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Vol. 109. Núm. 8.
Páginas 687-698 (octubre 2018)
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Vol. 109. Núm. 8.
Páginas 687-698 (octubre 2018)
Review
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Epidermal Nevi and Related Syndromes —Part 2: Nevi Derived from Adnexal Structures
Nevus epidérmicos y síndromes relacionados. Parte 2: Nevus derivados de estructuras anexiales
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J. Garcias-Ladariaa,
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jgarcila@gmail.com

Corresponding author.
, M. Cuadrado Rosónb, M. Pascual-Lópeza
a Servicio de Dermatología, Hospital de Manacor, Manacor, Islas Baleares, España
b Servicio de Anatomía Patológica, Hospital de Manacor, Manacor, Islas Baleares, España
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Table 1. Some of the Best Characterized Syndromes Associated with Nevi Derived From Adnexal Structures (Organoid).
Table 2. Extracutaneous Abnormalities Described in Schimmelpenning Syndrome.
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Abstract

Epidermal nevi are hamartomatous lesions derived from the epidermis and/or adnexal structures of the skin; they have traditionally been classified according to their morphology. New variants have been described in recent years and advances in genetics have contributed to better characterization of these lesions and an improved understanding of their relationship with certain extracutaneous manifestations. In the second part of this review article, we will look at nevi derived from the adnexal structures of the skin and associated syndromes.

Keywords:
Sebaceous nevus
RAS genes
RASopathy
Schimmelpenning syndrome
Follicular nevus
Syringocystadenoma papilliferum
Porokeratotic adnexal ostial nevus
Becker nevus
Resumen

Los nevus epidérmicos son hamartomas originados en la epidermis y/o en las estructuras anexiales de la piel que se han clasificado clásicamente partiendo de la morfología. En los últimos años se han descrito variantes nuevas y se han producido avances en el campo de la genética que han permitido caracterizar mejor estas lesiones y comprender su relación con algunas de las manifestaciones extracutáneas a las que se han asociado. En esta segunda parte revisaremos los nevus derivados de estructuras anexiales de la piel y los síndromes que se asocian.

Palabras clave:
Nevus sebáceo
Genes RAS
Rasopatía
Síndrome de Schimmelpenning
Nevus foliculares
Siringocistoadenoma papilífero
Nevus ostial anexial poroqueratósico
Nevus de Becker
Texto completo
Introduction

In this second part, we will review hamartomas derived from sebaceous glands, hair follicles, and apoccrine and eccrine sweat glands. Finally, we will discuss Becker nevus. Table 1 summarizes the best characterized syndromes to date associated with these adnexal nevi.

Table 1.

Some of the Best Characterized Syndromes Associated with Nevi Derived From Adnexal Structures (Organoid).

Syndrome  Type of Nevus  Other Manifestations  Gene Involved (Transmission)  Reference 
Schimmelpenning syndrome  Sebaceous nevus (possibly also keratinocytic)  Mental retardation, epilepsy, osteopenia, kyphoscoliosis, short stature, abnormalities of fingers and/or toes, eyelid lipodermoid, coloboma, and other abnormalities  HRAS, KRAS and NRAS (sporadic)  3-5, 32, 34 
Phacomatosis pigmentokeratotica  Nevus sebaceus and nevus spilus  Mental retardation, epilepsy, hemiparesis, local abnormalities associated with nevus spilus: hyperhidrosis, dysesthesia, muscle weakness, and sensory and motor neuropathy.  HRAS (sporadic)  35, 36 
Hypophosphatemia cutaneous-skeletal syndrome  Keratinocytic nevus and nevus sebaceus  Hypophosphatemia, bone dysplasia and osteomalacia, cerebral, cardiac, and ophthalmological manifestations of the nevus sebaceus or phacomatosis pigmentokeratotica syndrome  HRAS, NRAS (sporadic)  37, 41, 42 
Didymosis aplasticosebacea and SCALP syndromea  Nevus sebaceus, aplasia cutis congenita  Limbal dermoid, large or giant congenital melanocytic nevus, and neurological abnormalities similar to Schimmelpenning syndrome.  Unknown (sporadic)  46-48 
Nevus comedonicus syndrome  Nevus comedonicus  Ipsilateral cataract, microcephaly, mental retardation, epilepsy, vertebral abnormalities, syndactyly, clinodactyly, polydactyly, and oligodontia  Possibly FGFR2 in mosaic form of the Apert syndrome in some cases (sporadic)  56, 61 
Becker nevus syndrome  Becker Nevus  Ipsilateral mammary hypoplasia, hypoplasia of the underlying muscles, lipoatrophy, and skeletal abnormalities  ACTB (sporadic)  98, 99 
a

Sebaceous nevus, central nervous system malformations, aplasia cutis congenita, limbal dermoid and pigmented nevus.

Sebaceous Nevus

These are organoid lesions that contain epidermal, follicular, sebaceous, apocrine, and eccrine components. They have a prevalence of 0.3% and some familial forms exist.1,2 They arise as a result of postzygotic somatic mutations in HRAS (95%) and KRAS (5%).3,4 More recently, NRAS mutations have also been described in a case of nevus sebaceus with extracutaneous manifestations.5 Some authors refer to a group denoted mosaic RASopathies that includes sebaceous nevi and also some keratinocytic nevi, melanocytic nevi, and associated syndromic forms.6,7

More than half the lesions are found on the scalp, a third develop on the face, while they are rarely seen on the neck and only exceptionally on the trunk or limbs.8,9 The lesions are congenital in most cases, although onset may occur in the first years of life. Characteristically, they are distributed along the Blaschko lines, adopting an ovulated or comma form. The clinical aspect varies with age, probably due to the increased number of androgen receptors in components that are stimulated during puberty.10 In children, the disease is manifest as small yellowish-orange alopecic plaques that can be mistaken for aplasia cutis congenita or a scar. From adolescence onwards, the lesion takes on a more verrucous appearance with a more yellowish color (Fig. 1).

Figure 1.

Linear nevus sebaceus in a 20year old patient. Note the papillomatous appearance and the yellowish color.

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Histological changes also vary with the age of the patient.8,9 In pediatric patients, mild epidermal acanthosis is usually observed along with presence of small poorly formed hair follicles. From puberty onwards, acanthosis becomes more evident and the number and size of the sebaceous glands increase and these are found higher in the reticular dermis or even in the papillary dermis (Fig. 2). Hair dysgenesis persists into adulthood. Generally, the presence of well-formed terminal hair marks the limits of the lesion.

Figure 2.

