Anaplastic large cell lymphoma involving the breast: a clinicopathologic study of 6 cases and review of the literature

[Two cases of lymphoma in an implant capsule: A difficult diagnosis, an unknown pathology]

The anaplastic large cell lymphoma (ALCL) is a rare disease, its incidence in the United States is one case per 500,000 women and three for 100 million patients for breast single location. Forty-six cases have been reported in the literature. They can grow on any type of implant: expander prosthesis silicone and saline, smooth or textured envelope. Currently, the consensus process includes capsulectomy, removal of the implant, chemotherapy and radiotherapy. However, some authors classify under indolent disease, but we believe that some cases may escape any therapeutic and become very aggressive forms. It is therefore important to make an early diagnosis and start treatment urgently. Severity and suspicion of iatrogenic nature of ALCL have an obligation to inform future with implants.

Anaplastic large cell lymphoma occurring in association with breast implants: review of pathologic and immunohistochemical features in 103 cases

Primary lymphomas of the breast are uncommon, and mostly of B-cell type. In the late 1990s, reports began to appear,primarily in the Pathology literature, of an apparently new category of breast lymphoma of T-cell type, having a particular association with silicone breast implants. This condition came to be recognized as implant-associated anaplastic large cell lymphoma.Appearing initially as individual case reports, the pathologic features were somewhat variable and the diagnosis was difficult. This review describes the pathologic and immunohistochemical features of implant-associated anaplastic large cell lymphoma of the breast drawn from a series of 103 cases. Recommendations are given for the management of removed implants, for the approach to differential diagnosis and the choice of initial immunohistochemical panels.

Breast implant-associated ALCL: a unique entity in the spectrum of CD30+ lymphoproliferative disorders

CD30(+) lymphoproliferative disorders represent a spectrum of diseases with distinct clinical phenotypes ranging from reactive conditions to aggressive systemic anaplastic lymphoma kinase (ALK)(-) anaplastic large cell lymphoma (ALCL). In January 2011, the U.S. Food and Drug Administration (FDA) announced a possible association between breast implants and ALCL, which was likened to systemic ALCL and treated accordingly. We analyzed existing data to see if implant-associated ALCL (iALCL) may represent a distinct entity, different from aggressive ALCL. We conducted a systematic review of publications regarding ALCL and breast implantation for 1990-2012 and contacted corresponding authors to obtain long-term follow-up where available. We identified 44 unique cases of iALCL, the majority of which were associated with seroma, had an ALK(-) phenotype (97%), and had a good prognosis, different from the expected 40% 5-year survival rate of patients with ALK(-) nodal ALCL (one case remitted spontaneously following implant removal; only two deaths have been reported to the FDA or in the scientific literature since 1990). The majority of these patients received cyclophosphamide, doxorubicin, vincristine, and prednisolone with or without radiation, but radiation alone also resulted in complete clinical responses. It appears that iALCL demonstrates a strong association with breast implants, a waxing and waning course, and an overall good prognosis, with morphology, cytokine profile, and biological behavior similar to those of primary cutaneous ALCL. Taken together, these data are suggestive that iALCL may start as a reactive process with the potential to progress and acquire an aggressive phenotype typical of its systemic counterpart. A larger analysis and prospective evaluation and follow-up of iALCL patients are necessary to definitively resolve the issue of the natural course of the disease and best therapeutic approaches for these patients.

