Best Practices Guideline for the Pathologic Diagnosis of Breast Implant-Associated Anaplastic Large-Cell Lymphoma

A case report of BIA-ALCL: Diagnostic, treatment, and mammary reconstruction

INTRODUCTION AND IMPORTANCE

BIA-ALCL is a non-Hodgkin lymphoma occurring primarily in women with textured breast implants, typically presenting as late seroma. Diagnosis involves ultrasound-guided fine-needle aspiration or core needle biopsy, followed by cytologic and immunohistochemical evaluation. Positive results show CD30 cell expression and lack ALK expression. Treatment includes removing breast implants and the periprosthetic capsule. If the lymphoma has spread, en bloc capsulectomy, immunotherapy, and chemotherapy are required. Reconstruction can be done with smooth implants or autologous tissue.

PRESENTATION OF CASE

We present here the case of a woman with a 12-year history of microtextured breast implants, without any cancer family background, who presented with peri-implant effusion in the left breast, which tested positive for BIA-ALCL at stage IA. The patient underwent breast implant removal with total capsulectomy and posterior successful autologous tissue reconstruction, demonstrating that outcomes can be satisfactory when properly treated.

CLINICAL DISCUSSION

Paying attention to signs in women with breast implants, beyond imaging tests, can aid in the early diagnosis of BIA-ALCL and ensure a not aggressive treatment. This approach allows the reconstruction with autologous tissue without the need of further implants.

CONCLUSION

BIA-ALCL is a rare disease, further studies about this lymphoma can help with early diagnosis and potential prevention.

Breast Implant-Associated Anaplastic Large Cell Lymphoma: Where Hematology and Plastic Surgery Meet

Breast implant insertion for breast reconstruction or breast augmentation is a developing procedure, with high demand worldwide-being the second most common plastic surgery in the US as of 2022. Breast-implant-associated anaplastic large cell lymphoma (BIA-ALCL) is T-cell, non-Hodgkin lymphoma, typically CD30+, ALK-, presenting with fluid collection in the inner aspect of the peri-implant capsule in most patients, with the onset exceeding 1-year after implantation. The mean time between breast implant insertion and BIA-ALCL development is 7-10 years. The main risk factor is the use of textured implants because of their susceptibility to triggering local inflammation and immune stimulation finally leading to lymphoproliferation. Genetic predispositions to hereditary breast cancer increase the risk of disease development as well. BIA-ALCL seems to be underestimated in many countries and the initial symptom-seroma might be overlooked and misdiagnosed. Despite its rarity, the awareness of the disease should be improved among patients and medical professionals. This paper summarizes epidemiology, etiopathogenesis, differential diagnosis, and treatment-both surgical and hematological approaches.

The Spectrum of Non-neoplastic Changes Associated With Breast Implants: Histopathology, Imaging, and Clinical Significance

Breast implant-associated anaplastic large cell lymphoma has been recognized as a distinct entity in the World Health Organization classification of hematolymphoid neoplasms. These neoplasms are causally related to textured implants that were used worldwide until recently. Consequently, there is an increased demand for processing periprosthetic capsules, adding new challenges for surgeons, clinicians, and pathologists. In the literature, the focus has been on breast implant-associated anaplastic large cell lymphoma; however, benign complications related to the placement of breast implants occur in up to 20% to 30% of patients. Imaging studies are helpful in assessing patients with breast implants for evidence of implant rupture, changes in tissues surrounding the implants, or regional lymphadenopathy related to breast implants, but pathologic examination is often required. In this review, we couple our experience with a review of the literature to describe a range of benign lesions associated with breast implants that can be associated with different clinical presentations or pathogenesis and that may require different diagnostic approaches. We illustrate the spectrum of the most common of these benign disorders, highlighting their clinical, imaging, gross, and microscopic features. Finally, we propose a systematic approach for the diagnosis and handling of breast implant specimens in general.