Nevus sebaceus in the left temporal region of a young patient. A,Clinical image. B,(Hematoxylin and eosin [HE], 4×): histological image showing the presence of epidermal acanthosis and multiple large sebaceous glands abnormally found high in the reticular dermis. C,(HE, 10×): detail of the sebaceous glands. D,(HE, 10×): acanthosis acquires a reticulated appearance in some areas, resembling adenoid seborrheic keratosis.

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An epidermal change that is observed fairly often in adults is follicular induction. This is a reactive phenomenon that can be seen in multiple processes and that is thought to be due to the influence of the stroma on the epithelium.11 Changes range from proliferation of basaloid cells with peripheral cobblestone appearance that should be differentiated from superficial basal cell carcinoma (Fig. 3) to anagen hair bulbs with follicular papilla present in their lower part.

Figure 3.

Trichoblastoma on nevus sebaceus. A,(Hematoxylin and eosin [HE] 4×): low-resolution image. B,(HE, 10×): in the periphery of the tumor, the presence of epithelial strands can be seen originating from the epidermis, with basal cobblestone appearance. These finding are suggestive of follicular induction.

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The prevalence of secondary tumors, most of which are benign, ranges from 2% to 39%.9 In the most extensive series, trichoblastoma and syringocystadenoma papilliferum predominate (Fig. 4).8,9,12–15 Other benign tumors that have been described are trichilemmoma and sebaceous, apocrine, and eccrine tumors. Leiomyomas16 and melanocytic nevi17 have also been found in association. Often, more than 1 tumor can develop on the same nevus, as can be seen in the patient in Fig. 4.18,19

Figure 4.

Nevus sebaceus with associated trichoblastoma, syringocystadenoma papilliferum, and trichilemmoma. A,Clinical image and dermoscopy of the hamartoma and associated lesions. B,(Hematoxylin and eosin [HE], 4×): histological image of the nevus sebaceus, corresponding to the flattest part of the lesion. C,(HE, 4×): histological image of a trichoblastoma, corresponding to the darkest papular region. D,(HE, 10×): detail of the trichoblastoma. E,(HE, 2×): low-resolution histological image corresponding to the least pigmented papule, which was diagnosed as a trichilemmoma underneath syringocystadenoma papilliferum. F,(HE, 4×): detail of the trichilemmoma. G,(HE, 10×): detail of the trichilemmoma at greater magnification. H,(HE, 10×): detail of the syringocystadenoma papilliferum.

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Basal cell carcinoma is the most frequently associated cancer (Fig. 5). Isolated cases of apocrine carcinoma, trichilemmal carcinoma, sebaceous carcinoma, microcystic adnexal carcinoma, porocarcinoma, and squamous cell carcinoma have been reported. There have also been reports of a case of associated leiomyosarcoma20 and another of melanoma.21 The frequent confusion between trichoblastoma and basal cell carcinoma has enhanced the potential for malignant development in sebaceous nevi in the past.22 In recent series, the incidence of basal cell carcinoma is less than 1%,12–15,23 and so many authors suggest watchful waiting rather than preemptive excision in most cases.23,24

Figure 5.

Basal cell carcinoma over nevus sebaceus. A,Clinical image and low-resolution histological view (Hematoxylin and eosin [HE], 2×). B,(HE, 4×): histological image showing hyperplasia of the sebaceous and apocrine glands. C,(HE, 10×): Detail of decapitation secretion, characteristic of apocrine glands. D,(HE, 10×): detail of the basal cell carcinoma.

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Morphological Variants of Nevus Sebaceus

Papillomatous pedunculated nevus sebaceus. This lesion consists of erythematous-yellowish plaques with a tumor-like appearance and a papillomatous surface that present from birth. In the 7 cases described,25–27 all lesions are located on the head, neck, and upper trunk. No patient had extracutaneous manifestations. Mutations in the FGFR2 gene have been reported in 2 fetuses that had similar lesions to papillomatous pedunculated nevus sebaceus, although the clinical and histological diagnosis of these lesions has been called into question.28,29 Should this finding be confirmed, this would be a noteworthy exception, given that all sebaceous nevi analyzed to date have mutations in the RAS gene.

Cerebriform sebaceous nevus. This lesion is a rare morphological variant and few cases have been published.30,31 All cases reported occurred on the scalp. The lesions present a cerebriform appearance from birth, thus requiring differential diagnosis with other lesions such as melanocytic nevi and collagenomas.

Syndromes Associated With Nevus Sebaceus

Schimmelpenning syndrome, Schimmelpenning-Feuerstein-Mims syndrome, or linear nevus sebaceus syndrome (OMIM #163200) is an association of a sebaceous nevus and neurological, ocular, and/or bone disorders (Table 2). In a series of 196 patients with nevus sebaceus, 14 had neurological manifestations and 4 also had coloboma or choristoma.32 Extensive lesions and centrofacial site were correlated with the presence of extracutaneous abnormalities. The most frequently reported neurological manifestations were mental retardation (79%) and epilepsy (57%). HRAS, KRAS, and NRAS mutations have been detected in affected skin.3–5 Recently, the case has been reported of a child with nevi sebaceus, keratinocytic nevi, retarded dental development, cerebral arachnoid cyst, and optical atrophy.33 The same mutation was detected in KRAS in both nevi. The mutation appears sporadically and probably due to lethal postzygotic somatic mutations that survive in mosaic form.34

Table 2.

Extracutaneous Abnormalities Described in Schimmelpenning Syndrome.

Neurological Abnormalities  Ocular Abnormalities  Bone Abnormalities  Other Abnormalities 
Mental retardation
Epilepsy
Hemiatrophy
Hemmimegalencephaly
Cerebral convolution malformations
Posterior fossa abnormalities
Intracranial vascular malformations 
Choristomas
Colobomas
Conjunctival lipodermoids
Strabismus
Corneal opacity
Macrophthalmia
Retinal and optic nerve abnormalities 
Cranial abnormalities
Hypoplasia of the pelvic bones and long bones
Incomplete vertebral formation
Kyphoscoliosis
Bone cysts
Hypophosphatemic rickets 
Short stature
Assymetric growth
Dental malformation
Coarctation of the aorta
Horseshoe kidney 

Source: Serpas de Lopez and Hernandez-Perez16 and Santibanez-Gallerani et al.16,23

Phacomatosis pigmentokeratotica is a didymosis, that is, there is concurrent presentation, in the same region, of 2 areas of mutant tissue, different from one another and the surrounding skin. It is also known as didymosis spilosebaceus and is characterized by the appearance of a sebaceous nevus and a spilus nevus in the same patient, often associated with bone abnormalities and neurological disorders such as mental retardation, epilepsy, and hemiparesis. In addition, local manifestations may be associated with nevus spilus, such as hyperhidrosis, dysesthesia, muscle weakness, and sensory and motor neuropathy. The sebaceous nevus follows the Blaschko lines, whereas the melanocytic component follows a chessboard pattern, more typical of hamartomas that are derived from this cell line.35 In 2013, Groesser et al.36 established that both cutaneous hamartomas carry the same HRAS mutation, and so they cannot be said to be a true didymosis.

