Journal Information
Vol. 107. Issue 8.
Pages 640-651 (October 2016)
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15744
Vol. 107. Issue 8.
Pages 640-651 (October 2016)
Review
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Cutaneous Pseudolymphomas
Pseudolinfomas cutáneos
Visits
15744
D. Romero-Pérez, M. Blanes Martínez
Corresponding author
blanes_marmar@gva.es

Corresponding author.
, B. Encabo-Durán
Servicio de Dermatología, Hospital General Universitario de Alicante, Alicante, Spain
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Figures (6)
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Tables (4)
Table 1. Cutaneous Pseudolymphoma.
Table 2. Drugs Associated With Pseudolymphomatous Cutaneous Reactions.
Table 3. Allergens Implicated in Lymphomatoid Contact Dermatitis.
Table 4. Pseudolymphomatous Disorders With Possible CD30+ Cell Proliferation.
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Abstract

The term cutaneous pseudolymphoma refers to benign reactive lymphoid proliferations in the skin that simulate cutaneous lymphomas. It is a purely descriptive term that encompasses various reactive conditions with a varied etiology, pathogenesis, clinical presentation, histology, and behavior. We present a review of the different types of cutaneous pseudolymphoma. To reach a correct diagnosis, it is necessary to contrast clinical, histologic, immunophenotypic, and molecular findings. Even with these data, in some cases only the clinical course will confirm the diagnosis, making follow-up essential.

Keywords:
Pseudolymphoma
Skin
Cutaneous lymphoid hyperplasia
Resumen

El término pseudolinfoma cutáneo designa proliferaciones linfoides cutáneas benignas de naturaleza reactiva que simulan linfomas cutáneos. Se trata de un término puramente descriptivo que engloba diferentes entidades reactivas, con diversa etiología, patogénesis, presentación clínica, histología y comportamiento. En el presente artículo revisaremos los distintos tipos de pseudolinfoma cutáneo. Como veremos, para llegar al correcto diagnóstico de los mismos será preciso en cada caso la integración de los datos clínicos con los histopatológicos, inmunofenotípicos y moleculares. Incluso entonces, en ocasiones solo la evolución confirmará el diagnóstico, por lo que el seguimiento será esencial.

Palabras clave:
Pseudolinfoma
Piel
Hiperplasia linfoide cutánea
Full Text
Introduction

Cutaneous pseudolymphomas are benign reactive lymphoid proliferations that simulate cutaneous lymphomas clinically, histologically, or both clinically and histologically.1–6 The concept was described for the first time in 1891 by Kaposi under the name sarcomatosis cutis. Since then, these proliferations have received many names and the initial descriptions all corresponded to B-cell pseudolymphoma.4,5,7,8

Traditionally, cutaneous pseudolymphomas have been classified according to their histologic and immunophenotypic characteristics or rather in relation to the lymphoma they simulate. In other words, they are categorized as cutaneous B-cell pseudolymphomas or cutaneous T-cell pseudolymphomas, depending on the predominant lymphocytic component.9 While the distinction is frequently artificial, this classification system is still the widely used system for categorizing pseudolymphomas.

The list of cutaneous pseudolymphomas has grown in recent years with the inclusion of multiple reactive conditions with histopathologic features mimicking those of true lymphomas. It is also noteworthy that several entities that were originally considered to be cutaneous pseudolymphomas have since been reclassified as low-grade lymphomas based on clinical and pathologic findings, molecular biology studies, and follow-up data.6

Epidemiological data on cutaneous pseudolymphomas are scarce, although B-cell pseudolymphomas appear to be more common than their T-cell counterparts, and they are also more common in female patients.4,5,10 Cutaneous pseudolymphoma generally affects adults, although it can occur at any age. No familial cases have been reported.3

The proliferation of skin-associated lymphoid tissue (SALT), the cutaneous analog of mucosa-associated lymphoid tissue (MALT), following antigenic stimulation has been proposed as a contributory factor in the pathogenesis of cutaneous pseudolymphoma .11 Accordingly, cutaneous pseudolymphoma could potentially progress to a true cutaneous lymphoma with permanent antigenic stimulation, as occurs in the gastric mucosa in the presence of persistent Helicobacter pylori infection.12 However, while there have been some reports of progression to cutaneous lymphoma,13–17 true progression from a correctly diagnosed pseudolymphoma is very rare, if not impossible.

To diagnose cutaneous pseudolymphoma it is necessary to contrast clinical and histologic findings, with assessment of the architecture and composition of the inflammatory infiltrate, and to complement these findings with immunohistochemistry and gene rearrangement studies.6,18,19 These clonality studies generally reveal a polyclonal pattern. Nevertheless, it is not always possible to demonstrate clonality in true lymphomas, and certain pseudolymphomas have monoclonal B-cell and T-cell populations.5,8,20–26 Accordingly, although gene arrangement studies are useful, their results must be interpreted with caution and within the context of the data available.

In the rest of this paper we will describe the main types of cutaneous pseudolymphoma (Table 1).

Table 1.

Cutaneous Pseudolymphoma.

Lupus erythematosus panniculitis 
Pseudolymphoma in tattoos 
Pseudolymphoma at the site of vaccination 
Lymphocytoma cutis 
Pseudolymphoma in acrodermatitis chronica atrophicans lesions 
Pseudolymphomatous folliculitis 
Lymphomatoid drug reaction 
Morphea 
Acral pseudolymphomatous angiokeratoma 
T cell–rich angiomatoid polypoid pseudolymphoma 
Pretibial lymphoplasmacytic plaque 
Secondary syphilis 
Persistent arthropod bite reaction 
Actinic reticuloid 
Lichen sclerosus et atrophicus 
Lichen aureus 
Solitary T-cell pseudolymphoma 
Lichenoid keratosis 
Lymphomatoid contact dermatitis 
Atypical lymphoid proliferation in patients with human immunodeficiency virus 
CD30+ pseudolymphomas 
Immunoglobulin G4-related disease 
Annular lichenoid dermatitis 
Palpable migratory arciform erythema 
Other cutaneous pseudolymphomas 
Lupus Erythematosus Panniculitis

Lupus with subcutaneous involvement, a condition known as lupus erythematosus panniculitis, can raise clinical and particularly histologic suspicions of panniculitis-like T-cell lymphoma.6,27

Lupus erythematosus panniculitis presents as plaques or subcutaneous nodules in areas rarely affected by other forms of panniculitis, such as the face, the shoulders, and the proximal aspect of the arms. Antinuclear antibodies and other diagnostic criteria for systemic lupus erythematosus may be absent.

Histologic examination shows a predominantly lobular panniculitis with dense lymphoid infiltrates in the deep dermis and the hypodermis, along with wide fibrous septae on occasions. The infiltrate is mixed, with abundant B cells, plasma cells, and clusters of plasmacytoid dendritic cells, frequently forming reactive germinal centers. The dermal-epidermal junction may show the characteristic interface dermatitis associated with the underlying connective tissue disease, and this is a key finding for the differential diagnosis. In lupus erythematosus panniculitis, unlike in panniculitis-like T-cell lymphoma, histology does not show cytophagocytosis or adipocyte rimming (atypical lymphoid cells surrounding the adipocytes). T-cell receptor (TCR) gene rearrangement will show a polyclonal pattern.6,27

Histologic features of panniculitis-like T-cell lymphoma and lupus erythematosus panniculitis may, albeit rarely, overlap. In one study of 83 patients with panniculitis-like T-cell lymphoma, Willemze et al.28 observed abundant plasma cells interspersed with CD4+ T cells in 4 patients who also had lupus erythematosus, leading to an initial misdiagnosis of lupus erythematous panniculitis. The presence of cellular atypia together with a loss of pan-T-cell markers and/or clonal TCR-γ rearrangement was key to establishing a correct diagnosis.28

Pseudolymphoma in Tattoos

Although uncommon, pseudolymphomatous reactions to tattoo ink can occur, and a variable latency period has been described.29,30 Red ink is the most common ink involved in these reactions.30 Tattoo ink–related pseudolymphoma presents as subcutaneous nodules.11

Histologic examination shows a dense diffuse dermal infiltrate with perivascular and periadnexal accentuation composed mainly of small lymphocytes (most often T cells but there may also be B cells or a mixture) and macrophages. Additional findings include eosinophils, plasma cells, histiocytes, and giant multinucleated cells. These cells may form lymphoid follicles with germinal centers or patterns similar to those seen in mycosis fungoides. Spongiosis, exocytosis, and basal vacuolar degeneration may also be observed in the epidermis.29,30 The presence of macrophages phagocytizing the pigment is a key diagnostic clue.

