9 BENIGN NEOPLASMS AND HYPERPLASIAS

Benign Neoplasms and Hyperplasias image


Disorders of Melanocytes



Epidemiology and Etiology


One of the most common acquired new growths in Caucasians (most adults have about 20 nevi), less common in blacks or pigmented persons, and sometimes absent in persons with red hair and marked freckling (skin phototype I).


Race. Blacks and Asians have more nevi on the palms, soles, and nail beds.


Heredity. Common acquired NMN occur in family clusters. Dysplastic melanocytic nevi (DN) (see Section 12), which are putative precursor lesions of malignant melanoma, are different from NMN and occur in virtually every patient with familial cutaneous melanoma and in 30–50% of patients with sporadic nonfamilial primary melanoma.


Sun Exposure. A factor in the induction of nevi on the exposed areas.


Significance. Risk of melanoma is related to the numbers of NMN and to DN. In the latter, even if only a few lesions are present.


Clinical Manifestation


Duration and Evolution of Lesions. NMN appear in early childhood and reach a maximum in young adulthood even though some NMN may arise in adulthood. Later on there is a gradual involution and fibrosis of lesions, and most disappear after the age of 60. In contrast, DN continue to appear throughout life and are believed not to involute (see Section 12).


Skin Symptoms. NMN are asymptomatic. However, NMN grow and growth is often accompanied by itching. Itching per se is not a sign of malignancy, but if a lesion persistently itches or is tender, it should be followed carefully or excised, since persistent pruritus may be an early indication of malignant change.


Classification


NMN are multiple (Fig. 9-1A) and can be classified according to their state of evolution and thus according to the histologic level of the nevus cell clusters (Fig. 9-1B).


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Figure 9-1. (A) Multiple NMN on the shoulder of a 32-year-old female. Most of these nevi are junctional NMN; some are slightly elevated and thus compound NMN. Note relatively uniform shape and color of the lesions. Because of different developmental stages, they are of varying size ranging from 1 to 4 mm in diameter and they are regular and have a relatively uniform shape. (B) Junctional NMN arise at dermal–epidermal junction and are intraepidermal, pigmented, and flat. In compound NMN, nevus cells have invaded the dermis and are thus both intraepidermal and dermal. Since, as a rule, only junctional nevus cells have the capacity to form melanin, they are still pigmented, but since they continue to grow, they are more elevated than junctional NMN. In dermal NMN, all nevus cells are now in the dermis and have lost the capacity to produce melanin. Dermal NMN are thus skin-colored, pink, or only slightly tan. As they still grow and expand into the dermis, they lift the lesion upward and are thus usually dome-shaped or papillomatous.


1. Junctional melanocytic NMN: These arise at the dermal–epidermal junction, on the epidermal side of the basement membrane; in other words, they are intraepidermal (Figs. 9-1B and 9-2).


2. Compound NMN: Nevus cells invade the papillary dermis, and nevus cell nests are now found both intraepidermally and dermally (Figs. 9-1B and 9-3).


3. Dermal melanocytic NMN: These represent the last stage of the evolution of NMN. “Dropping off” into the dermis is now completed, and the nevus grows or remains intradermal (Figs. 9-1B and 9-4). With progressive age, there will be gradual fibrosis (Fig. 9-4C).


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Figure 9-2. (A-D) Junctional NMN Lesions are completely flat (A, B) or minimally elevated as in (C) and (D). They are symmetric with a regular border and, depending on the skin type of the individuals, have different shades of brown to black (D).


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Figure 9-3. Compound NMN Uniformly pigmented papules and small domed nodules. (A) The lesion to the left is flatter and tan with a more elevated darker center; the larger lesion (on the right) is older and chocolate-brown; the left lesion is younger and has a predominantly junctional component at the periphery. (B) A heavily pigmented dome-shaped lesion in the eyebrow. It is sharply defined, uniformly black, smooth and slightly cobblestone-like surface, and sharply and regularly defined. It measures less than 5 mm.


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Figure 9-4. Dermal melanocytic NMN (A) Two dome-shaped, sharply defined relatively soft tan nodules on the left cheek and right lateral mandibular region in a 60-year-old male. These lesions were previously much darker and less elevated. (B) A larger magnification of a dermal NMN. This lesion is sharply defined, has a reddish color with a central regular pigmented spot where the nevus obviously is still compound in nature. (C) Old dermal nevus on the upper lip of a 65-year-old woman. This lesion is relatively hard, has a smooth surface, and a pinkish color. This lesion is fibrosing.