Silicone Particles in Capsules Around Breast Implants: An Investigation Into Currently Available Implants in North America

BACKGROUND

Breast implants have always been composed of a silicone elastomer envelope filled with either silicone gel or saline. Breast implant illness (BII) is a set of symptoms that has previously been linked to the leakage of silicone particles from the implants into the body.

OBJECTIVES

Our research aimed to quantify the number of silicone particles present in the capsules of breast implants available in North America.

METHODS

Thirty-five periprosthetic capsules were sampled and analyzed, and silicone particles were counted and measured. The capsule surface area was then measured and utilized to calculate particle density and total number of silicone particles.

RESULTS

Eighty-five percent of capsules analyzed from silicone gel implants contained silicone, with an average of 62 particles per mm3 of capsular tissue. These implants had approximately 1 million silicone particles per capsule. In contrast, none of the saline implant capsules contained silicone. Capsules from macrotextured tissue expanders contained fewer and larger silicone particles.

CONCLUSIONS

Silicone gel implants presented silicone particle bleeding into the periprosthetic capsule, totaling on average 1 million silicone particles per capsule. On the other hand, no silicone particle bleeding was observed from saline breast implants. These data suggest that particle bleeding comes from the inner silicone gel, and not from the smooth outer silicone shell. Previous studies have reported the presence of breast implant illness in patients with both silicone- and saline-filled implants. Therefore, our data suggest that silicone migration is not the sole cause of BII.

LEVEL OF EVIDENCE: 4

Surgical Management and Long-Term Outcomes of BIA-ALCL: A Multidisciplinary Approach

BACKGROUND

Breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) is a subtype of ALCL that arises as a seroma or a mass in the capsule surrounding textured breast implants. However, collections of cases usually come from large groups of institutions or countries, with different approaches regarding surgery and treatment. Here we describe a cohort of 18 cases undergoing implant removal and capsulectomy followed at Memorial Sloan Kettering Cancer Center (MSKCC).

PATIENTS AND METHODS

We retrospectively analyzed all the cases of women with breast implants undergoing implant removal and capsulectomy for BIA-ALCL at MSKCC from January 2011 to June 2020.

RESULTS

Median age at diagnosis was 57 (range 35-77) years following a median implant exposure of 11 (range 7-33) years. All known implants were macrotextured with the proprietary Biocell macrotexturing pattern from salt-loss technique. A total of 16 patients (89%) had implants placed for breast cancer reconstruction. Patients presented with clinically evident effusion in 78% of cases and a mass in 17% of cases, and 83% of patients presented with stage 1 BIA-ALCL. Patients were followed for a median of 43.4 months (SD 45 months) after diagnosis. There were no cases of recurrent ALCL. All patients remain disease free and no patients died of ALCL.

CONCLUSIONS

In this cohort of patients with BIA-ALCL surgically treated and followed at a single institution, we confirm the importance of adequate surgery (bilateral implant removal and complete capsulectomy) in patients presenting with seroma-confined disease. This dataset reinforces high rates of progression-free and overall survival when diagnosis is identified and treatment performed in those with limited-stage disease.

Role of flow cytometric immunophenotyping in the diagnosis of breast implant-associated anaplastic large cell lymphoma: A 6-year, single-institution experience

Breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) is an uncommon mature T-cell neoplasm occurring in patients with textured breast implants, typically after 7-10 years of exposure. Although cytopathologic or histopathologic assessment is considered the gold standard diagnostic method for BIA-ALCL, flow cytometry (FC)-based immunophenotyping is recommended as an adjunct test. However, the diagnostic efficacy of FC is not well reported. We reviewed 290 FC tests from breast implant pericapsular fluid and capsule tissue from 182 patients, including 16 patients with BIA-ALCL over a 6-year period, calculating diagnostic rates and test efficacy. FC showed an overall sensitivity of 75.9%, specificity of 100%, and negative and positive predictive values of 95.4% and 100%, respectively. Blinded expert review of false-negative cases identified diagnostic pitfalls, improving sensitivity to 96.6%. Fluid samples had better rates of adequate samples for FC testing compared with tissue samples. Paired with FC testing of operating room (OR)-acquired fluid samples, capsulectomy FC specimens added no diagnostic value in patients with concurrent fluid samples; no cases had positive capsule FC with negative fluid FC. Fluid samples are adequate for FC testing more often than tissue. Capsule tissue FC specimens do not improve FC efficacy when paired with OR-acquired fluid FC samples and are often inadequate samples. FC is 100% specific for BIA-ALCL and can serve as a confirmatory test but should not be the sole diagnostic method. Awareness of sample-specific diagnostic pitfalls greatly improves the sensitivity of BIA-ALCL testing by FC.