In cutaneous skeletal hypophosphatemia syndrome, patients present with hypophosphatemia, bone dysplasia, and osteomalacia (sometimes described as rickets), along with cerebral, cardiac, and ophthalmologic manifestations.37–40 It has recently been shown that clinical manifestations are due to HRAS and NRAS mutations in both bone and skin lesions (multiline somatic mosaicism).37,41,42 Bone manifestations and hypophosphatemia are attributed to an increase in fibroblast growth factor23 (FGF23), a protein synthesized by osteocytes in normal conditions that induces renal phosphate excretion. The cause of this increase in FGF23 levels is not known. Cases have been published of increases in blood phosphate levels after excision of the nevus,40,43,44 but these findings are not always present and, in general, excision of skin lesions for this reason is not recommended.37

Didymosis aplasticosebacea consists of the coexistence of aplasia cutis congenita and nevus sebaceus. Some patients also present ocular manifestations characteristic of Schimmelpenning syndrome.45–47 The term sebaceous nevus, central nervous system malformations, aplasia cutis congenita, limbal dermoid, and pigmented nevus (SCALP) syndrome was coined in 2008 to describe 3 patients with didymosis aplasticosebacea who also presented a limbal dermoid tumor, large or giant congenital melanocytic nevus, and neurological disorders.47 Since then, an additional case has been reported.48

Hair Follicle NeviHair Follicle Nevus (Congenital Vellus Hamartoma)

This lesion presents at birth or in the first years of life as a skin-colored papule, plaque, or nodule on the face.49 Cases of multiple lesions following the Blaschko lines have been reported.50,51 Histologically, this lesion is characterized by proliferation of small vellus hair follicles in the upper dermis with perifollicular fibrous thickening, surrounded by a highly cellular stroma. At times, the lesion can be accompanied by sebaceous or eccrine glands, or muscle fibres. There have been isolated reports of associations with ipsilateral alopecia, leptomeningeal angiomatosis, and frontonasal dysplasia.52,53

Nevus Comedonicus and Munro Nevus

This is a linear plaque with multiple dilated follicular orifices following the Blaschko lines. It has a prevalence of 1/45 000 to 1/100 000.54 The lesion usually appears at birth and is located, in order of frequency, on the face, neck, arm, and trunk, including genitals. The dilated pore nevus is a variant of this lesion.55 Some texts distinguish a nonpyogenic form and another characterized by the formation of cysts, papules, pustules, and abscesses, which is known as Munro nevus. Some pyogenic forms arise from mosaic mutations of the FGFR2 gene.56,57 This is the causative gene for Apert syndrome (OMIM #101200), an autosomal dominant disease characterized by craniosynostosis, syndactyly, hydrocephalus, mental retardation, hyperhidrosis, and severe forms of acne on the face and trunk. Recently, mosaic mutations have been reported in the NEK9 gene in nevus comedonicus.58 It is not clear whether mutations in these 2 genes lead to different phenotypes.

Histological study of the lesion shows an acanthotic epidermis with presence of invaginations that contain concentric lamellae of keratin and that correspond to follicular ostia, as demonstrated by the presence of rudiments of hair follicles, as well as small sebaceous glands and, occasionally, erector muscle. In some lesions, inflammation and scarring can be observed.

The development of tumors such as basal cell carcinoma and keratoacanthoma has been reported in some isolated cases.59,60 In nevus comedonicus syndrome, ipsilateral cataracts, microcephaly, mental retardation, epilepsy, dysgenesis of the corpus callosum, vertebral abnormalities such as scoliosis, fused vertebrae, spina bifida, syndactyly, clinodactyly, polydactyly, and oligodontia may be present.61 These manifestations resemble those of Apert syndrome.

Basaloid Follicular Hamartoma

Basaloid follicular hamartoma is an uncommon lesion. Clinically, it is manifest as small skin-colored papules or plaques. Alopecia in the affected areas is characteristic. Five variants have been described. Generalized lesions are present in 3 of them; one acquired, associated with autoimmune diseases,62–64 another hereditary associated with other skin lesions and extracutaneous manifestations,65–68 and another hereditary form with no association.69 In the localized forms, there is a solitary form with alopecic plaques,70 and another linear form with a Blaschkoid distribution. More recently, a review has been published of this latest variant,71 in which 3 patients are reported who develop basal cell carcinoma in the hamartoma and trichoblastoma. Related to this linear form, Happle-Tinschert syndrome is characterized by basaloid follicular hamartomas with a segmental distribution, along with bone, dental, and ipsilateral cerebral abnormalities.72

The histopathological findings are independent of the clinical variant. The follicles affected are replaced by epithelial strands, 2 or 3 cells thick, which emerge radially from the follicular axis in form of an inverted chandelier. In some areas, small infundibular cysts may be observed. The stroma is limited and consists of some collagen fibers among fibrocytes surrounding the strands of basaloid cells. Differential diagnosis with trichoepithelioma and infundibular-cystic basal cell carcinoma is necessary.

The molecular abnormality responsible for the appearance of these hamartomas and the associated extracutaneous manifestations is not known. It has been shown that expression of PTCH1 is increased in basaloid follicular hamartoma, but it is lower than in basal cell carcinoma.73

Trichilemmal Cyst Nevus

Trichilemmal cysts are common and present as nodules in the scalp. They are usually multiple and associated with a family history. Histologically, they are characterized by a cystic formation whose wall is composed of several cell layers without a granular layer. Unlike infundibular cysts, they are not usually connected with the surface. Cells of the peripheral strand appear basaloid and they are lined with cells that become keratinized and more eosinophilic towards the cyst lumen, giving rise to a compact, orthokeratotic keratin that contains on occasions areas of calcification and cholesterol crystals.