Extranodal NK/T-cell lymphoma, nasal type, arising in association with saline breast implant: expanding the spectrum of breast implant-associated lymphomas

Extranodal NK/T-cell lymphoma, nasal type, is a rare type of non-Hodgkin lymphoma that is most common in Asia and is driven by Epstein-Barr virus infection. These tumors usually arise in the nasal region; in rare cases they can involve extranasal sites, most often skin, with involvement of the breast being rare. Lymphomas arising adjacent to breast implants are rare, and most cases reported to date have been anaplastic lymphoma kinase (ALK)-negative anaplastic large cell lymphoma. Here we report a 41-year-old white woman with bilateral saline breast implants placed for cosmetic reasons who almost 9 years later developed painful swelling at the right-breast implant site. Excisional biopsy revealed lymphoma composed of monomorphic large cells associated with necrosis and angioinvasion. Immunohistochemical analysis showed an aberrant, NK/T-cell immunophenotype with the lymphoma cells being CD2+, CD3+, CD56+, partial CD30+, granzyme B, TIA-1+, CD4+, CD5+, CD7+, and CD8+. In situ hybridization analysis showed Epstein-Barr virus-encoded RNA within the neoplastic cells. Polymerase chain reaction analysis showed monoclonal T-cell receptor-γ chain gene rearrangement. These findings support the diagnosis of extranodal NK/T-cell lymphoma, nasal type. On the basis of our review of the literature, this case is unique. In addition, we believe this case is important to report, because it expands the spectrum of T-cell lymphomas that can be associated with breast implants and may be a forerunner of additional cases to follow.

Peripheral T-cell and NK-cell lymphomas in the WHO classification: pearls and pitfalls

Peripheral T-cell and NK-cell lymphomas are functionally, pathologically, and clinically complex. Most nodal T-cell lymphomas belong to the adaptive immune system, whereas many extranodal T-cell and NK-cell lymphomas are derived from innate immune cells. The pathological manifestations often reflect the functional attributes of the neoplastic cells. Several forms of peripheral T-cell lymphoma are derived from T-follicular helper cells (T(FH)), and include angioimmunoblastic T-cell lymphoma, the follicular variant of peripheral T-cell lymphoma, not otherwise specified, and primary cutaneous small/medium CD4-positive T-cell lymphoma. T(FH)-derived neoplasms are often associated with atypical and clonal B-cell proliferations, which take a number of forms, sometimes mimicking classical Hodgkin's lymphoma, and sometimes showing marked plasmacytic differentiation. Most extranodal T-cell lymphomas are cytotoxic and often arise in mucosal-associated sites. They can be derived from either αβ or γδ cytotoxic T cells, and include subcutaneous panniculitis-like T-cell lymphoma, and enteropathy-associated T-cell lymphomas, both Type I and Type II. Type I enteropathy-associated lymphomas occur in association with celiac disease, whereas Type II lymphomas are more often sporadic. For some T-cell lymphomas, such as hepatosplenic T-cell lymphoma, immunophenotypic heterogeneity is seen within a single disease entity. New data are emerging on the molecular pathogenesis of T-cell and NK-cell lymphoma, but most tumor types remain poorly characterized.

Metastatic Melanoma Presenting as an Isolated Breast Tumor: A Study of 20 Cases With Emphasis on Several Primary Mimickers

Context.—The mammary gland can be a site of metastasis in patients with malignant melanoma, which is easily recognized microscopically if clinical information is available. Nonetheless, metastatic melanoma presenting as an isolated mammary tumor can be more challenging to diagnose because it can simulate a primary breast carcinoma clinically and morphologically.

Objective.—To review metastatic melanoma to the breast, presenting as primary breast carcinomas clinically and morphologically.

Design.—The authors report 20 cases of metastatic melanoma clinically presenting as breast tumors. Cases with widespread metastatic presentation were excluded.

Results.—Epithelioid and spindle cell tumors predominated, suggesting mammary ductal, papillary, or sarcomatoid carcinoma. Most cases (16 of 20) were submitted for consultation or second opinion owing to their unusual presentation in the breast, or to perform predictive/prognostic immunohistochemical assays. Seven cases had a remarkable phenotypic spectrum expanding the differential diagnosis to large cell lymphoma, leiomyosarcoma, medullary carcinoma, malignant schwannoma, and liposarcoma. Tumor cells were negative for cytokeratin stains and positive for S100 protein, HMB-45, and Melan-A. Negative staining was also observed for epithelial membrane antigen, CD45, desmin, estrogen and progesterone receptors, and human epidermal growth factor receptor 2.