Pseudolymphoma at the Site of Vaccination

An intense inflammatory response simulating cutaneous lymphoma can also occur at vaccination sites as the result of a delayed hypersensitivity reaction to vaccine components. This reaction is particularly seen in vaccines containing aluminum, as this metal contributes to the delayed absorption of other components, thereby prolonging the antigen stimulus.6,31 It presents as papules or superficial or deep erythematous nodules.6,32

The histologic pattern may be lichenoid, simulating mycosis fungoides, or nodular, simulating follicle center lymphoma (Fig. 1). In this second case, however, bcl-6+ cells will not be observed outside the reactive germinal centers.6,33 Clusters of CD30+ cells may occasionally be observed.33 When aluminum is involved, the histiocytes in the infiltrate, which may be solitary or arranged in clusters forming epithelioid granulomas, typically have abundant granular and basophilic cytoplasm (Fig. 2) corresponding to intracellular aluminum deposits.

Figure 1.

Lymphoid follicles in the subcutaneous tissue separated by areas of fibrosis in this vaccination-induced pseudolymphoma (hematoxylin-eosin, original magnification ×10).

(0.38MB).
Figure 2.

Histiocytes with basophilic granular cytoplasm corresponding to the aluminum component of a vaccine, intermixed with lymphocytes, together with eosinophils and plasma cells (hematoxylin-eosin, original magnification ×40).

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Lymphocytoma Cutis

Lymphocytoma cutis was first described by Spiegler in 1894. It is the prototype of cutaneous B-cell pseudolymphoma and perhaps the most common variant. It represents an exaggerated local immune response to diverse stimuli, the most widely described of which are arthropod bites.6,32–37 One of the most classic associations is with the spirochete Borrelia burgdorferi following a bite from a Ixodes tick.22,38

Lymphocytoma cutis typically presents as a solitary reddish nodule (Fig. 3) or less frequently as plaques or crops of papules. The face and neck are the most common sites of involvement. Lesions on the earlobe, nipples, or scrotum are highly characteristic of B burgdorferi–associated lymphocytoma cutis.6,38–40

Figure 3.

Lymphocytoma cutis. Solitary lesion on the back.

(0.12MB).

Miliarial-type lesions have also been described, but less frequently. These present as multiple, symmetric, monomorphous translucent micropapules on the head and neck and they can be asymptomatic or slightly pruritic.11,41,42

Histology reveals a dense nodular lymphoid infiltrate in the dermis, with germinal centers that characteristically lack a mantle zone and may merge. Although the infiltrate in pseudolymphomas tends to be top heavy (i.e., more pronounced in the superficial dermis) rather than bottom heavy like in lymphomas, in B burgdorferi–associated lymphocytoma cutis, infiltrates are often found throughout the dermis and even in the superficial layers of the subcutaneous tissue.6

The infiltrate is formed by plasma cells, eosinophils, abundant reactive T cells, and tingible body macrophages (Fig. 4). This heterogeneity is another factor to take into account when distinguishing cutaneous pseudolymphomas from true lymphomas, as these tend to have a more uniform infiltrate. The predominant immunophenotype is a germinal center B-cell type, with positive staining for CD20, CD10, and bcl-6, and negative staining for bcl-2. The germinal centers tend to have a very high proliferative index, but unlike in true cutaneous lymphomas, cellular atypia and preservation of adnexal structures are not observed. Rearrangement analysis usually, but not always, shows a polyclonal pattern. Assessment of clonality in more than 1 lesion is very useful for differentiating pseudolymphomas and lymphomas in patients with several lesions. Detection of the same clone in 2 lesions or in the same lesion at different stages of development would point to a diagnosis of lymphoma.6,39,43

Figure 4.

Histologic image of the lymphocytoma cutis shown in Figure 3. Dense mixed dermal infiltrate. Note the merging germinal centers devoid of the mantel zone, simulating a B-cell lymphoma (hematoxylin-eosin, original magnification ×20).

(0.4MB).
Pseudolymphoma in Acrodermatitis Chronica Atrophicans Lesions

Pseudolymphoma has been described in the lesions of patients with acrodermatitis chronica atrophicans, which is a delayed cutaneous manifestation of B burgdorferi infection. Histologically, lesions can display 2 patterns: one simulating mycosis fungoides and the other (less frequent) one simulating cutaneous B-cell lymphoma. The rearrangement study shows a polyclonal infiltrate.44,45

Pseudolymphomatous Folliculitis

Pseudolymphomatous folliculitis is a cutaneous pseudolymphoma characterized by the presence of hyperplastic hair follicles together with a lymphoid infiltrate that can mimic cutaneous lymphoma. It presents with a single or, less frequently, several dome-shaped or nodular lesions on the face, scalp, or trunk.12,46

Histologically, pseudolymphomatous folliculitis can simulate small-to-medium-sized pleomorphic T-cell lymphoma, follicle center B-cell lymphoma, or even folliculotropic mycosis fungoides. A dense lymphocytic infiltrate is located predominantly around the hair follicles, which show hyperplastic changes and thickened walls. Clusters of perifollicular S100+ and CD1A+ histiocytes may occasionally be seen. Rearrangement studies show a polyclonal infiltrate.11,12,46–50

Lymphomatoid Drug Reaction

Numerous drugs can induce cutaneous lymphoid infiltrates that resemble lymphoma clinically, histologically, or both clinically and histologically. The most frequently implicated drugs are anticonvulsants and antihypertensives, but others have been described (Table 2).

Table 2.

Drugs Associated With Pseudolymphomatous Cutaneous Reactions.

Anticonvulsants  Phenytoin, carbamazepine, mephenytoin, trimethadione, phenobarbital, primidone, butabarbital, methsuximide, phensuximide 
Antipsychotics  Chlorpromazine, thioridazine, promethazine, methylphenidate 
Antihypertensives
ACE inhibitors  Captopril, enalapril, benazepril 
β-Blockers  Atenolol, labetalol 
Calcium channel blockers  Verapamil, diltiazem, benidipine 
Diuretics  Moduretic, hydrochlorothiazide 
Cytotoxic agents  Ciclosporin, methotrexate 
Rheumatology drugs  Gold, salicylates, phenacetin, D-penicillamine, allopurinol, NSAIDs 
Antibiotics  Penicillin, dapsone, nitrofurantoin, vancomycin 
Antidepressants  Fluoxetine, doxepin, depramine, amitriptyline, lithium 
Anxiolytics  Benzodiazepines (clonazepam, lorazepam) 
Antihistamines  Diphenhydramine 
H2 antihistamines  Cimetidine, ranitidine 
Antiarrhythmics  Procainamide, mexiletine 
Topical agents  Menthol, eugenol 
Sex hormones  Estrogens, progesterone 
Lipid-lowering drugs  Lovastatin 
Biologics  Adalimumab, infliximab, etanercept 
Other  Lornoxicam, zoledronic acid 

Abbreviations: ACE, angiotensin-converting enzyme; NSAIDs, nonsteroidal anti-inflammatory drugs.

Source: Ploysangam et al.,36 Naciri Bennani et al.,51 Imafuku et al.,52 Fukamachi et al.,53 Guis et al.,54 Stavrianeas et al.,55 Welsh et al.,56 Kitagawa et al.,57 Macisaac et al.,58 Kim et al.,59 Foley et al.60

Clinically, lymphomatoid drug reactions present as generalized papules, plaques, or nodules, or even erythroderma, sometimes with accentuation in sun-exposed areas.6,36,61 Lesions typically appear 2 to 8 weeks after the introduction of the offending drug, but later onset has been reported.36,42,62 The skin lesions may be accompanied by enlarged lymph nodes, fever, and less frequently hepatosplenomegaly, joint pain, and diverse blood test alterations including elevated liver enzymes and eosinophilia, particularly in cases due to anticonvulsants.61,63 Circulating Sézary cells may occasionally be detected.36

Histologic findings in lymphomatoid drug reaction include a band-like T cell–predominant infiltrate with epidermal spongiosis and exocytosis, simulating mycosis fungoides. On other occasions, there may be a nodular or diffuse B-cell pattern with formation of germinal centers, simulating follicle center or marginal zone B-cell lymphoma. Cellular atypia has been described in some cases, as have abundant CD30+ cells, which can complicate diagnosis. Findings suggestive of lymphomatoid drug reaction include necrotic keratinocytes, red blood cell extravasation, pigmentary incontinence, dermal edema, absence of fibrosis in the papillary dermis, presence of other inflammatory cells in the infiltrate, and finally, negative clonality in the gene rearrangement study. Lesions in sun-exposed areas can also point to a diagnosis of lymphomatoid drug reaction.42,43,61,64–68

The condition resolves after a variable period of time on withdrawal of the drug and returns when it is reintroduced.42,43 There have been very rare reports of progression to true cutaneous lymphoma,69 and in these cases the skin lesions would not disappear after withdrawal of the drug.