Trichilemmal cysts with a Blaschkoid distribution have been reported. These have been denoted trichilemmal cyst nevus,74 trichilemmal cysts arising in nevus comedonicus,75 and epidermal nevus associated with trichilemmal cysts.76 An association has also been described with nevus sebaceus.77 Trichilemmal cyst nevus syndrome was described in a 31-year-old patient with linear plaques with multiple trichilemmal cysts, filiform hyperkeratosis, comedones, severe osteomalacia, and multiple fractures from 17years of age.74

Apocrine NeviApocrine Nevus (Apocrine Hamartomatous Glandular Hyperplasia)

These are nodular or pedunculated lesions that occur with greatest frequency in the axilla. They have also been reported on the face, scalp, chest, and inguinal region. Most of the lesions are diagnosed in adults. In pediatric cases, lesions increase in size during puberty.78

Histologically, we see mature apocrine glands and ductal structures embedded in a fibrous stroma that extends from the upper dermis to the subcutaneous tissue. Glandular lumens are lined with an epithelium of cuboid or columnar cells surrounded by a layer of myoepithelial cells. The secreting cells show the characteristic decapitation secretion. Cases of malignant transformation have been reported.79,80

Syringocystadenoma Papilliferum

This is a solitary nodular lesion or a group of aligned papules or nodules following a Blaschkoid distribution. They are preferentially located on the head, although they can also be found on the face, neck, trunk and limbs. Half the cases are present at birth and 15% to 30% are diagnosed before the onset of adolescence. In puberty or during pregnancy, the lesion grows and the surface becomes papillomatous. The histological aspect is characteristic. Under low magnification, invaginations can be seen with papillary projections that connect with the surface of the epidermis by infundibular epithelium. The epidermis that covers the most superficial part can be seen as acanthotic, even with parakeratosis. The epithelium that surrounds the cystic cavities is formed of 2 layers: columnar cells that are oriented towards the lumen, in which we can see decapitation secretion, and cuboid basal cells in contact with a stroma rich in plasma cells.

In addition to the association with nevus sebaceus, an association has also been described with other nevi or benign apocrine tumors. Regarding its pathogenesis, PTCH and p16 deletions were detected several years ago.81 More recently, the V600E mutation in the BRAF gene has been reported in half the sporadic cases of syringocystadenoma papilliferum.82,83 Recently, the case of a boy with congenital anaplastic astrocytoma, linear syringocystadenoma papilliferum, and ocular abnormalities has been reported with detection of the mutation in both the tumor and the skin lesions but not peripheral blood or lesion-free skin. Treatment with vemurafenib was beneficial in this particular patient.84

Eccrine NeviEccrine Nevus

This entity has been reported as nodular lesions, plaque lesions, or following a linear distribution. Hyperhidrosis is a characteristic. In some cases, a skin lesion cannot be detected and the only manifestation is a localized hyperhidrosis.85 Half of the lesions described are located on the forearm. Histologically, we see an increase in eccrine glands in areas of the anatomy where they should not be so numerous. Some patients present mild acanthosis and hyperkeratosis in the epidermis.86 Mucinous eccrine nevus shows a stroma rich in mucin as the only differential characteristic. In general, eccrine nevus is not associated with systemic manifestations, although there was a single report of association with other skin and ophthalmological manifestations.87

Eccrine Angiomatous Hamartoma

This is a lesion characterized by hamartomatous growth of interleaved eccrine and vascular elements. It is manifest as a solitary nodular or plaque lesion with a bluish color and, occasionally, telangiectasia.88 Cases have been reported with a verrucous appearance, thus suggesting the need for differential diagnosis with verrucous hemangioma.89 The lesion is often located on the limbs of children and is often associated with pain and hyperhidrosis. Most cases present at birth or shortly afterwards, although up to a third of cases were diagnosed in adults in 1 series.90

Histologically, we observe hyperplasia of normal or dilated eccrine glands, with presence of foci of capillary angiomatosis and variable presence of follicular, lipomatous, mucinous, apocrine, and/or lymphatic structures.90 Many authors think that the lesion is primarily a vascular malformation.91 In support of this theory, several lesions have been reported accompanying vascular tumors or malformations.89,90

Porokeratotic Adnexal Ostial Nevus

The term porokeratotic adnexal ostial nevus has been proposed to cover 2 entities that overlap clinically and histologically: porokeratotic eccrine ostial nevus and porokeratotic eccrine and hair follicle nevus.92 The lesions are keratotic or verrucous papules in which small cavities are observed, filled with keratin, similar to comedones. They are distributed linearly following the Blaschko lines. Bilateral and even generalized forms have been reported. The lesions tend to have an acral distribution and the nails may be involved. When extensive lesions are present, the trunk, head, and neck are affected. Anhidrosis and alopecia may also be present. Histologically, cornoid lamellae can be observed centered on the acrosyringium or in hair bulbs, which appear dilated and without a granular layer. The epidermis shows acanthosis, hyperkeratosis, and papillomatosis. Cases of squamous cell carcinoma and Bowen disease have been associated.92,93

Recently, mosaic mutations have been reported in the GJB2 gene, which encodes connexin 26 in porokeratotic eccrine nevus.94 Currently, this nevus is considered a mosaic form of KID syndrome (OMIM #148210), a dominant autosomal disease characterized by congenital erythrokeratodermia, lamellar ichthyosis, palmoplantar hyperkeratosis, hypotrichosis, hypohidrosis, repeated skin infections, and ocular and musculoskeletal abnormalities. Skin lesions share clinical and histopathological features with porokeratotic eccrine nevus. The case of a girl with KID syndrome, whose mother had porokeratotic eccrine nevus, supports this hypothesis.95

Becker Nevus

Becker nevus is a light brown colored spot with well-defined borders located on the trunk or shoulder that usually presents when the patient is between 10 and 20 years old. In boys, more than half the lesions develop thick dark hair from puberty onwards. The prevalence is 0.5%. Familial cases have been reported. The belief that it is more frequent in males has recently been shown to be false and the misconception is thought to be due to the lesions being less visible in females because of its androgen dependence.96

The lesion is an organoid hamartoma within the epidermal nevus group61 and has many unique features. It is distributed in an archetypal pattern in patches or chessboard pattern. Histologically, it is characterized by acanthosis with prolongation of the interpapillary crests, in which melanocytic hyperplasia has been demonstrated. In the reticular dermis, in addition to an increased number of hair follicles, an increase in smooth muscle fibers is observed, resembling a smooth muscle hamartoma, which for some authors points to a spectrum of lesions (Fig. 6).97 The recent discovery of ACTB gene mutations, lethal if they occur in the zygote and which are found exclusively in muscle fibers from Becker nevi, has given rise to the theory that their origin lies in a mutation in the mesenchymal line.98

Figure 6.

Becker nevus. A,Clinical image. B,(Hematoxylin and eosin [HE], 4×): low resolution image showing the presence of epidermal acanthosis, hyperpigmentation of the basal layer, and presence of smooth muscle fibers in the reticular dermis. C,(HE, 10×): detail of the epidermal changes. D,(HE, 10×): detail of the presence of smooth muscle fiber in the reticular dermis.