Conclusions.—Metastatic melanoma may simulate a broad spectrum of primary breast malignancies. Although the application of a simple panel of antibodies assists in rendering the correct interpretation, lesions presenting as isolated breast tumors may introduce a significant diagnostic difficulty, especially when there is inadequate patient history and/or limited biopsy material. Further challenges are introduced by the extraordinary phenotypic plasticity of metastatic melanoma. Awareness of this pattern variance is essential to avoid inappropriate treatment, especially in cases simulating a “triple negative,” poorly differentiated carcinoma of the breast.

Mucosal CD30-positive T-cell lymphoproliferations of the head and neck show a clinicopathologic spectrum similar to cutaneous CD30-positive T-cell lymphoproliferative disorders

CD30-positive T-cell lymphoproliferative disorders are classified as cutaneous (primary cutaneous anaplastic large cell lymphoma and lymphomatoid papulosis) or systemic. As extent of disease dictates prognosis and treatment, patients with skin involvement need clinical staging to determine whether systemic lymphoma also is present. Similar processes may involve mucosal sites of the head and neck, constituting a spectrum that includes both neoplasms and reactive conditions (eg, traumatic ulcerative granuloma with stromal eosinophilia). However, no standard classification exists for mucosal CD30-positive T-cell lymphoproliferations. To improve our understanding of these processes, we identified 15 such patients and examined clinical presentation, treatment and outcome, morphology, phenotype using immunohistochemistry, and genetics using gene rearrangement studies and fluorescence in situ hybridization. The 15 patients (11 M, 4 F; mean age, 57 years) had disease involving the oral cavity/lip/tongue (9), orbit/conjunctiva (3) or nasal cavity/sinuses (3). Of 14 patients with staging data, 7 had mucosal disease only; 2 had mucocutaneous disease; and 5 had systemic anaplastic large cell lymphoma. Patients with mucosal or mucocutaneous disease only had a favorable prognosis and none developed systemic spread (follow-up, 4-93 months). Three of five patients with systemic disease died of lymphoma after 1-48 months. Morphologic and phenotypic features were similar regardless of extent of disease. One anaplastic lymphoma kinase-positive case was associated with systemic disease. Two cases had rearrangements of the DUSP22-IRF4 locus on chromosome 6p25.3, seen most frequently in primary cutaneous anaplastic large cell lymphoma. Our findings suggest mucosal CD30-positive T-cell lymphoproliferations share features with cutaneous CD30-positive T-cell lymphoproliferative disorders, and require clinical staging for stratification into primary and secondary types. Primary cases have clinicopathologic features closer to primary cutaneous disease than to systemic anaplastic large cell lymphoma, including indolent clinical behavior. Understanding the spectrum of mucosal CD30-positive T-cell lymphoproliferations is important to avoid possible overtreatment resulting from a diagnosis of overt T-cell lymphoma.

Anaplastic large cell lymphoma associated with breast implants: a report of 13 cases

We report 13 cases of anaplastic large cell lymphoma (ALCL) associated with breast implants. Patient age ranged from 39 to 68 years, and the interval from implant to ALCL was 4 to 29 years. All tumors were composed of large, pleomorphic cells that were CD30 and ALK1, and all 7 cases assessed had monoclonal T-cell receptor γ-chain rearrangements. Two patient subgroups were identified. Ten patients presented with effusion surrounded by fibrous capsule without a grossly identifiable tumor mass. Nine patients had stage I and 1 had stage II disease. Eight patients underwent implant removal and capsulectomy. Four patients received chemotherapy and 4 radiation therapy. All patients were alive without disease at last follow-up. A second subgroup of 3 patients had effusion and a distinct mass adjacent to the implant. One patient had stage I and 2 stage II disease. One patient had a 3-year history of lymphomatoid papulosis, and 1 patient had a 1-year history of CD30 T-cell lymphoma adjacent to the breast before the diagnosis of ALCL associated with breast implant. Two patients received chemotherapy and 1 radiation therapy. Two patients died 2 and 12 years after diagnosis, respectively. We conclude that the clinical behavior of ALCL associated with breast implants is heterogeneous. Patients who present with effusion without a distinct mass have an indolent disease course, similar to CD30 lymphoproliferative disorder of skin. In contrast, patients who present with a distinct mass may have advanced stage or possibly systemic disease and have a poorer prognosis.

