnosis of epidermolysis bullosa (EB) or staphylococcal scalded skin syndrome. Subtle skin thickening over the elbows, knees, palms, or soles may be diagnostic clues. During the first few months of life, the phenotype gradually evolves into more pronounced skin thickening with verruciform, ridged scales, accentuated in areas of friction, including flexural and intertriginous areas. Malodorous bacterial colonization is common.
Treatment of neonates with EI requires supportive care with attention to gentle handling to minimize blister formation, including use of nonadherent dressings. They are at risk of temperature instability, dehydration, and electrolyte instability and should be closely monitored for bacterial infections.
EI is caused by autosomal dominant mutations in KRT1 or KRT10 , either inherited or caused by a spontaneous mutation. It is also possible that the parent of a child with EI may have a congenital epidermolytic epidermal nevus caused by a somatic mosaic keratin mutation in KRT1 or KRT10 . Gonadal involvement of the keratin mutation, more common in those with widespread epidermal nevi, results in an offspring affected by generalized EI.
Cutaneous and extracutaneous clinical features are critical in narrowing down the differential diagnosis for a neonate born with scaly or hyperkeratotic skin and can sometimes be sufficient for diagnosis. Family history may be helpful, particularly for ichthyoses with a dominant inheritance pattern. The gold standard for diagnosis is genetic mutation analysis.
Histopathologic findings from a skin biopsy in many patients with ichthyosis are nonspecific, with a few exceptions. EI has characteristic histologic findings of “epidermolytic hyperkeratosis” discussed earlier. Biopsy specimens from an individual with ichthyosis vulgaris, NS, TTD, Refsum syndrome, or Conradi-Hünermann-Happle syndrome (chondrodysplasia punctate X-linked dominant type 2) may show reduced or absent stratum granulosum. Histopathology of loricrin keratoderma is notable for parakeratosis and hypergranulosis. Special immunohistochemical stains or ultrastructural analysis by electron microscopy may be considered in certain cases.
Examination of hair shafts can be helpful for diagnosing NS and TTD. Trichorrhexis invaginata (“bamboo hair” or “ball-and-socket” deformity) is characteristic of NS but is not usually present until after 1 year of age and even then is invariably present. The hair of patients with TTD may show trichoschisis (clean transverse fracture) or trichorrhexis nodosa (nodes from longitudinal splitting of fibers) on light microscopy and characteristic tiger-tail banding on polarized microscopy from low sulfur content.
Further work-up for syndromic ichthyoses is typically based on extracutaneous findings.
Distinguishing the type of ichthyosis is crucial for offering prognostic information to the family, as prognosis is highly variable. Neonatal care for severe phenotypes, including collodion baby, LI, HI, and EI, was discussed earlier. For all types of ichthyosis, skin care typically involves application of bland emollients to hydrate the stratum corneum. Emollients with keratolytics such as urea, salicylic acid, α-hydroxy acids, and propylene glycol are usually avoided in infancy because of risk of toxicity from absorption. Oral retinoids are primarily considered for patients with HI or rarely in those with severe collodion membrane with delayed shedding.
Epidermolysis bullosa (EB) encompasses a group of mechanobullous disorders characterized by skin fragility and blister formation. The clinical spectrum is broad, but in the neonatal period most patients have vesicles, bullae, or erosions. Most forms of EB are caused by genetic mutations that result in absent or reduced levels of adhesion proteins normally present at the interface of the epidermis and dermis, which is called the basement membrane zone (BMZ). As a result, the epidermis separates from the dermis with less friction or force than usual, resulting in blister formation. In some EB subtypes, the epithelia of the external eye, ear, nose, upper airway, and gastrointestinal and genitourinary tracts are involved. The nature of the mutated protein and the severity of the mutation typically determine the phenotype: whether blistering is localized or generalized and the extent of extracutaneous involvement. As a general rule, less severe forms of EB tend to be more common and autosomal dominantly inherited, whereas more severe forms are rarer with autosomal recessive inheritance.