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In fewer than 5% of cases, ipsilateral mammary hypoplasia, hypoplasia of underlying muscles, lipoatrophy, and skeletal abnormalities such as scoliosis, hemivertebrae, fused or accessory ribs, pectus excavatum or carinatum, and internal tibial torsion (Becker nevus syndrome) may be present.96,99

Conclusion

The most recent developments in the field of genetics is changing the traditional morphological interpretation of epidermal nevi. From this perspective, in the near future, we may follow a genetic-based classification of our patients with epidermal nevi and thus provide them with much more detailed information about associated extracutaneous manifestations, secondary tumor development, or even reproductive genetic counselling.

Conflicts of Interest

The authors declare that they have no conflicts of interest.

Acknowledgments

This review was written as the final project of the I International Master in Dermatopathology and Clinical Correlation, directed by Dr. Jesús Cuevas and Dr. Pedro Jaén. We thank their supervision and encouragement for publishing the project.

We thank Dr Gabriela Corte, head of the Pathological Anatomy department of the Hospital Manacor, for her collaboration in collecting cases to illustrate this work.

References
[1]
R. Happle, A. König.
Familial naevus sebaceus may be explained by paradominant transmission.
Br J Dermatol., 141 (1999), pp. 377
[2]
S.M. Hughes, A.E. Wilkerson, H.L. Winfield, K.M. Hiatt.
Familial nevus sebaceus in dizygotic male twins.
J Am Acad Dermatol., 54 (2006), pp. S47-S48
[3]
L. Groesser, E. Herschberger, A. Ruetten, C. Ruivenkamp, E. Lopriore, M. Zutt, et al.
Postzygotic HRAS and KRAS mutations cause nevus sebaceous and Schimmelpenning syndrome.
Nat Genet., 44 (2012), pp. 783-787
[4]
J.L. Levinsohn, L.C. Tian, L.M. Boyden, J.M. McNiff, D. Narayan, E.S. Loring, et al.
Whole-exome sequencing reveals somatic mutations in HRAS and KRAS, which cause nevus sebaceus.
J Invest Dermatol., 133 (2013), pp. 827-830
[5]
Y. Kuroda, I. Ohashi, Y. Enomoto, T. Naruto, N. Baba, Y. Tanaka, et al.
A postzygotic NRAS mutation in a patient with Schimmelpenning syndrome.
Am J Med Genet A., 167A (2015), pp. 2223-2225
[6]
S. Luo, H. Tsao.
Epidermal, sebaceous, and melanocytic nevoid proliferations are spectrums of mosaic RASopathies.
J Invest Dermatol., 134 (2014), pp. 2493
[7]
A. Aslam, A. Salam, C.E. Griffiths, J.A. McGrath.
Naevus sebaceus: A mosaic RASopathy.
Clin Exp Dermatol., 39 (2014), pp. 1-6
[8]
G. Jaqueti, L. Requena, E. Sánchez Yus.
Trichoblastoma is the most common neoplasm developed in nevus sebaceus of Jadassohn: A clinicopathologic study of a series of 155 cases.
Am J Dermatopathol., 22 (2000), pp. 108-118
[9]
K. Kamyab-Hesari, H. Seirafi, S. Jahan, N. Aghazadeh, P. Hejazi, A. Azizpour, et al.
Nevus sebaceus: A clinicopathological study of 168 cases and review of the literature.
Int J Dermatol., 55 (2016), pp. 193-200
[10]
K.S. Hamilton, S. Johnson, B.R. Smoller.
The role of androgen receptors in the clinical course of nevus sebaceus of Jadassohn.
Mod Pathol., 14 (2001), pp. 539-542
[11]
L. Requena, E.S. Yus, P. Simón, E. del Rio.
Induction of cutaneous hyperplasias by altered stroma.
Am J Dermatopathol., 18 (1996), pp. 248-268
[12]
B. Cribier, Y. Scrivener, E. Grosshans.
Tumors arising in nevus sebaceus: A study of 596 cases.
J Am Acad Dermatol., 42 (2000), pp. 263-268
[13]
M.A. Muñoz-Pérez, M.J. García-Hernandez, J.J. Ríos, F. Camacho.
Sebaceus naevi: A clinicopathologic study.
J Eur Acad Dermatol Venereol., 16 (2002), pp. 319-324
[14]
H. Rosen, B. Schmidt, H.P. Lam, J.G. Meara, B.I. Labow.
Management of nevus sebaceous and the risk of basal cell carcinoma: An 18-year review.
Pediatr Dermatol., 26 (2009), pp. 676-681
[15]
M.H. Idriss, D.M. Elston.
Secondary neoplasms associated with nevus sebaceus of Jadassohn: A study of 707 cases.
J Am Acad Dermatol., 70 (2014), pp. 332-337
[16]
R.M. Serpas de Lopez, E. Hernandez-Perez.
Jadassohns sebaceous nevus.
J Dermatol Surg Oncol., 11 (1985), pp. 68-72
[17]
N. Misago, Y. Narisawa, T. Nishi, H. Kohda.
Association of nevus sebaceus with an unusual type of ‘combined nevus’.
J Cutan Pathol., 21 (1994), pp. 76-81
[18]
T. Namiki, K. Miura, M. Ueno, Y. Arima, A. Nishizawa, H. Yokozeki.
Four different tumors arising in a nevus sebaceous.
Case Rep Dermatol., 8 (2016), pp. 75
[19]
Y. Liu, M. Valdebran, J. Chen, A. Elbendary, F. Wu, M. Xu.
Nevus sebaceous of Jadassohn with eight secondary tumors of follicular, sebaceous, and sweat gland differentiation.
Am J Dermatopathol., 38 (2016), pp. 861
[20]
C.S. Premalata, R.V. Kumar, M. Malathi, A.M. Shenoy, N. Nanjundappa.
Cutaneous leiomyosarcoma, trichoblastoma, and syringocystadenoma papilliferum arising from nevus sebaceus.
Int J Dermatol., 46 (2007), pp. 306-308
[21]
S. Abe, Y. Yamamoto, S. Uno, M. Andou, T. Akasaka, M.C. Mihm.
Malignant melanoma arising in a sebaceous nevus of the scalp.
Br J Plast Surg., 56 (2003), pp. 171-173
[22]
S. Kaddu, H. Schaeppi, H. Kerl, H.P. Soyer.
Basaloid neoplasms in nevus sebaceus.
J Cutan Pathol., 27 (2000), pp. 327-337