Morphea

Collagen involvement is often not very evident in the inflammatory phase of connective tissue disorders, especially in localized scleroderma, and histology may reveal dense lymphoid infiltrates simulating cutaneous lymphoma and marginal zone B-cell lymphoma in particular. Plasma cells are almost always present and light chain gene rearrangement studies will show a polyclonal infiltrate.6,70,71 It is essential to contrast clinical and pathologic findings in such cases.

Acral Pseudolymphomatous Angiokeratoma/Small Papular Pseudolymphoma

Acral pseudolymphomatous angiokeratoma, which was originally described under the acronym APACHE (acral pseudolymphoma angiokeratoma in children), is a rare benign condition of unknown etiology and pathogenesis, although some authors believe it is a hypersensitivity reaction to insect bites.4,6,72,73 It is characterized by papules or clusters of asymptomatic red-purple nodules, typically located at acral sites, and is more common in children and adolescents.11,36,72–75

Histologic findings include a dense well-differentiated nodular B-cell and T-cell infiltrate that generally spares the adnexal structures, in addition to plasma cells, eosinophils, and on occasions histiocytes and giant multinucleated cells. A proliferation of capillary vessels may be observed. The epidermis is normally spared, although there have been reports of basal vacuolization, exocytosis, and spongiosis.6,72

T Cell–Rich Angiomatoid Polypoid Pseudolymphoma

T cell–rich angiomatoid polypoid pseudolymphoma has similar histologic findings to acral pseudolymphomatous angiokeratoma, but it is characterized by solitary polypoid lesions at nonacral sites, with a predilection for the head and trunk. It typically affects young adults.11,76,77 Another difference between the 2 entities is that in angiomatoid polypoid pseudolymphoma, there is a predominance of CD4+ T cells in the infiltrate and the prominent thick-walled vessels seen in acral pseudolymphomatous angiokeratoma are absent. Both entities must be distinguished from angioplasmacellular hyperplasia, in which the infiltrate is much richer in plasma cells.76–78

Pretibial Lymphoplasmacytic Plaque in Children

Pretibial lymphoplasmacytic plaque is a benign chronic condition of unknown etiology that is probably reactive in nature. It presents as red-purple asymptomatic papules or well-delimited plaques that preferentially affect the anterior surface of the tibia in children. Histologically, it is similar to acral pseudolymphomatous angiokeratoma, although there is a much more pronounced presence of plasma cells, together with lymphocytes and prominent vessels. Vacuolization, exocytosis, and apoptotic bodies may be observed in the epidermis. The gene rearrangement study shows a polyclonal pattern.79–82

Secondary Syphilis

Histology of secondary syphilis lesions and less frequently of primary or tertiary syphilis lesions may occasionally reveal a lymphoplasmacytic infiltrate simulating marginal zone B-cell cutaneous lymphoma. The coexistence of interface/lichenoid dermatitis or granulomatous inflammation is an important diagnostic clue. Rearrangement studies show a polyclonal pattern and specific immunohistochemical staining for Treponema pallidum confirms the presence of these organisms. Lesions resolve quickly with antibiotic treatment. It is also worth noting that certain cases of malignant syphilis may also feature lesions that are clinically indistinguishable from lymphomatoid papulosis. The entities are also difficult to differentiate histologically, unless abundant plasma cells and spirochetes are observed.6,83,84

Persistent Arthropod Bite Reaction

Nodular scabies is the paradigm of persistent arthropod bite reaction, although this can be caused by arthropods other than the scabies mite. A delayed hypersensitivity reaction to a component of the mite has been implicated in the pathogenesis of the reaction, although it is rarely identified in lesions. Clinically, arthropod bite reaction presents as reddish papules or persistent pruritic nodules, despite adequate treatment.6,36

Histologically, nodular scabies may simulate mycosis fungoides, lymphomatoid papulosis, Hodgkin lymphoma, and in some cases, cutaneous B-cell lymphoma. The most frequent finding is a dense perivascular superficial and deep lymphoid infiltrate with predominant T cells, which are frequently CD30+, together with plasma cells, eosinophils, and prominent vessels.6,12,36,85,86

Actinic Reticuloid

Actinic reticuloid is a chronic photodermatitis that tends to affect elderly patients, and men in particular. It is characterized by extreme photosensitivity across a wide spectrum of UV radiation.6,36,43,87 Its pathogenesis remains unclear, although it has been proposed that a normal component of skin might become antigenic following alterations induced by a photoallergic reaction.88,89

In its early phases, actinic reticuloid presents as a highly pruritic eczematous dermatitis; there is a tendency towards localized lichenification in sun-exposed areas that may then spread to other areas.36,88 Histology reveals a mixed perivascular superficial or deep infiltrate that may include some atypical mononuclear cells. Actinic reticuloid can form a band-like pattern with lymphocytic exocytosis, simulating mycosis fungoides, or a more diffuse pattern, simulating peripheral T-cell lymphoma. The CD4/CD8 ratio, however, is lower in the case of actinic reticuloid.36,43,88

As the condition progresses, patients may develop erythroderma, enlarged lymph nodes, ectropion and up to 10% of Sézary cells in peripheral blood, complicating the differential diagnosis.6,36,90–92 Unlike mycosis fungoides and Sézary syndrome, sensitivity to UV-B, UV-A, and even visible light is very high and can exacerbate the condition.88

Actinic reticuloid is a chronic condition that does not tend to resolve spontaneously.43,93 Sun-protection measures are essential, as is avoidance of implicated allergens.6

Lichen Sclerosus

Genital lichen sclerosus, particularly in its early phases, has histologic features that require consideration of mycosis fungoides in the differential diagnosis. Lesions show a dense band-like lymphoid infiltrate in the superficial dermis and marked epidermotropism.6,94 To confuse matters even further, gene rearrangement studies reveal a clonal pattern in a considerable number of cases.95,96 Cellular atypia is not generally seen in the infiltrate in lichen sclerosus, and intraepidermal lymphocytes tend to be located in the lower part of the epidermis, without pagetoid spread; interface changes are also common.94 It is essential to contrast clinical and pathologic findings.

Lichen Aureus

Lichen aureus also has histologic features that can be confused with mycosis fungoides, and in some cases, there may be molecular evidence of clonality.6 Again, it is important to carefully correlate clinical and pathologic findings.

Solitary T-Cell Pseudolymphoma

Solitary T-cell pseudolymphoma is one of the most controversial variants of pseudolymphoma. With histologic features similar to those of mycosis fungoides and occasional monoclonality, this entity can present as superficial lesions on the breasts of adult women that resemble lichenoid keratosis lesions. In other cases, it appears as solitary nodular lesions with histologic findings similar to those of small- to-medium-sized pleomorphic T-cell lymphoma. It follows an indolent course and excision is curative.6,97,98

Lichenoid Keratosis

Lichenoid keratosis is a benign epithelial tumor related to seborrheic keratosis and lentigines that affects elderly patients. It appears as small scaling plaques normally located on the trunk. Histologically, the findings can simulate those of mycosis fungoides, with a dense band-like lymphocytic infiltrate with a certain degree of epidermotropism and occasional monoclonality. Clinical-pathologic correlation is essential.6,99–101

Lymphomatoid Contact Dermatitis

Described for the first time by Orbaneja et al.102 in 1976, lymphomatoid contact dermatitis has similar clinical and histopathologic features to mycosis fungoides. It presents as pruritic erythematous plaques, with an oscillating course, and is more common in middle-aged men.102–104 Histology shows a band-like T cell–predominant infiltrate component and epidermotropism (Fig. 5). However, in the epidermis there may be spongiosis or microvesiculation; cellular atypia is very low and there is no evidence of Pautrier microabscesses, although it is not uncommon to see small collections of keratinocytes intermixed with Langerhans cells and some lymphocytes that are frequently confused with keratinocytes (Fig. 6). TCR rearrangement studies generally show a polyclonal infiltrate.43,94,103,104

Figure 5.