Diagnosis and management of seroma following breast augmentation: an update

This article is an update to the decision and management algorithms for management of periprosthetic space infection or seroma following breast augmentation, originally published in "Decision and Management Algorithms to Address Patient and Food and Drug Administration Concerns Regarding Breast Augmentation and Implants," published in the October 2004 issue of this Journal. This update specifically addresses additional diagnosis and management alternatives for management of seroma in breast augmentation patients that may relate to lymphoproliferative disorders or anaplastic large cell lymphoma.

Anaplastic large cell lymphoma and breast implants: a systematic review

BACKGROUND

In recent years, there have been growing concerns about a possible association of non-Hodgkin's lymphoma--in particular, anaplastic large cell lymphoma (ALCL)--and breast implants. The purpose of this study was to identify and analyze all reported cases of non-Hodgkin's lymphoma occurring in patients with breast implants.

METHODS

The authors conducted a systematic literature review of reported cases of non-Hodgkin's lymphoma in patients with breast implants. Publications were identified with a search algorithm, forward searches, and expert nominations. After references were reviewed and assessed for inclusion or exclusion, case-based data were independently abstracted, reconciled, and adjudicated by multiple investigators. The data were then synthesized and analyzed.

RESULTS

Of 884 identified articles, only 83 were relevant to non-Hodgkin's lymphoma involving the breast, and 34 were included in our study. Thirty-six cases of non-Hodgkin's lymphoma in patients with implants were found, of which 29 (81 percent) were ALCLs. Although detailed clinical information was lacking in many cases, ALCL often involved the capsule and/or presented as an unexplained seroma or mass, was negative for anaplastic lymphoma kinase (ALK) expression, and had a relatively indolent clinical course when it developed adjacent to a breast implant.

CONCLUSIONS

A form of ALCL, which clinically behaves more like the less aggressive primary cutaneous form of ALK-negative ALCL rather than the more aggressive systemic form, may be associated with breast implants. Future research on the epidemiology and biology of this rare disease is clearly needed to better understand its nature.

Primary anaplastic large-cell lymphoma associated with breast implants

Primary T-cell anaplastic large-cell lymphoma (ALCL) of the breast is a rare entity, which has been reported in association with breast implants. In a retrospective analysis of the City of Hope pathology database, we uncovered nine such patients, eight of whom had breast implants proximal to primary ALCL. The diagnosis of ALCL in the implant capsule occurred at a median of 7 years (range 5-30) following implant surgery, and median patient age was 45.5 years (range 32-62). Malignancy was effusion-associated in two cases and tissue-associated in six. Seven patients were negative for anaplastic large-cell kinase (ALK) and one patient was positive. Treatment and follow-up data were available for four patients, all tissue-associated cases: two patients were lost to follow-up after failing to mobilize stem cells and two patients were in remission, 6 years and 7.5 years post-autologous transplant. These cases represent 24% of reported primary ALCL cases associated with breast implants. Our review of these cases and the literature suggest that (1) there is a strong skew in primary breast lymphomas associated with implant capsules toward T-cell, ALCL ALK-, and (2) the disease course for tissue-associated cases is not always indolent, with four patients requiring multiple treatment regimens.