[23]
A. Santibanez-Gallerani, D. Marshall, A.M. Duarte, S.J. Melnick, S. Thaller.
Should nevus sebaceus of Jadassohn in children be excised? A study of 757 cases, and literature review.
J Craniofac Surg., 14 (2003), pp. 658-660
[24]
M.N. Moody, J.M. Landau, L.H. Goldberg.
Nevus sebaceous revisited.
Pediatr Dermatol., 29 (2012), pp. 15-23
[25]
D. Correale, F. Ringpfeil, M. Rogers.
Large, papillomatous, pedunculated nevus sebaceus: A new phenotype.
Pediatr Dermatol., 25 (2008), pp. 355-358
[26]
T. Ubol, K. Aunhachoke.
Large papillomatous and pedunculated nevus sebaceous.
Case Rep Dermatol., 7 (2015), pp. 298-302
[27]
H.C. Lin, J.Y. Lee, S.J. Shieh, C.K. Hsu.
Large, papillomatous and pedunculated nevus sebaceus.
J Dermatol., 38 (2011), pp. 200-202
[28]
P. Kuentz, S. Fraitag, M. Gonzales, F. Dhombres, J. St-Onge, Y. Duffourd, et al.
Mosaic-activating FGFR2 mutation in two fetuses with papillomatous pedunculated sebaceous naevus.
Br J Dermatol., 176 (2017), pp. 204-208
[29]
Asch S, Sugarman JL. Fifty-two words for snow: dermatologists naming epidermal naevi. Br J Dermatol. 2018;178:296.
[30]
A. Ramesh, S. Murugusundaram, K. Vittel, S. Kumar, V.R. Janaki, J.M. Boopalraj.
Cerebriform sebaceous nevus.
Int J Dermatol., 37 (1998), pp. 220
[31]
J.D. Lee, H.S. Kim.
Cerebriform nevus sebaceous.
N Engl J Med., 373 (2015), pp. 262
[32]
D. Davies, M. Rogers.
Review of neurological manifestations in 196 patients with sebaceous naevi.
Australas J Dermatol., 43 (2002), pp. 20-23
[33]
S. Igawa, M. Honma, M. Minami-Hori, E. Tsuchida, H. Iizuka, A. Ishida-Yamamoto.
Novel postzygotic KRAS mutation in a Japanese case of epidermal nevus syndrome presenting with two distinct clinical features, keratinocytic epidermal nevi and sebaceous nevi.
J Dermatol., 43 (2016), pp. 103-104
[34]
E.G. Rijntjes-Jacobs, E. Lopriore, S.J. Steggerda, S.G. Kant, F.J. Walther.
Discordance for Schimmelpenning-Feuerstein-Mims syndrome in monochorionic twins supports the concept of a postzygotic mutation.
Am J Med Genet A., 152A (2010), pp. 2816-2819
[35]
G. Tadini, L. Restano, R. Gonzáles-Pérez, A. Gonzáles-Enseñat, M.A. Vincente-Villa, S. Cambiaghi, et al.
Phacomatosis pigmentokeratotica: Report of new cases and further delineation of the syndrome.
Arch Dermatol., 134 (1998), pp. 333-337
[36]
L. Groesser, E. Herschberger, A. Sagrera, T. Shwayder, K. Flux, L. Ehmann, et al.
Phacomatosis pigmentokeratotica is caused by a postzygotic HRAS mutation in a multipotent progenitor cell.
J Invest Dermatol, 133 (2013), pp. 1998-2003
[37]
Y.H. Lim, D. Ovejero, K.M. Derrick, M.T. Collins, K.A. Choate, Yale Center for Mendelian Genomics.
Cutaneous skeletal hypophosphatemia syndrome (CSHS) is a multilineage somatic mosaic RASopathy.
J Am Acad Dermatol., 75 (2016), pp. 420-427
[38]
G.I. Sugarman, W.B. Reed.
Two unusual neurocutaneous disorders with facial cutaneous signs.
Arch Neurol., 21 (1969), pp. 242-247
[39]
J.L. Olivares, F.J. Ramos, F.J. Carapeto, M. Bueno.
Epidermal naevus syndrome and hypophosphataemic rickets: Description of a patient with central nervous system anomalies and review of the literature.
Eur J Pediatr., 158 (1999), pp. 103-107
[40]
A. Saraswat, S. Dogra, A. Bansali, B. Kumar.
Phakomatosis pigmentokeratotica associated with hypophosphataemic vitamin D-resistant rickets: Improvement in phosphate homeostasis after partial laser ablation.
Br J Dermatol., 148 (2003), pp. 1074-1076
[41]
Y.H. Lim, D. Ovejero, J.S. Sugarman, C.M. Deklotz, A. Maruri, L.F. Eichenfield, et al.
Multilineage somatic activating mutations in HRAS and NRAS cause mosaic cutaneous and skeletal lesions, elevated FGF23 and hypophosphatemia.
Hum Mol Genet., 23 (2014), pp. 397-407
[42]
E. Avitan-Hersh, S. Tatur, M. Indelman, V. Gepstein, R. Shreter, D. Hershkovitz, et al.
Postzygotic HRAS mutation causing both keratinocytic epidermal nevus and thymoma and associated with bone dysplasia and hypophosphatemia due to elevated FGF23.
J Clin Endocrinol Metab., 99 (2014), pp. E132-E136
[43]
L.C. Aschinberg, L.M. Solomon, P.M. Zeis, P. Justice, I.M. Rosenthal.
Vitamin D-resistant rickets associated with epidermal nevus syndrome: Demonstration of a phosphaturic substance in the dermal lesions.
J Pediatr., 91 (1977), pp. 56-60
[44]
R. Ivker, S.D. Resnick, R.A. Skidmore.
Hypophosphatemic vitamin D-resistant rickets, precocious puberty, and the epidermal nevus syndrome.
Arch Dermatol., 133 (1997), pp. 1557-1561
[45]
R. Happle, A. König.
Didymosis aplasticosebacea: Coexistence of aplasia cutis congenita and nevus sebaceus may be explained as a twin spot phenomenon.
Dermatology., 202 (2001), pp. 246-248
[46]
Z. Demerdjieva, S. Kavaklieva, N. Tsankov.
Epidermal nevus syndrome and didymosis aplasticosebacea.
Pediatr Dermatol., 24 (2007), pp. 514-516
[47]
J. Lam, M.A. Dohil, L.F. Eichenfield, B.B. Cunningham.
SCALP syndrome: Sebaceous nevus syndrome, CNS malformations, aplasia cutis congenita, limbal dermoid, and pigmented nevus (giant congenital melanocytic nevus) with neurocutaneous melanosis: A distinct syndromic entity.
J Am Acad Dermatol., 58 (2008), pp. 884-888
[48]