Thus, melanocytic NMN undergo the evolution from junctional → compound → dermal NMN (Fig. 9-1B). Since the capacity of NMN cells to form melanin is greatest when they are located at the dermal–epidermal junction (intraepidermally) and since NMN cells lose their capacity for melanization, the further they penetrate into the dermis, the lesser is the intensity of pigmentation with the increase in the dermal proportion of the nevus. Purely dermal NMN are therefore almost always without pigment. In a simplified manner, the clinical appearance of NMN along this evolutionary path can be characterized as follows: junctional NMN is flat and dark, compound NMN is raised and dark, and dermal NMN is raised and light. This evolution also reflects the age at which the different types of NMN are found. Junctional and compound NMN are usually seen in childhood and through the teens, whereas dermal NMN start manifesting in the third and fourth decade.


Junctional Melanocytic Nevocellular Nevi


Lesions. Macule, or only very slightly raised (Fig. 9-2). Uniform tan, brown, dark brown, or even black. Round or oval with smooth, regular borders. Scattered discrete lesions. Never >1 cm in diameter; if >1 cm, the “mole” is a congenital nevomelanocytic nevus, a DN, or a melanoma (see Section 12).


Compound Melanocytic Nevocellular Nevi


Lesions. Papules or small nodules (Fig. 9-3). Dark brown, sometimes even black; dome-shaped, smooth or cobblestone-like surface, regular and sharply defined border, sometimes papillomatous or hyperkeratotic. Never >1 cm in diameter; if >1 cm, the mole is a congenital nevomelanocytic nevus, a DN, and a melanoma. Consistency either firm or soft. Color may become mottled as progressive conversion into dermal NMN occurs. May have hairs.


Dermal Melanocytic Nevocellular Nevi


Lesions. Sharply defined papule or nodule. Skin-colored, tan or flecks of brown, often with telangiectasia. Round, dome-shaped (Fig. 9-4), smooth surface, diameter <1 cm. Usually not present before the second or third decade. Older lesions, mostly on the trunk, may become pedunculated and do not disappear spontaneously. May be hairy.


Distribution. Face, trunk, extremities, scalp. Random. Occasionally palmar and plantar, in which case these NMN usually have the appearance of junctional NMN.


Diagnosis and Differential Diagnosis


Diagnosis. Made clinically. As for all pigmented lesions, the ABCDE rule applies (see Section 12). In case of doubt, apply dermoscopy (epiluminescence microscopy), and if malignancy cannot be excluded even by this procedure, excise lesions with a narrow margin.


Differential Diagnosis. Junctional NMN: all flat, deeply pigmented lesions. Solar lentigo, flat atypical nevus, and lentigo maligna. Compound NMN: all raised pigmented lesions. Seborrheic keratosis, DN, small superficial spreading melanoma, early nodular melanoma, pigmented basal cell carcinoma (BCC), dermatofibroma, Spitz nevus, and blue nevus. Dermal NMN: all light tan or skin-colored papules. BCC, neurofibroma, trichoepithelioma, dermatofibroma, and sebaceous hyperplasia.


Management


Indications for removal of acquired melanocytic NMN are the following:


 


Site: Lesions on the scalp (only if difficult to follow and not a classic dermal NMN); mucous membranes, anogenital area.


Growth: If there is rapid change in size.


Color: If color becomes variegated.


Border: If irregular borders are present or develop.


Erosions: If lesion becomes eroded without major trauma.


Symptoms: If lesion begins to persistently itch, hurt, or bleed.


Dermoscopy: If criteria for melanoma or a dysplastic nevus are present or appear de novo.


 


Melanocytic NMN never become malignant because of manipulation or trauma. In those cases where this was claimed, the lesion was initially a misdiagnosed melanoma. If there is an indication for the removal of an NMN, the nevus should always be excised for histologic diagnosis and for definite treatment (particularly applicable to and decisive in ruling out congenital, dysplastic, or blue nevi). Removal of papillomatous, compound, or dermal NMN for cosmetic reasons by electrocautery requires that a nevus be unequivocally diagnosed as benign NMN and histology be performed. If an early melanoma cannot be excluded with certainty, an excision for histologic examination is obligatory but can be performed with narrow margins.