ALK-1-negative anaplastic large cell lymphoma associated with breast implants: a new clinical entity

Concerns have been raised recently regarding the increasing number of reports of non-Hodgkin lymphoma (NHL) that developed in close proximity to silicone or saline breast implants. In particular, an increased risk of anaplastic large cell lymphoma (ALCL) in patients with breast prostheses has been proposed. We reviewed clinical and pathologic findings in 40 women who received a diagnosis of breast NHL arising in association with breast implants and of 27 patients who had a diagnosis of ALCL with breast involvement reported in the published literature. Among the 40 reported cases of prosthesis-associated breast lymphomas, 28 were anaplastic lymphoma kinase-1-negative (ALK-1(-)) ALCLs, whereas of 27 ALCLs in patients without implants found in the literature, only 10 were ALK-1(-). The finding of 28 cases of breast ALK-1(-) ALCL occurring in patients with implants compared with 10 cases in women without implants is in favor of an association between silicone breast prostheses and ALK-1(-) ALCL. Although the incidence of this type of lymphoma remains remarkably low given that breast prostheses have been widely used for decades, clinical and pathologic evidence for a causative role is becoming dramatically strong. The histologic, phenomenologic, and clinical similarities of the majority of implant-related ALK-1(-) ALCLs suggest a common mechanism, especially when compared with the counterpart of patients without implants in which very few and highly dishomogeneous cases of the same malignancy were detected. There is convincing evidence that primary implant-related ALK-1(-) ALCL represents a distinct clinicopathologic entity that has been inappropriately fitted into the category of systemic ALK-1(-) ALCL. Thus it should be recognized as a separate category and classified on its own.

Anaplastic large cell lymphoma: twenty-five years of discovery

CONTEXT

The year 2010 commemorates the 25th year since the seminal publication by Karl Lennert and Harald Stein and others in Kiel, West Germany, describing an unusual large cell lymphoma now known as anaplastic large cell lymphoma (ALCL). Investigators at many universities and hospitals worldwide have contributed to our current in-depth understanding of this unique peripheral T-cell lymphoma, which in its systemic form, principally occurs in children and young adults.

OBJECTIVE

To summarize our current knowledge of the clinical and pathologic features of systemic and primary cutaneous ALCL. Particular emphasis is given to the biology and pathogenesis of ALCL.

DATA SOURCES

Search of the medical literature (Ovid MEDLINE In-Process & Other Non-Indexed Citations and Ovid MEDLINE: 1950 to Present [National Library of Medicine]) and more than 20 years of diagnostic experience were used as the source of data for review.

CONCLUSIONS

Based on immunostaining for activation antigen CD30 and the presence of dysregulation of the anaplastic lymphoma kinase gene (2p23), the diagnosis of ALCL has become relatively straightforward for most patients. Major strides have been made during the last decade in our understanding of the complex pathogenesis of ALCL. Constitutive NPM-ALK signaling has been shown to drive oncogenesis via an intricate network of redundant and interacting pathways that regulate cell proliferation, cell fate, and cytoskeletal modeling. Nevertheless, pathomechanistic, therapeutic, and diagnostic challenges remain that should be resolved as we embark on the next generation of discovery.

Primary ALK-positive anaplastic large cell lymphoma of the breast: a case report and review of the literature

BACKGROUND

Non-Hodgkin lymphomas of the breast are uncommon, which represent less than 1% of all breast malignancies and predominantly are of B-cell origin.

OBSERVATION

In this report, a rare case of anaplastic lymphoma kinase (ALK)-positive anaplastic large T-cell lymphoma in the breast of a 16-year-old female without breast implant is described. The patient presented with a 3-month history of progressive right breast swelling and erythema. Clinically, inflammatory breast carcinoma was highly suspected. A tru-cut needle biopsy of the right breast demonstrated infiltration of tumoral cells around the breast lobules and soft tissue and also in angiolymphatic spaces. The immunohistochemical profile showed positivity for CD30 and ALK and confirmed the diagnosis of ALK-positive anaplastic large T-cell lymphoma of the breast.

CONCLUSION

Anaplastic large T-cell lymphoma of the breast is rare, and can clinically mimic inflammatory breast carcinoma in adolescence.