EB classification and nomenclature have evolved over many years and were most recently updated at a 2013 international consensus meeting, although additional subtypes and genes have been identified since. EB is classified into three major types: EB simplex, junctional EB, dystrophic EB, and Kindler syndrome. EB type is determined by the level of the skin at which mechanical fragility and blister formation occur. EB simplex is the most superficial form, with the level of skin cleavage occurring in the epidermis, usually in basal keratinocytes. In junctional EB, blisters form deeper, within the midportion (lamina lucida) of the skin's BMZ. Skin cleavage in dystrophic EB occurs just below the BMZ in the most superficial layer of the dermis (the sublamina densa). In Kindler syndrome, which is very rare, fragility and blister formation are seen at multiple depths within the skin. EB is further subdivided into more than 39 subtypes on the basis of clinical presentation, ultrastructural features, immunohistochemical findings, and the presence of specific genetic mutations. Only the more common or more notable subtypes are discussed in this chapter ( Tables 92.5–92.7 ).
Subtype and Previous Eponym | Clinical Features |
---|---|
EBS, generalized severe (EBS, Dowling–Meara) |
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EBS, generalized intermediate (EBS, Koebner) |
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EBS, localized (EBS, Weber–Cockayne) |
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EBS, intermediate with muscular dystrophy |
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EBS, severe with pyloric atresia |
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Subtype and Previous Eponym | Clinical Features |
---|---|
JEB, generalized severe (JEB, Herlitz) |
|
JEB, generalized intermediate (JEB, non-Herlitz) |
|
JEB with pyloric atresia |
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Subtype and Previous Eponym | Clinical Features |
---|---|
RDEB, generalized severe (RDEB, Hallopeau-Siemens) |
|
RDEB, generalized intermediate (RDEB, non-Hallopeau-Siemens) |
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DDEB, generalized (DDEB, Cockayne-Touraine, and Pasini) |
|
Bullous dermolysis of the newborn |
|
EB simplex most commonly results from genetic mutations affecting keratins 5 and 14 in the basal layer of the epidermis (see Table 92.5 ). Blisters typically heal without scarring. Most patients with EB simplex have autosomal dominantly inherited forms and a normal life span. However, some of the recessive forms, including those associated with muscular dystrophy and pyloric atresia, carry a poor prognosis and are associated with early death. Patients with generalized subtypes of EB simplex (intermediate and severe types) present with blistering in the newborn period. Severe generalized EB simplex is characterized by extensive blistering in herpetiform (herpes-like) or arcuate clusters. Mucosal involvement may be seen, nail dystrophy is common, and progressive palmoplantar keratoderma is characteristic. In the intermediate subtype of generalized EB simplex, bullae are most common over pressure points such as the elbows, knees, legs, feet, and hands and may be widespread following the trauma of birth. Mucosal involvement may occur during the newborn period but reduces with age. Nails may be lost but regrow. Localized EB simplex is the most common form of EB. Patients with localized EB simplex are usually asymptomatic during the newborn period, with onset of acral blisters in early childhood.
Junctional EB is caused by gene mutations that affect expression of proteins integral to the lamina lucida of the BMZ. All known subtypes of junctional EB are autosomal recessive, and clinical severity is highly variable (see Table 92.6 ). Tooth enamel hypoplasia is characteristic. Generalized severe junctional EB, previously known as Herlitz subtype , is the most severe form and carries the highest risk of early death of all forms of EB. Patients present at birth with widespread mucosal and skin blistering, most pronounced over pressure points ( Fig. 92.6 ). Nails are dystrophic or absent. Exuberant granulation tissue often develops periorally and on the upper back. Airway involvement is typical, and the eyes and gastrointestinal and genitourinary systems are also commonly affected. Prognosis is extremely poor. Most patients die during the first 2 years of life secondary to failure to thrive, sepsis, or respiratory failure. The presentation of the generalized intermediate subtype of junctional EB is variable and less severe than that of the generalized form. Localized subtypes are also seen.
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