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Figure 9-5. (A) Halo melanocytic NMN on the back of a 22-year-old female There are five halo nevi, all with a pigmented dot-like central junctional or compound NMN surrounded by a hypo- or amelanotic halo. The arrow indicates one lesion where the central nevus has completely regressed; the reddish color indicates telangiectasia. (B) Larger magnification of a halo NMN. The nevus is a junctional NMN (compare with Fig. 9-2) that is surrounded by a hypomelanotic (almost white) halo. (C) Several tan junctional NMN that are surrounded by an erythematous halo. This is the early stage of halo development. The erythematous rim will later be replaced turn white.



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Figure 9-6. Blue nevus There are four tan junctional NMN and one bluish-black round lesion on the cheek of a 17-year-old girl. In contrast to the junctional NMN, the blue nevus is palpable with a relatively high consistency, and upon dermoscopy will appear as an ill-defined uniformly bluish lesion deep in the dermis.


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Figure 9-7. Blue nevus and cellular blue nevus (A) This blue nevus has regular borders but is not circular and is solidly blue-black in color. The epidermis is smooth, indicating that the lesion is in the dermis. The consistency is increased and the margins are well defined. Differential diagnosis must include nodular melanoma. (B) This cellular blue nevus appeared as two large, bluish-black nodules on the scalp. After excision, histology showed that they were contiguous and thus represented one single lesion. Cellular blue nevi are much larger and should always be excised to rule out melanoma, which, albeit rarely, can develop in these lesions.



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Figure 9-8. Nevus spilus (A) This dark brown pigmented macule measuring about 10 cm along the long axis is peppered with many small, dark brown to black macules and papules. (B) This is also nevus spilus but the macular background is only slightly pigmented so that it will be revealed only under Wood light. The lesion is peppered with many small dark brown macules and flat papules.



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Figure 9-9. Spitz nevus (A) Pink dome-shaped nodule on the cheek of a young woman, developing abruptly within the previous 12 months; the lesion can be mistaken for a hemangioma. (B) Pigmented Spitz nevus. A black papule surrounded by a tan macular region developed within a few months on the back of a young female; as such a lesion cannot be distinguished from a nodular melanoma, the lesion was excised and the diagnosis confirmed histologically.



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Figure 9-10. Mongolian spot A large gray-blue macular lesion involving the entire lumbosacral and gluteal area and the left thigh in a baby from Sri Lanka. Although Mongolian spots are common in Asians, the parents of this baby were alarmed because the lesion was so large.


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Figure 9-11. Mongolian spots Multiple, ill-defined, bluish lesions are scattered on the back of this Japanese child. They were present at birth. Most of these lesions disappeared later in childhood.



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Figure 9-12. Nevus of Ota (A) There is an ill-defined, mottled, dusky, gray to bluish hyperpigmentation in the regions supplied by the first and second branches of the trigeminal nerve. The lesion was unilateral and there was also hyperpigmentation of the sclera and eyelids. (B). Bilateral nevus of Ota with involvement of the sclerae in a Japanese child.



TABLE 9-1 CLASSIFICATION OF VASCULAR ANOMALIES


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TABLE 9-2 DISTINGUISHING FEATURES OF VASCULAR TUMORS (HEMANGIOMAS) AND VASCULAR MALFORMATIONS


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Vascular Tumors



Epidemiology


The most common tumor of infancy. Incidence in newborns between 1% and 2.5%; in white children by 1 year of age 10%. Females to males ratio is 3 to 1.


Etiology and Pathogenesis


HI is a localized proliferative process of angioblastic mesenchyme. A clonal expansion of endothelial cells resulting from somatic mutations of genes regulating endothelial cell proliferation.


Clinical Manifestation


The initial proliferative phase lasts from 3 to 9 months. His usually enlarge rapidly during the first year. In a subsequent phase of involution, the HI regresses gradually over 2–6 years. Involution is usually completed by the age of 10 and varies greatly between individuals. It is not correlated with size, location, or appearance of the lesion.


Skin Lesions. Soft, bright red to deep purple, compressible. On diascopy, does not blanch completely. Nodule or plaque, 1–8 cm (Figs. 9-13A and 9-14A). With the onset of spontaneous regression, a white-to-gray area appears on the surface of the central part of the lesion (Fig. 9-14A). Ulceration may occur.