Lymphomatoid contact dermatitis. In this patient sensitized to methylchloroisothiazolinone and colophony, histology showed a band-like lymphocytic infiltrate and in some areas without spongiosis, clusters in the epidermis reminiscent of Pautrier microabscesses.

(0.23MB).
Figure 6.

Detailed view of Pautrier pseudomicroabscesses. The lesions resolved after avoidance of the causative allergens.

(0.22MB).

Table 3 shows the allergens that have been implicated in lymphomatoid contact dermatitis.102,105–115 Patch tests show sensitization103 and the condition resolves with avoidance of exposure to causative allergens.6

Table 3.

Allergens Implicated in Lymphomatoid Contact Dermatitis.

Phosphorus 
N-Isopropyl-N-phenyl-4-phenylenediamine 
Ethylenediamine dihydrochloride 
Napthen cobalt 
Nickel sulfate 
Paraphenylenediamine 
Gold sodium thiosulfate 
Zinc 
Squaric acid dibutylester 
Methylchloroisothiazolinone/methylisothiazolinone 

Source: Orbaneja et al.,102 Marlière et al.,105 Wall et al.,106 Schena et al.,107 Danese et al.,108 Calzavara-Pinton et al.,109 Fleming et al.,110 Park et al.,111 Komatsu et al.,112 Pely et al.,113 Millican et al.,114 Mendese et al.115

Atypical CD8+ Lymphoid Proliferation in Patients With Human Immunodeficiency Virus

Atypical CD8+ lymphoid proliferation is a polyclonal lymphoproliferative disorder with an apparently reactive nature that is clinically and histologically similar to T-cell lymphoma and affects individuals with human immunodeficiency virus infection, particularly when they are severely immunocompromised. Its pathogenesis is unknown.116

Clinically, it presents as a generalized pruritic rash frequently associated with pigment changes (hypopigmentation or hyperpigmentation) and lichenification. Lymphadenopathy, splenomegaly, eosinophilia, and, on occasions, circulating Sézary cells have also been described.116–118

The histologic features resemble those of mycosis fungoides, but there is a predominance of CD8+ lymphocytes. Clonality studies are negative.116,119–121

CD30+ T-Cell Pseudolymphoma

The presence of large atypical CD30+ T cells has been described in numerous reactive skin disorders in recent years (Table 4). In these pseudolymphomas, CD30+ cells do not form clusters but are rather distributed throughout the infiltrate. Rearrangement studies show a polyclonal pattern. Histology frequently shows evidence of the underlying condition.6,122

Table 4.

Pseudolymphomatous Disorders With Possible CD30+ Cell Proliferation.

Infectious  Viruses
Orf
Molluscum contagiosum
Viral warts
Herpes simplex
Herpes zoster
Fungi
Mycobacteria
Leishmaniasis
Secondary syphilis
Infection due to Stenotrophomonas maltophilia
Skin abscesses
Scabies 
Drugs  Carbamazepine
Cefuroxime
Chemotherapy agents
Gemcitabine
Leuprolide
Doxepin
Antihypertensives
Atenolol
Amlodipine
Valsartan
Angiotensin-converting enzyme inhibitors
Isoflavones
Sertraline
Gabapentin 
Other  Arthropod bites
Hidradenitis
Gold acupuncture
Lymphocyte recovery rash
Pityriasis lichenoides et varioliformis
Red sea coral lesions
Atopic dermatitis
Sweet Syndrome
Stasis ulcers
Rhinophyma
Broken cysts 

Source: Pulitzer et al.,122 Gallardo et al.,123 Nathan and Belsito,124 Rose et al.,125 Kim et al.,126 Moreno-Ramírez et al.127

Immunoglobulin G4–Related Sclerosing Disease

Immunoglobulin (Ig) G4-related sclerosing disease is characterized by a lymphoplasmacytic infiltrate featuring IgG4+ plasma cells, together with sclerotic changes and elevated IgG4 serum levels (>135mg/dL).128

Skin involvement is rare, but it can occur in isolation and without elevated serum IgG4 titers. IgG4-related sclerosing disease presents as plaques or as solitary or multiple nodules on the head and/or extremities of middle-aged, predominantly male, adults.129–132

Histology shows a mixed inflammatory infiltrate immersed in a sclerotic stroma in the dermis, and occasionally in the subcutaneous tissue.11,128,130 An IgG4 to total IgG ratio of above 40% is highly suggestive of IgG4-related sclerosing disease.128

Annular Lichenoid Dermatitis

Annular lichenoid dermatitis is an entity of unknown pathogenesis, initially described in children, that shares many histologic and immunophenotypic characteristics with mycosis fungoides. It presents as solitary or multiple asymptomatic reddish-brown annular plaques with raised borders on the trunk.

Histologic examination shows a band-like CD8+-predominant lymphocytic infiltrate, vacuolar degeneration at the dermal-epidermal junction, and necrotic keratinocytes at the tips of the rete ridges. Marked epidermotropism, Pautrier microabscesses, and fibrosis in the papillary dermis are not observed. Monoclonality is shown to be absent by rearrangement studies.133–135

Palpable Migratory Arciform Erythema

Palpable migratory arciform erythema is an uncommon entity that presents with erythematous annular plaques located predominantly on the trunk with a centrifugal distribution; the lesions tend to disappear within days or weeks. Histologically there is a perivascular and periadnexal CD4+-predominant lymphocytic infiltrate, without epidermal involvement, plasma cells, or interstitial mucin. A polyclonal pattern is detected by gene rearrangement studies in most cases.136,137

Other Cutaneous Pseudolymphomas

Other cutaneous pseudolymphomas can also simulate cutaneous lymphomas clinically and/or histologically.

In the inflammatory phase of vitiligo, which is characterized by erythematous, scaling plaques rather than achromic patches, histology can reveal a dense band-like lichenoid infiltrate with lymphocytic exocytosis simulating mycosis fungoides in the lower part of the epidermis. Most of the cells are CD8+. Follow-up is essential.138

There have also been reports of pseudolymphomas in relation to herpes simplex and herpes zoster infections that can mimic T-cell or B-cell lymphomas or CD30+ lymphoproliferative diseases.139

Atypical cells have also been described in cases of chronic discoid lupus erythematosus.6 Jessner lymphocytic infiltrate of the skin can also be histologically confused with B-cell lymphoma. Polyclonal infiltrates and CD123+ plasmacytoid monocytes can help to distinguish between these disorders.43,140

The true nature of pityriasis lichenoides et varioliformis acuta (PLEVA) is still a matter of debate. PLEVA is a generally benign condition and is probably a reactive disorder with an infectious or inflammatory origin.141–143 However, there have been reports of monoclonal rearrangement141 and, at least in the febrile ulceronecrotic form, an association with cytotoxic cutaneous lymphoma has been considered. The 2 entities have overlapping clinical and histologic findings, although infiltrates are not as dense or as deep in PLEVA, and cellular atypia is also less pronounced.144 Follow-up is particularly important in PLEVA.

Conflicts of Interest

The authors declare that they have no conflicts of interest.

Acknowledgments

We would like to thank Dr Jaime Guijarro, Dr Jose Carlos Pascual, Dr Javier Mataix, Dr Juan Francisco Silvestre, and Dr María Niveiro for contributing to this article through reports of their cases and experiences.