C.W. Hsieh, Y.H. Wu, S.P. Lin, C.C. Peng, C.S. Ho.
Sebaceous nevus syndrome, central nervous system malformations, aplasia cutis congenita, limbal dermoid, and pigmented nevus syndrome.
Pediatr Dermatol., 29 (2012), pp. 365-367
[49]
C. Serra-Guillén, V. Traves, B. Echeverria, A. Martorell.
Nevus del folículo piloso: aportación de un caso y revisión de la literatura.
Actas Dermosifiliogr., 100 (2009), pp. 822-824
[50]
S. Ikeda, J. Kawada, H. Yaguchi, H. Ogawa.
A case of unilateral, systematized linear hair follicle nevi associated with epidermal nevus-like lesions.
Dermatology., 206 (2003), pp. 172-174
[51]
M. Germain, K.J. Smith.
Hair follicle nevus in a distribution following Blaschko's lines.
J Am Acad Dermatol., 46 (2002), pp. 125-127
[52]
H. Kuwahara, L.M. Lao, T. Kiyohara, M. Kumakiri, H. Igawa.
Hair follicle nevus occurring in frontonasal dysplasia: An electron microscopic observation.
J Dermatol., 28 (2001), pp. 324-328
[53]
Y. Okada, K. Hamano, N. Iwasaki, S. Iijima, I. Anno.
Leptomeningeal angiomatosis accompanied by hair follicle nevus.
Childs Nerv Syst., 14 (1998), pp. 218-221
[54]
G. Tchernev, J. Ananiev, K. Semkova, L.A. Dourmishev, J. Schönlebe, U. Wollina.
Nevus comedonicus: An updated review.
Dermatol Ther (Heidelb)., 3 (2013), pp. 33-40
[55]
K.S. Resnik, G.R. Kantor, N.R. Howe, C.M. Ditre.
Dilated pore nevus. A histologic variant of nevus comedonicus.
Am J Dermatopathol., 15 (1993), pp. 169-171
[56]
C.S. Munro, A.O.M. Wilkie.
Epidermal mosaicism producing localized acne: Somatic mutation in FGFR2.
Lancet., 352 (1998), pp. 704-705
[57]
D. Kiritsi, A.I. Lorente, R. Happle, J. Bernabeu Wittel, C. Has.
Blaschko line acne on pre-existent hypomelanosis reflecting a mosaic FGFR2 mutation.
Br J Dermatol., 172 (2015), pp. 1125-1127
[58]
J.L. Levinsohn, J.L. Sugarman, J.M. McNiff, Antaya R.J., K.A. Choate, Yale Center for Mendelian Genomics.
Somatic mutations in NEK9 cause nevus comedonicus.
Am J Hum Genet, 98 (2016), pp. 1030-1037
[59]
E. Alpsoy, C. Durusoy, G. Ozbilim, G. Karpuzoğlu, E. Yilmaz.
Nevus comedonicus syndrome: A case associated with multiple basal cell carcinomas and a rudimentary toe.
Int J Dermatol., 44 (2005), pp. 499-501
[60]
S. Zarkik, J. Bouhllab, A. Methqal, Y. Afifi, K. Senouci, B. Hassam.
Keratoacanthoma arising in nevus comedonicus.
Dermatol Online J., 18 (2012), pp. 4
[61]
R. Happle.
The group of epidermal nevus syndromes. Part I: Well defined phenotypes.
J Am Acad Dermatol., 63 (2010), pp. 1-22
[62]
S. Weltfriend, M. David, A. Ginzburg, M. Sandbank.
Generalized hair follicle hamartoma: The third case report in association with myasthenia gravis.
Am J Dermatopathol., 9 (1987), pp. 428-432
[63]
S. Morton, A. Stevens, R.J. Powell.
Basaloid follicular hamartoma, total body hair loss and SLE.
[64]
T. Akasaka, S. Kon, M.C. Mihm Jr..
Multiple basaloid cell hamartoma with alopecia and autoimmune disease (systemic lupus erythematosus).
J Dermatol., 23 (1996), pp. 821-824
[65]
J.M. Mascaró Jr., J. Ferrando, J.A. Bombí, N. Lambruschini, J.M. Mascaró.
Congenital generalized follicular hamartoma associated with alopecia and cystic fibrosis in three siblings.
Arch Dermatol., 131 (1995), pp. 454-458
[66]
C.E. Wheeler Jr., M.A. Carroll, P.A. Groben, R.A. Briggaman, N.S. Prose, D.A. Davis.
Autosomal dominantly inherited generalized basaloid follicular hamartoma syndrome: Report of a new disease in a North Carolina family.
J Am Acad Dermatol., 43 (2000), pp. 189-206
[67]
M. Ricks, D.M. Elston, C.R. Sartori.
Multiple basaloid follicular hamartomas associated with acrochordons, seborrhoeic keratoses and chondrosarcoma.
Br J Dermatol., 146 (2002), pp. 1068-1070
[68]
P. Gumaste, A.E. Ortiz, A. Patel, J. Baron, R. Harris, R. Barr.
Generalized basaloid follicular hamartoma syndrome: A case report and review of the literature.
Am J Dermatopathol., 37 (2015), pp. e37-e40
[69]
M. Girardi, G.L. Federman, J.M. McNiff.
Familial multiple basaloid follicular hamartomas: A report of two affected sisters.
Pediatr Dermatol., 16 (1999), pp. 281-284
[70]
C. Mauleón, M. Valdivielso, E. Chavarría, J.M. Hernanz, I. Casado.
Hamartoma folicular basalioide localizado y nevus azul epitelioide de presentación simultánea en una paciente de 44años.
Actas Dermosifiliogr, 102 (2011), pp. 233-235
[71]
E.C. López Jiménez, C. Grau, D. Islas Norris, T. Montenegro Dámaso, A. Azón, L. Borrego Hernando.
Linear unilateral basaloid follicular hamartoma following Blaschko's lines: Two case reports and review of the literature.
Pediatr Dermatol., 34 (2017), pp. e196-e200
[72]
R. Happle, S. Tinschert.
Segmentally arranged basaloid follicular hamartomas with osseous, dental and cerebral anomalies: A distinct syndrome.
Acta Derm Venereol., 88 (2008), pp. 382-387
[73]
V. Grachtchouk, M. Grachtchouk, L. Lowe, T. Johnson, L. Wei, A. Wang, et al.
The magnitude of hedgehog signaling activity defines skin tumor phenotype.
EMBO J., 22 (2003), pp. 2741-2751
[74]
I. Tantcheva-Poor, K. Reinhold, T. Krieg, R. Happle.
Trichilemmal cyst nevus: A new complex organoid epidermal nevus.
J Am Acad Dermatol., 57 (2007), pp. S72-S77
[75]
B.J. Leppard.
Trichilemmal cysts arising in an extensive comedo naevus.