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Figure 9-13. Hemangioma of infancy (A) This bright red nodular plaque in an infant of African extraction is frightening to the parents, and caution is needed to prevent scarring from the treatment itself. Since most of these lesions disappear spontaneously with only 20% showing residual atrophy or depigmentation, a wait-and-see strategy is recommended. (B) The same lesion after 3 years. The hemangioma has faded spontaneously, and there is only slight residual atrophy.


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Figure 9-14. Hemangioma of infancy (A) This lesion on the nose consists of a superficial and deep portion, and incipient involution is already apparent for the superficial compartment. Note an additional small hemangioma of infancy on the left zygomatic region. (B) By the fifth year, the hemangioma on the nose has almost disappeared and so has the lesion on the zygomatic region; the latter, however, that has left a small scar.


Distribution. Lesions are usually solitary and localized or extended over an entire region (Fig. 9-15). Head and neck 50% and trunk 25%. Face, trunk, legs, and oral mucous membrane.


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Figure 9-15. Hemangioma of infancy Here it involves a large segment of skin. While involution is already apparent on the forehead, the lesion on the upper eyelid and the medial canthus is impairing proper function of the lid, and this indicates that vision might be impaired in the future. In this patient, treatment was indicated.


Special Presentations


Deep HI. (Formerly, cavernous hemangioma.) In the lower dermis and subcutaneous fat. Localized, firm rubbery mass of bluish or normal skin color with telangiectases in overlying skin (Fig. 9-16). Can be combined with superficial hemangioma (Fig. 9-14A). Does not involute as well as superficial type.


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Figure 9-16. Hemangioma of infancy, deep lesion There is a rubbery mass in the subcutis associated with a superficial (red) portion. These lesions hardly regress. The hemangioma was removed by surgery.


Multiple His. Multiple small (<2 cm), cherry-red papular lesions involving skin alone (benign cutaneous hemangiomatosis) or skin and internal organs (diffuse neonatal hemangiomatosis).


Congenital Hemangiomas. These develop in utero and are subdivided into rapidly involuting congenital hemangiomas (RICH) and non-involuting congenital hemangiomas (NICH). They present as violaceous tumors with overlying telangiectasia with large veins in periphery or as red-violaceous plaques invading deeper tissues. NICH are fast-flow hemangiomas requiring surgery.


Laboratory Examination


Dermatopathology. Proliferation of endothelial cells in various amounts in the dermis and/or subcutaneous tissue; there is usually more endothelial proliferation in the superficial type and little in the deep angiomas. GLUT-1 immunoreactivity is found in all hemangiomas but not in vascular malformations.


Diagnosis


Made on clinical findings and MRI; Doppler and arteriography to demonstrate fast flow. Determine GLUT-1 immunoreactivity to rule out vascular malformation.


Course and Prognosis


HIs spontaneously involute by the fifth year, with some few percent disappearing only by age 10 (Figs. 9-13B and 9-14B). There is virtually no residual skin change at the site in most lesions (80%); in the rest there is atrophy, depigmentation, telangiectasia, and scarring. HIs may, however, pose a considerable problem during the growth phase when they interfere with vital functions, such as obstruction of vision (Fig. 9-15) or of larynx, nose, or mouth. Deeper lesions, especially those involving mucous membranes, may not involute completely. Synovial involvement may be associated with hemophilia-like arthropathy. Special forms of HI, tufted angiomas and Kaposiform hemangioendothelioma, may have platelet entrapment, thrombocytopenia (Kasabach–Merritt syndrome), and even disseminated intravascular coagulation. Rarely, morbidity associated with HI occurs secondary to hemorrhage or high-output heart failure.


Management


Each lesion must be judged individually regarding the decision to treat or not to treat and the selection of a treatment mode. Systemic treatment is difficult, requires experience, and should be performed by an expert. Surgical and medical interventions include continuous wave or pulsed dye laser, cryosurgery, intralesional and systemic high-dose glucocorticoids, interferon-α (IFN-α), and propranolol. For the majority of HIs, active nonintervention is the best approach because spontaneous resolution gives the best cosmetic results (Figs. 9-13B and 9-14B). Treatment is indicated in about a quarter of HIs (5% that ulcerate; 20% that obstruct vital structures, i.e., eyes, ears, larynx).


Dec 17, 2016 | Posted by in Dermatology | Comments Off on 9 BENIGN NEOPLASMS AND HYPERPLASIAS

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