References
[1]
W.H. Clark, M.C.JJr. Mihm, R.J. Reed, A.M. Ainswarth.
The lymphocytic infiltrates of the skin.
Hum Pathol, 5 (1974), pp. 25-43
[2]
R.C. Connors, A.B. Ackerman.
Histologic pseudomalignancies of the skin.
Arch Dermatol, 112 (1976), pp. 1767-1780
[3]
P.E. LeBoit.
Cutaneous lymphomas and their histopathologic imitators.
Semin Dermatol, 5 (1986), pp. 322-333
[4]
H. Kerl, A.B. Ackerman.
Inflammatory diseases that simulate lymphomas: Cutaneous pseudolymphomas.
Dermatology in general medicine, 4th ed, pp. 1315-1327
[5]
W.A. Caro, H.B. Helwig.
Cutaneous lymphoid hyperplasia.
Cancer, 24 (1969), pp. 487-502
[6]
L. Cerroni, K. Gatter, H. Kerl.
Pseudolymphomas of the skin. In: An illustrated guide to skin lymphoma.
2nd ed, Blackwell Publishing Ltd, (2004), pp. 155-176
[7]
A. Fernandez-Flores.
Cutaneous MALT-lymphoma: From cutaneous immunocytoma and pseudolymphoma to the current (and future) conceptions.
Rom J Morphol Embryol, 54 (2013), pp. 7-12
[8]
H.L. Evans, R.K. Winkelmann, P.M. Banks.
Differential diagnosis of malignant and benign cutaneous lymphoid infiltrates: A study of 57 cases in which malignant lymphoma had been diagnosed or suspected in the skin.
Cancer, 44 (1979), pp. 699-717
[9]
J. Smolle, R. Torne, H.P. Soyer, H. Kerl.
Immunohistochemical classification of cutaneous pseudolymphomas: Delineation of distinct patterns.
J Cutan Pathol, 17 (1990), pp. 149-159
[10]
Z. Laftah, E. Benton, K. Bhargava, J. Ross, T. Millard, P. Craig, et al.
Two cases of bilateral earlobe cutaneous pseudolymphoma.
Br J Dermatol, 171 (2014), pp. 1567-1570
[11]
M.R. Hussein.
Cutaneous pseudolymphomas: Inflammatory reactive proliferations.
Expert Rev Hematol, 6 (2013), pp. 713-733
[12]
R. Bergman.
Pseudolymphoma and cutaneous lymphoma: Facts and controversies.
Clin Dermatol, 28 (2010), pp. 568-574
[13]
R.S. Tan, C.M. Butterworth, H. McLaughlin, S. Malka, P.D. Samman.
Mycosis fungoides--a disease of antigen persistence.
Br J Dermatol, 91 (1974), pp. 607-616
[14]
R. Schuppli.
Is mycosis fungoides an immunoma?.
Dermatologica, 153 (1976), pp. 1-6
[15]
O.P. Sangueza, S. Yadav, C.R.JJr. White, R.M. Braziel.
Evolution of B-cell lymphoma from pseudolymphoma. A multidisciplinary approach using histology, immunohistochemistry, and southern blot analysis.
Am J Dermatopathol, 14 (1992), pp. 408-413
[16]
S.A. May, G. Netto, R. Domiati-Saad, C. Kasper.
Cutaneous lymphoid hyperplasia and marginal zone B-cell lymphoma following vaccination.
J Am Acad Dermatol, 53 (2005), pp. 512-516
[17]
H.E. Houck, F.A. Wirth, C.L. Kauffman.
Lymphomatoid contact dermatitis caused by nickel.
Am J Contact Dermat, 8 (1997), pp. 175-176
[18]
V. Prabhu, A. Shivani, V.R. Pawar.
Idiopathic cutaneous pseudolymphoma: An enigma.
Indian Dermatol Online J, 5 (2014), pp. 224-226
[19]
T. Terada.
Cutaneous pseudolymphoma: A case report with an immunohistochemical study.
Int J Clin Exp Pathol, 6 (2013), pp. 966-972
[20]
L. Cerroni, H. Kerl.
Diagnostic immunohistology: Cutaneous lymphomas and pseudolymphomas.
Semin Cutan Med Surg, 18 (1999), pp. 64-70
[21]
L. Cerroni, G. Goteri.
Differential diagnosis between cutaneous lymphoma and pseudolymphoma.
Anal Quant Cytol Histol, 25 (2003), pp. 191-198
[22]
B. Leinweber, C. Colli, A. Chott, H. Kerl, L. Cerroni.
Differential diagnosis of cutaneous infiltrates of B lymphocytes with follicular growth pattern.
Am J Dermatopathol, 26 (2004), pp. 4-13
[23]
G.S. Wood.
T-cell receptor and immunoglobulin gene rearrangements in diagnosing skin disease.
Arch Dermatol, 137 (2001), pp. 1503-1506
[24]
V. Bakels, J.W. van Oostveen, S.C. van der Putte, C.J. Meijer, R. Willemze.
Immunophenotyping and gene rearrangement analysis provide additional criteria to differentiate between cutaneous T-cell lymphomas and pseudo-T-cell lymphomas.
Am J Pathol, 150 (1997), pp. 1941-1949
[25]
L.J. Medeiros, L.J. Picker, E.A. Abel, C.H. Hu, R.T. Hoppe, R.A. Warnke, et al.
Cutaneous lymphoid hyperplasia. Immunologic characteristics and assessment of criteria recently proposed as diagnostic of malignant lymphoma.
J Am Acad Dermatol, 21 (1989), pp. 929-942
[26]
U. Rijlaarsdam, V. Bakels, J.W. van Oostveen, R.J. Gordijn, M.L. Geerts, C.J. Meijer, et al.
Demonstration of clonal immunoglobulin gene rearrangements in cutaneous B-cell lymphomas and pseudo-B-cell lymphomas: Differential diagnostic and pathogenetic aspects.
J Invest Dermatol, 99 (1992), pp. 749-754
[27]
C.M. Magro, A.N. Crowson, A.J. Kovatich, F. Burns.
Lupus profundus, indeterminate lymphocytic lobular panniculitis and subcutaneous T-cell lymphoma: a spectrum of subcuticular T-cell lymphoid dyscrasia.
J Cutan Pathol, 28 (2001), pp. 235-247
[28]
R. Willemze, P.M. Jansen, L. Cerroni, E. Berti, M. Santucci, C. Assaf, et al.
Subcutaneous panniculitis-like T-cell lymphoma: definition, classification, and prognostic factors: An EORTC Cutaneous Lymphoma Group Study of 83 cases.
[29]
A. Marchesi, P.C. Parodi, M. Brioschi, M. Marchesi, B. Bruni, M.G. Cangi, et al.
Tattoo ink-related cutaneous pseudolymphoma: A rare but significant complication. Case report and review of the literature.
Aesthetic Plast Surg, 38 (2014), pp. 471-478
[30]
C. Gardair Bouchy, R. Kerdraon, N. Kluger, P. Armingaud, A. Wakosa, E. Estève.
Cutaneous lymphoid hyperplasia (pseudolymphoma) on the red dye of a tattoo.
Ann Pathol, 33 (2013), pp. 273-277
[31]
L. Cerroni, R.G. Borroni, C. Massone, A. Chott, H. Kerl.
Cutaneous B-cell pseudolymphoma at the site of vaccination.
Am J Dermatopathol, 29 (2007), pp. 538-542
[32]
N.G. Stavrianeas, A.C. Katoulis, A. Kanelleas, E. Hatziolou, S. Georgala.
Papulonodular lichenoid and pseudolymphomatous reaction at the injection site of hepatitis B virus vaccination.
Dermatology, 205 (2002), pp. 166-168
[33]
D.A. Porto, N.I. Comfere, L.M. Myers, J.J. Abbott.
Pseudolymphomatous reaction to varicella zoster virus vaccination: Role of viral in situ hybridization.
J Cutan Pathol, 37 (2010), pp. 1098-1102
[34]
J. Smolle, L. Cerroni, H. Kerl.
Multiple pseudolymphomas caused by Hirudo medicinalis therapy.
J Am Acad Dermatol, 43 (2000), pp. 867-869
[35]
J.U. Rijlaarsdam, D.P. Bruynzeel, W. Vos, C.J. Meijer, R. Willemze.
Immunohistochemical studies of lymphadenosis benigna cutis occurring in a tattoo.
Am J Dermatopathol, 10 (1988), pp. 518-523
[36]
T. Ploysangam, D.L. Breneman, D.F. Mutasim.
Cutaneous pseudolymphomas.
J Am Acad Dermatol, 38 (1998), pp. 877-895
[37]
A.A. Alhumidi.