Br J Dermatol., 96 (1977), pp. 545-548
[76]
M.E. Iglesias Zamora, F.J. Vázquez-Doval.
Epidermal naevi associated with trichilemmal cysts and chromosomal mosaicism.
Br J Dermatol., 137 (1997), pp. 821-824
[77]
N. Pelivani, C. Houriet, E. Haneke.
Trichilemmal cyst nevus with a sebaceous nevus component.
Dermatology., 221 (2010), pp. 289-291
[78]
S.C. Cordero, M.C. Royer, W.L. Rush, J.R. Hallman, G.P. Lupton.
Pure apocrine nevus: A report of 4 cases.
Am J Dermatopathol., 34 (2012), pp. 305-309
[79]
Y. Nishikawa, Y. Tokusashi, Y. Saito, K. Ogawa, N. Miyokawa, M. Katagiri.
A case of apocrine adenocarcinoma associated with hamartomatous apocrine gland hyperplasia of both axillae.
Am J Sure Pathol., 18 (1994), pp. 832-836
[80]
T. Miyamoto, Y. Hagari, S. Inoue, T. Watanabe, T. Yoshino.
Axillary apocrine carcinoma with benign apocrine tumors: A case report involving a pathological and immunohistochemical study and review of the literature.
J Clin Pathol., 58 (2005), pp. 757-761
[81]
R. Böni, H. Xin, D. Hohl, R. Panizzon, G. Burg.
Syringocystadenoma papilliferum: A study of potential tumor suppressor genes.
Am J Dermatopathol., 23 (2001), pp. 87-89
[82]
J.L. Levinsohn, J.L. Sugarman, K. Bilguvar, J.M. McNiff, K.A. Choate, The Yale Center for Mendelian Genomics.
Somatic V600E BRAF mutation in linear and sporadic syringocystadenoma papilliferum.
J Invest Dermatol., 135 (2015), pp. 2536-2538
[83]
A.S. Shen, E. Peterhof, P. Kind, A. Rütten, B. Zelger, M. Landthaler, et al.
Activating mutations in the RAS/mitogen-activated protein kinase signaling pathway in sporadic trichoblastoma and syringocystadenoma papilliferum.
Hum Pathol., 46 (2015), pp. 272-276
[84]
Y. Watanabe, K. Shido, T. Niihori, H. Niizuma, Y. Katata, C. Iizuka, et al.
Somatic BRAF c.1799T>A p.V600E Mosaicism syndrome characterized by a linear syringocystadenoma papilliferum, anaplastic astrocytoma, and ocular abnormalities.
Am J Med Genet A., 170A (2016), pp. 189-194
[85]
J. Dua, S. Grabczynska.
Eccrine nevus affecting the forearm of an 11-year-old girl successfully controlled with topical glycopyrrolate.
Pediatr Dermatol., 31 (2014), pp. 611-612
[86]
Y. Zhang, Y. Feng, S. Xiao.
Congenital eccrine nevus on the neck.
Dermatol Online J., 20 (2014),
13030/qt4t61s47c
[87]
M. Castori, G. Annessi, D. Castiglia, V. Buffa, A. Paradisi, P. Cascone, et al.
Systematized organoid epidermal nevus with eccrine differentiation, multiple facial and oral congenital scars, gingival synechiae, and blepharophimosis: A novel epidermal nevus syndrome.
Am J Med Genet A., 152A (2010), pp. 25-31
[88]
M. Larralde, E. Bazzolo, P. Boggio, M.E. Abad, A. Santos Muñoz.
Eccrine angiomatous hamartoma: Report of five congenital cases.
Pediatr Dermatol., 26 (2009), pp. 316-319
[89]
A. Galan, J.M. McNiff.
Eccrine angiomatous hamartoma with features resembling verrucous hemangioma.
J Cutan Pathol., 34 (2007), pp. 68-70
[90]
A.T. Patterson, M.G. Kumar, S.J. Bayliss, P.M. Witman, L.P. Dehner, A.A. Gru.
Eccrine angiomatous hamartoma: A clinicopathologic review of 18 cases.
Am J Dermatopathol., 38 (2016), pp. 413-417
[91]
L. Requena.
Neoplasias anexiales cutáneas.
Aula Médica Ediciones, (2004),
[92]
D.S. Goddard, M. Rogers, I.J. Frieden, A.L. Krol, C.R. White Jr., A.G. Jayaraman, et al.
Widespread porokeratotic adnexal ostial nevus: Clinical features and proposal of a new name unifying porokeratotic eccrine ostial and dermal duct nevus and porokeratotic eccrine and hair follicle nevus.
J Am Acad Dermatol., 61 (2009),
1060.e1-14
[93]
B. Coras, T. Vogt, A. Roesch, M. Landthaler, U. Hohenleutner.
Bowen's disease on porokeratotic eccrine ostial and dermal duct nevus.
Dermatol Surg., 33 (2007), pp. 496-499
[94]
J.A. Easton, S. Donnelly, M.A. Kamps, P.M. Steijlen, P.E. Martin, G. Tadini, et al.
Porokeratotic eccrine nevus may be caused by somatic connexin26 mutations.
J Invest Dermatol., 132 (2012), pp. 2184-2191
[95]
M. Titeux, V. Mendonça, A. Décha, E. Moreira, S. Magina, A. Maia, et al.
Keratitis-ichthyosis-deafness syndrome caused by GJB2 maternal mosaicism.
J Invest Dermatol., 129 (2009), pp. 776-779
[96]
A. Patrizi, M. Medri, B. Raone, F. Bianchi, S. Aprile, I. Neri.
Clinical characteristics of Becker's nevus in children: Report of 118 cases from Italy.
Pediatr Dermatol., 29 (2012), pp. 571-574
[97]
C. Guarneri, M. Lentini, S.P. Cannavò, R. Happle.
A case of hypertrichotic smooth muscle hamartoma: Is it an amelanotic Becker naevus?.
Clin Exp Dermatol., 40 (2015), pp. 577-579
[98]
E.D. Cai, B.K. Sun, A. Chiang, A. Rogers, L. Bernet, B. Cheng, et al.
Postzygotic mutations in the actin gene ACTB causes Becker's nevus and Becker's nevus syndrome.
J Invest Dermatol., 136 (2016), pp. S72
[99]
R. Danarti, A. König, A. Salhi, M. Bittar, R. Happle.
Becker's nevus syndrome revisited.
J Am Acad Dermatol., 51 (2004), pp. 965-969

Please cite this article as: Garcias-Ladaria J, Rosón MC, Pascual-López M. Nevus epidérmicos y síndromes relacionados. Parte 2: Nevus derivados de estructuras anexiales. Actas Dermosifiliogr. 2018;109:687–698.

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