Skin pseudolymphoma caused by cutaneous leismaniasia.
Saudi Med J, 34 (2013), pp. 537-538
[38]
C. Colli, B. Leinweber, R. Müllegger, A. Chott, H. Kerl, L. Cerroni.
Borrelia burgdorferi-associated lymphocytoma cutis: Clinicopathologic, immunophenotypic, and molecular study of 106 cases.
J Cutan Pathol, 31 (2004), pp. 232-240
[39]
M. Hasan, M. Shahid, M. Varshney, A. Mubeen, K. Gaur.
Idiopathic lymphocytoma cutis: A diagnostic dilemma.
BMJ Case Rep, 2011 (2011),
[40]
A. Moniuszko, P. Czupryna, S. Pancewicz, M. Kondrusik, P. Penza, J. Zajkowska.
Borrelial lymphocytoma--a case report of a pregnant woman.
Ticks Tick Borne Dis, 3 (2012), pp. 257-258
[41]
I. Moulonguet, M. Ghnassia, T. Molina, S. Fraitag.
Miliarial-type perifollicular B-cell pseudolymphoma (lymphocytoma cutis): A misleading eruption in two women.
J Cutan Pathol, 39 (2012), pp. 1016-1021
[42]
M. Battistella.
Cutaneous lymphoma at the dermatology day conference, Paris 2010.
Ann Dermatol Venereol, 138 (2011), pp. H1-H11
[43]
B. Engin, A. Songür, Z. Kutlubay, S. Serdaroğlu.
Lymphocytic infiltrations of face.
Clin Dermatol, 32 (2014), pp. 101-108
[44]
R.R. Mullegger.
Dermatological manifestations of Lyme borreliosis.
Eur J Dermatol, 14 (2004), pp. 296-309
[45]
S.I. Tee, M. Martínez-Escanamé, D. Zuriel, I. Fried, I. Wolf, C. Massone, et al.
Acrodermatitis chronica atrophicans with pseudolymphomatous infiltrates.
Am J Dermatopathol, 35 (2013), pp. 338-342
[46]
A. Kakizaki, T. Fujimura, I. Numata, A. Hashimoto, S. Aiba.
Pseudolymphomatous folliculitis on the nose.
Case Rep Dermatol, 4 (2012), pp. 27-30
[47]
R.M. Gutte.
Pseudolymphomatous folliculitis: A distinctive cutaneous lymphoid hyperplasia.
Indian J Dermatol, 58 (2013), pp. 278-280
[48]
M. Sexton.
Occult herpesvirus folliculitis clinically simulating pseudolymphoma.
Am J Dermatopathol, 13 (1991), pp. 234-240
[49]
E. Arai, H. Okubo, T. Tsuchida, K. Kitamura, I. Katayama.
Pseudolymphomatous folliculitis: A clinicopathologic study of 15 cases of cutaneous pseudolymphoma with follicular invasion.
Am J Surg Pathol, 23 (1999), pp. 1313-1319
[50]
J.L. Dargent, J. Debois, U. Sass, A. Theunis, J. André, T. Simonart.
Unusual T cell pseudolymphoma with features of so-called pseudolymphomatous folliculitis.
Dermatology, 204 (2002), pp. 159-161
[51]
B. Naciri Bennani, H. Cheikhrouhou, J. Mazet, P. Vaillant, P. Trechot, J.F. Cuny, et al.
Pseudolymphome cutané et pneumopathie interstitielle secondaires à l’association pindolol-allopurinol.
Ann Dermatol Venereol, 137 (2010), pp. A229-A230
[52]
S. Imafuku, K. Ito, J. Nakayama.
Cutaneous pseudolymphoma induced by adalimumab and reproduced by infliximab in a patient with arthropathic psoriasis.
Br J Dermatol, 166 (2012), pp. 675-678
[53]
S. Fukamachi, K. Sugita, M. Nakamura, Y. Tokura.
Cutaneous pseudolymphoma due to benidipine hydrochloride with massive infiltration of eosinophils.
J Dermatol, 38 (2011), pp. 935-937
[54]
S. Guis, J.M. Schiano de Colella, N. Bonnet, L. Andrac-Meyer, N. Balandraud, J.P. Mattei, et al.
Cutaneous pseudolymphoma associated with a TNF-alpha inhibitor treatment: Etanercept.
Eur J Dermatol, 18 (2008), pp. 474-476
[55]
N.G. Stavrianeas, A.C. Katoulis, E. Bozi, E. Toumbis-Ioannou, A.I. Kanelleas, M. Makris, et al.
Cutaneous pseudolymphoma following administration of lornoxicam.
Acta Derm Venereol, 87 (2007), pp. 453-455
[56]
J.P. Welsh, C. Ko, W.T. Hsu.
Lymphomatoid drug reaction secondary to methylphenidate hydrochloride.
Cutis, 81 (2008), pp. 61-64
[57]
K.H. Kitagawa, M. Grassi.
Zoledronic acid-induced cutaneous B-cell pseudolymphoma.
J Am Acad Dermatol, 65 (2011), pp. 1238-1240
[58]
J.L. Macisaac, C.E. Ward, M. Pratt.
Cutaneous T-cell lymphoma-like drug eruption in an HIV-positive patient taking vancomycin and rifampin.
J Cutan Med Surg, 17 (2013), pp. 433-436
[59]
S.T. Kim, J.W. Baek, T.K. Kim, J.W. Lee, H.J. Eoh, K.S. Suh, et al.
A case of pseudolymphoma syndrome induced by vancomycin.
Korean J Dermatol, 47 (2009), pp. 71-74
[60]
C. Foley, N. Leonard, B. Wynne.
Cutaneous pseudolymphoma: A rare side effect of cyclosporine.
J Am Acad Dermatol, 72 (2015), pp. e85-e86
[61]
R. Filotico, V. Mastrandrea.
Cutaneous targets in drug-induced reactions.
G Ital Dermatol Venereol, 149 (2014), pp. 227-235
[62]
J.L. Schmutz, P. Trechot.
Cutaneous pseudolymphoma with two types of anti-TNFα: A class effect?.
Ann Dermatol Venereol, 139 (2012), pp. 695-696
[63]
I. Ahronowitz, L. Fox.
Severe drug-induced dermatoses.
Semin Cutan Med Surg, 33 (2014), pp. 49-58
[64]
T.T. Lan, N.A. Brown, A.C. Hristov.
Controversies and considerations in the diagnosis of primary cutaneous CD4+ small/medium T-cell lymphoma.
Arch Pathol Lab Med, 138 (2014), pp. 1307-1318
[65]
C.M. Magro, A.N. Crowson.
Reactive lymphomatoid tissue reactions mimicking cutaneous T and B cell lymphoma.
The cutaneous lymphoid proliferations: A comprehensive textbook of lymphocytic infiltrates of the skin, pp. 63-89
[66]
M.Y. Hsu, G.F. Murphy.
Cutaneous lymphomas and leukemias.
Lever's histopathology of the skin, 10th ed, pp. 911-968
[67]
G. Strutton.
Cutaneous Infiltrates–lymphomatous and leukemic.
Skin pathology, 3th ed, pp. 971-1005
[68]
U. Gül, A. Kiliç, A. Dursun.
Carbamazepine-induced pseudo mycosis fungoides.
Ann Pharmacother, 37 (2003), pp. 1441-1443
[69]
O.P. Sangueza, D.E. Cohen, A. Calciano, M. Lees, M.J. Stiller.
Mycosis fungoides induced by phenytoin.
Eur J Dermatol, 3 (1993), pp. 474-477
[70]
C.M. Magro, A.N. Crowson, T.J. Harrist.
Atypical lymphoid infiltrates arising in cutaneous lesions of connective tissue disease.
Am J Dermatopathol, 19 (1997), pp. 446-455
[71]
V. Brazzelli, C. Vasallo, M. Ardigo, R. Rosso, G. Borroni.
Unusual histologic presentation of morphea.
Am J Dermatopathol, 22 (2000), pp. 359
[72]
P.P. Lessa, J.C. Jorge, F.R. Ferreira, M.L. Lira, S.H. Mandelbaum.
Acral pseudolymphomatous angiokeratoma: Case report and literature review.
An Bras Dermatol, 88 (2013), pp. 39-43
[73]
S. Kaddu, L. Cerroni, A. Pilatti, H.P. Soyer, H. Kerl.
Acral pseudolymphomatous angiokeratoma. A variant of the cutaneous pseudolymphomas.
Am J Dermatopathol, 16 (1994), pp. 130-133
[74]
T. Murakami, M. Ohtsuki, H. Nakagawa.
Acral pseudolymphomatous angiokeratoma of children: A pseudolymphoma rather than an angiokeratoma.
Br J Dermatol, 145 (2001), pp. 512-514
[75]
M.W. Lee, J.H. Choi, K.J. Sung, K.C. Moon, J.K. Koh.
Acral pseudolymphomatous angiokeratoma of children (APACHE).
Pediatr Dermatol, 20 (2003), pp. 457-458
[76]
J.F. Dayrit, W.L. Wang, S.G. Goh, P.K. Ramdial, A.J. Lazar, E. Calonje.
T-cell-rich angiomatoid polypoid pseudolymphoma of the skin: a clinicopathologic study of 17 cases and a proposed nomenclature.
J Cutan Pathol, 38 (2011), pp. 475-482
[77]
V. Sandhya, A. Jayaraman, C. Srinivas.
T-cell rich angiomatoid polypoid pseudolymphoma: a novel cutaneous pseudolymphoma.
Indian J Dermatol, 59 (2014), pp. 361-363
[78]
S. González, M. Molgó.
Primary cutaneous angioplasmocellular hyperplasia.
Am J Dermatopathol, 17 (1995), pp. 307-311
[79]
I. Moulonguet, A. Gantzer, E. Bourdon-Lanoy, S. Fraitag.
A pretibial plaque in a five and a half year-old girl.
Am J Dermatopathol, 34 (2012), pp. 113-116
[80]
I. Moulonguet, S. Hadj-Rabia, N. Gounod, C. Bodemer, S. Fraitag.
Tibial lymphoplasmacytic plaque: A new, illustrative case of a recently and poorly recognized benign lesion in children.
Dermatology, 225 (2012), pp. 27-30
[81]
A.C. Gilliam, R.H. Mullen, G. Oviedo, R. Bhatnagar, M.K. Smith, D.F. Patton, et al.
Isolated benign primary cutaneous plasmacytosis in children: Two illustrative cases.
Arch Dermatol, 145 (2009), pp. 299-302
[82]
I. Fried, T. Wiesner, L. Cerroni.
Pretibial lymphoplasmacytic plaque in children.
Arch Dermatol, 146 (2010), pp. 95-96
[83]
E. Hodak, M. David, A. Rothem, M. Bialowance, M. Sandbank.
Nodular secondary syphilis mimicking cutaneous lymphoreticular process.
J Am Acad Dermatol, 17 (1987), pp. 914-917
[84]
M.E. McComb, G.H. Telang, E.C. Vonderheid.
Secondary syphilis presenting as pseudolymphoma of the skin.
J Am Acad Dermatol, 49 (2003), pp. S174-S176
[85]
N. Fernandez, A. Torres, A.B. Ackerman.
Pathologic findings in human scabies.
Arch Dermatol, 113 (1977), pp. 320-324
[86]
B.R. Smoller, T.A. Longacre, R.A. Warnke.
Ki-1 (CD30) expression in differentiation of lymphomatoid papulosis from arthropod bite reactions.
Mod Pathol, 5 (1992), pp. 492-496
[87]
F. Giannelli, P.K. Botcherby, B. Marimo, I.A. Magnus.
Cellular hypersensitivity to UV-A: A clue to the aetiology of actinic reticuloid?.
Lancet, 1 (1983), pp. 88-91
[88]
L. Lugović-Mihić, T. Duvancić, M. Situm, J. Mihić, I. Krolo.
Actinic reticuloid–photosensitivity or pseudolymphoma?–A review.
Coll Antropol, 35 (2011), pp. 325-329
[89]
A.V. Booth, S. Mengden, N.A. Soter, D. Cohen.
Chronic actinic dermatitis.
Dermatol Online J, 14 (2008), pp. 25
[90]
J. Toonstra, C.J. Henquet, H. van Weelden, S.C. van der Putte, W.A. van Vloten.
Actinic reticuloid. A clinical photobiologic, histopathologic, and follow-up study of 16 patients.
J Am Acad Dermatol, 21 (1989), pp. 205-214
[91]
V.S. Neild, J.L. Hawk, R.A. Eady, J.J. Cream.
Actinic reticuloid with Sézary cells.
Clin Exp Dermatol, 7 (1982), pp. 143-148
[92]
A.C. Chu, D. Robinson, J.L. Hawk, R. Meacham, M.F. Spittle, N.P. Smith.
Immunologic differentiation of the Sézary syndrome due to cutaneous T-cell lymphoma and chronic actinic dermatitis.
J Invest Dermatol, 86 (1986), pp. 134-137
[93]
R.S. Dawe, I.K. Crombie, J. Ferguson.
The natural history of chronic actinic dermatitis.
Arch Dermatol, 136 (2000), pp. 1215-1220
[94]
D.P. Arps, S. Chen, D.R. Fullen, A.C. Hristov.
Selected inflammatory imitators of mycosis fungoides: Histologic features and utility of ancillary studies.
Arch Pathol Lab Med, 138 (2014), pp. 1319-1327
[95]
L. Citarella, C. Massone, H. Kerl, L. Cerroni.
Lichen sclerosus with histopathologic features simulating early mycosis fungoides.
Am J Dermatopathol, 25 (2003), pp. 463-465
[96]
A. Lukowsky, J.M. Muche, W. Sterry, H. Audring.
Detection of expanded T cell clones in skin biopsy samples of patients with lichen sclerosus et atrophicus by T cell receptor-γ polymerase chain reaction assays.
J Invest Dermatol, 115 (2000), pp. 254-259
[97]
S.C. van der Putte, J. Toonstra, P.C. Felten, W.A. van Vloten.
Solitary nonepidermotropic T cell pseudolymphoma of the skin.
J Am Acad Dermatol, 14 (1986), pp. 444-453
[98]
J.U. Rijlaarsdam, R. Willemze.
Cutaneous pseudolymphomas: Classification and differential diagnosis.
Semin Dermatol, 13 (1994), pp. 187-196
[99]
I.A. Al-Hoqail, R.I. Crawford.
Benign lichenoid keratoses with histologic features of mycosis fungoides: Clinicopathologic description of a clinically significant histologic pattern.
J Cutan Pathol, 29 (2002), pp. 291-294
[100]
R.S. Glaun, B. Dutta, K.F. Helm.
A proposed new classification system for lichenoid keratosis.
J Am Acad Dermatol, 35 (1996), pp. 772-774
[101]
S. Kossard.
Unilesional mycosis fungoides or lymphomatoid keratosis?.
Arch Dermatol, 133 (1997), pp. 1312-1313
[102]
J.G. Orbaneja, L.I. Diez, J.L. Lozano, L.C. Salazar.
Lymphomatoid contact dermatitis: A syndrome produced by epicutaneous hypersensitivity with clinical features and a histopathologic picture similar to that of mycosis fungoides.
Contact Dermatitis, 2 (1976), pp. 139-143
[103]
T.J. Knackstedt, K.A. Zug.
T cell lymphomatoid contact dermatitis: A challenging case and review of the literature.
Contact Dermatitis, 72 (2015), pp. 65-74
[104]
A.B. Ackerman, T.S. Breza, L. Capland.
Spongiotic simulants of mycosis fungoides.
Arch Dermatol, 109 (1974), pp. 218-220
[105]
V. Marlière, M. Beylot-Barry, M.S. Doutre, M. Furioli, B. Vergier, P. Dubus, et al.
Lymphomatoid contact dermatitis caused by isopropyl-diphenylenediamine: Two cases.
J Allergy Clin Immunol, 102 (1998), pp. 152-153
[106]
L.M. Wall.
Lymphomatoid contact dermatitis due to ethylenediamine dihydrochloride.
Contact Dermatitis, 8 (1982), pp. 51-54
[107]
D. Schena, P. Rosina, C. Chieregato, R. Colombari.
Lymphomatoid-like contact dermatitis from cobalt naphthenate.
Contact Dermatitis, 33 (1995), pp. 197-198
[108]
P. Danese, M.G. Bertazzoni.
Lymphomatoid contact dermatitis due to nickel.
Contact Dermatitis, 33 (1995), pp. 268-269
[109]
P. Calzavara-Pinton, R. Capezzera, C. Zane, A. Brezzi, G. Pasolini, A. Ubiali, et al.
Lymphomatoid allergic contact dermatitis from para-phenylenediamine.
Contact Dermatitis, 47 (2002), pp. 173-174
[110]
C. Fleming, D. Burden, M. Fallowfield, R. Lever.
Lymphomatoid contact reaction to gold earrings.
Contact Dermatitis, 37 (1997), pp. 298-299
[111]
Y.M. Park, H. Kang, H.O. Kim, B.K. Cho.
Lymphomatoid eosinophilic reaction to gold earrings.
Contact Dermatitis, 40 (1999), pp. 216-217
[112]
H. Komatsu, S. Aiba, S. Mori, K. Suzuki, H. Tagami.
Lymphocytoma cutis involving the lower lip.
Contact Dermatitis, 36 (1997), pp. 167-169
[113]
K. Paley, L.J. Geskin, M.J. Zirwas.
Cutaneous B-cell pseudolymphoma due to paraphenylenediamine.
Am J Dermatopathol, 28 (2006), pp. 438-441
[114]
E.A. Millican, J.A. Conley, D. Sheinbein.
Cutaneous lymphoid hyperplasia related to squaric acid dibutyl ester.
J Am Acad Dermatol, 65 (2011), pp. 230-232
[115]
G. Mendese, A. Beckford, M.F. Demierre.
Lymphomatoid contact dermatitis to baby wipes.
Arch Dermatol, 146 (2010), pp. 934-935
[116]
T. Fernández-Morano, M. Aguilar-Bernier, J. del Boz, R. Fúnez-Liébana.
Cutaneous CD8+ T-cell infiltrates associated with human immunodeficiency virus.
Actas Dermosifiliogr, 103 (2012), pp. 638-640
[117]
N.E. Schartz, A. de La Blanchardiére, S. Alaoui, P. Morel, F. Sigaux, M.D. Vignon-Pennamen, et al.
Regression of CD8+ pseudolymphoma after HIV antiviral triple therapy.
J Am Acad Dermatol, 49 (2003), pp. 139-141
[118]
S. Ingen-Housz-Oro, E. Sbidian, N. Ortonne, D. Penso-Assathiany, V. Chambrin, M. Bagot, et al.
HIV-related CD8+ cutaneous pseudolymphoma: Efficacy of methotrexate.
Dermatology, 226 (2013), pp. 15-18
[119]
R.G. Egbers, T.T. Do, L. Su, Y.R. Helfrich, J.E. Gudjonsson.
Rapid clinical change in lesions of atypical cutaneous lymphoproliferative disorder in an HIV patient: A case report and review of the literature.
Dermatol Online J, 17 (2011), pp. 4
[120]
S. Pirovano, L. Signorini, F. Facchetti, A. Santoro, A. Albertin, L. Imberti.
Polyclonal T-cell expansions in a HIV(+) patient with atypical cutaneous lymphoproliferative disorder, large granular lymphocyte proliferation and SENV infection.
Haematologica, 86 (2001), pp. 881-882
[121]
S. Friedler, M.T. Parisi, E. Waldo, R. Wieczorek, G. Sidhu, M.J. Rico.
Atypical cutaneous lymphoproliferative disorder in patients with HIV infection.
Int J Dermatol, 38 (1999), pp. 111-118
[122]
M.P. Pulitzer, K.A. Nolan, R.G. Oshman, R.G. Phelps.
CD30+ lymphomatoid drug reactions.
Am J Dermatopathol, 35 (2013), pp. 343-350
[123]
F. Gallardo, C. Barranco, A. Toll, R.M. Pujol.
CD30 antigen expression in cutaneous inflammatory infiltrates of scabies: A dynamic immunophenotypic pattern that should be distinguished from lymphomatoid papulosis.
J Cutan Pathol, 29 (2002), pp. 368-373
[124]
D.L. Nathan, D.V. Belsito.
Carbamazepine-induced pseudolymphoma with CD-30 positive cells.
J Am Acad Dermatol, 38 (1998), pp. 806-809
[125]
C. Rose, P. Starostik, E.B. Bröcker.
Infection with parapoxvirus induces CD30-positive cutaneous infiltrates in humans.
J Cutan Pathol, 26 (1999), pp. 520-522
[126]
K.J. Kim, M.W. Lee, J.H. Choi, K.J. Sung, K.C. Moon, J.K. Koh.
CD30-positive T-cell-rich pseudolymphoma induced by gold acupuncture.
Br J Dermatol, 146 (2002), pp. 882-884
[127]
D. Moreno-Ramírez, A. García-Escudero, J.J. Ríos-Martín, A. Herrera-Saval, F. Camacho.
Cutaneous pseudolymphoma in association with molluscum contagiosum in an elderly patient.
J Cutan Pathol, 30 (2003), pp. 473-475
[128]
A. Deroux, G. Fiandrino, N. Pinel, C. Cluzel, I. Challende, F. Sarrot-Raynaud, et al.
Face and limb rash in a 58-year-old woman.
Rev Med Interne, 35 (2014), pp. 686-689
[129]
S. Ingen-Housz-Oro, N. Ortonne, M. Elhai, Y. Allanore, P. Aucouturier, O. Chosidow.
IgG4-related skin disease successfully treated by thalidomide: A report of 2 cases with emphasis on pathological aspects.
JAMA Dermatol, 149 (2013), pp. 742-747
[130]
T. Hattori, T. Miyanaga, O. Tago, M. Udagawa, Y. Kamiyama, Y. Nagai, et al.
Isolated cutaneous manifestation of IgG4-related disease.
J Clin Pathol, 65 (2012), pp. 815-818
[131]
Y. Iwata, Y. Mizoguchi, M. Takahashi, B. Tanaka, M. Kuroda, A. Yagami, et al.
Case of immunoglobulin G4-related skin disease: Possible immunoglobulin G4-related skin disease cases in cutaneous pseudolymphoma only by immunohistochemical analysis.
J Dermatol, 40 (2013), pp. 998-1003
[132]
H. Eddou, T. Le Guyadec, A. Cremades, P. Saint Blancard, J.V. Malfuson, J. Konopacki, et al.
Cutaneous pseudolymphoma as an alternative presentation of IgG4 related disease.
Ann Biol Clin, 71 (2013), pp. 333-337
[133]
G. Annessi, M. Paradisi, C. Angelo, M. Perez, P. Puddu, G. Girolomoni.
Annular lichenoid dermatitis of youth.
J Am Acad Dermatol, 49 (2003), pp. 1029-1036
[134]
A.M. Cesinaro, P. Sighinolfi, A. Greco, L. Garagnani, A. Conti, F. Fantini.
Annular lichenoid dermatitis of youth…and beyond: A series of 6 cases.
Am J Dermatopathol, 31 (2009), pp. 263-267
[135]
V. Kazlouskaya, J.D. Trager, J.M. Junkins-Hopkins.
Annular lichenoid dermatitis of youth: A separate entity or on the spectrum of mycosis fungoides? Case report and review of the literature.
J Cutan Pathol, 42 (2015), pp. 420-426
[136]
E.R. Quay, J.P. Mundi, J.A. Latkowski, H. Kamino, J.M. Lewin.
A variant of palpable migratory arciform erythema.
J Drugs Dermatol, 13 (2014), pp. 1288-1289
[137]
D. Abeck, M.W. Ollert, F. Eckert, R.M. Szeimies, M. Tiemann, O. Braun-Falco, et al.
Palpable migratory arciform erythema. Clinical morphology, histopathology, immunohistochemistry, and response to treatment.
Arch Dermatol, 133 (1997), pp. 763-766
[138]
T. Petit, B. Cribier, M. Bagot, J. Wechsler.
Inflammatory vitiligo-like macules that simulate hypopigmented mycosis fungoides.
Eur J Dermatol, 13 (2003), pp. 410-412
[139]
H.H. Wolff, V. Wendt, M. Winzer.
Cutaneous pseudolymphoma at the site of prior herpes zoster eruption.
Arch Dermatol Res, 279 (1987), pp. S52-S54
[140]
H.L. Winfield, B.R. Smoller.
Other lymphoproliferative and myeloproliferative diseases.
Dermatology <en> 3rd ed </en>, pp. 2037-2038
[141]
O. Dereure, E. Levi, M.E. Kadin.
T-cell clonality in pityriasis lichenoides et varioliformis acuta: A heteroduplex analysis of 20 cases.
Arch Dermatol, 136 (2000), pp. 1483-1486
[142]
M.E. Kadin.
T-cell clonality in pityriasis lichenoides: Evidence for a premalignant or reactive immune disorder?.
Arch Dermatol, 138 (2002), pp. 1089-1090
[143]
C. Magro, A.N. Crowson, A. Kovatich, F. Burns.
Pityriasis lichenoides: A clonal T-cell lymphoproliferative disorder.
Hum Pathol, 33 (2002), pp. 788-795
[144]
R. Rivera, P. Ortiz, J.L. Rodriguez-Peralto, F. Vanaclocha, L. Iglesias.
Febrile ulceronecrotic pityriasis lichenoides et varioliformis acuta with atypical cells.
Int J Dermatol, 42 (2003), pp. 26-28

Please cite this article as: Romero-Pérez D, Blanes Martínez M, Encabo-Durán B. Pseudolinfomas cutáneos. Actas Dermosifiliogr. 2016;107:640–651.

Copyright © 2016. Elsevier España, S.L.U. and AEDV
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