Pathobiology of nodal peripheral T-cell lymphomas: current understanding and future directions

Predominantly nodal is the most common clinical presentation of peripheral T- (and NK-) cell lymphomas (PTCL), which comprise three main groups of diseases: (i) systemic anaplastic large cell lymphomas (ALCL), whether positive or negative for anaplastic lymphoma kinase (ALK); (ii) follicular helper T-cell lymphomas (TFHL); and (iii) PTCL, not otherwise specified (NOS). Recent advances in the genomic and molecular characterization of PTCL, with enhanced understanding of pathobiology, have translated into significant updates in the latest 2022 classifications of lymphomas. ALK-negative ALCL is now recognized to be genetically heterogeneous, with identification of DUSP22 rearrangements in approximately 20-30% of cases, correlated with distinctive pathological and biological features. The notion of cell-of-origin as an important determinant of the classification of nodal PTCL is best exemplified by TFHL, considered as one disease or a group of related entities, sharing oncogenic pathways with frequent recurrent epigenetic mutations as well as a relationship to clonal hematopoiesis. Data are emerging to support that a similar cell-of-origin concept might be relevant to characterize meaningful subgroups within PTCL, NOS, based on cytotoxic and/or Th1 versus Th2 signatures. The small group of primary nodal Epstein-Barr virus-positive lymphomas of T- or NK-cell derivation, formerly considered PTCL, NOS, is now classified separately, due to distinctive features, and notably an aggressive course. This review summarizes current knowledge of the pathology and biology of nodal-based PTCL entities, with an emphasis on recent findings and underlying oncogenic mechanisms.

The implication of next-generation sequencing in the diagnosis and clinical management of non-Hodgkin lymphomas

Next generation sequencing (NGS) is a technology that broadens the horizon of knowledge of several somatic pathologies, especially in oncological and oncohematological pathology. In the case of NHL, the understanding of the mechanisms of tumorigenesis, tumor proliferation and the identification of genetic markers specific to different lymphoma subtypes led to more accurate classification and diagnosis. Similarly, the data obtained through NGS allowed the identification of recurrent somatic mutations that can serve as therapeutic targets that can be inhibited and thus reducing the rate of resistant cases. The article's purpose is to offer a comprehensive overview of the best ways of integrating of next-generation sequencing technologies for diagnosis, prognosis, classification, and selection of optimal therapy from the perspective of tailor-made medicine.

Diagnosis of breast implant associated anaplastic large cell lymphoma by analysis of cytokines in peri-implant seromas

More than 1300 women with breast implants have developed an anaplastic large cell lymphoma (ALCL) in fluid (seroma) around their implant. More often, seromas are due to benign causes, for example, capsule contracture, leakage, or trauma. Our report in American Journal of Hematology identified several cytokines (IL-9, IL-10, IL-13) as significantly elevated only in seromas due to ALCL. We further showed that the most robust biomarker, IL-10, could be detected by a lateral flow assay (similar to COVID detection) within minutes allowing physicians to quickly plan management, eliminate or reduce costly testing and patient time away from family. Early detection of ALCL in seromas before infiltration may avoid need for cytotoxic or immunotherapy and is possibly life-saving.

A comparison of the International Consensus and 5th WHO classifications of T-cell lymphomas and histiocytic/dendritic cell tumours

Since the publication in 2017 of the revised 4th Edition of the World Health Organization (WHO) classification of haematolymphoid tumours, here referred to as WHO-HAEM4, significant clinicopathological, immunophenotypic and molecular advances have been made in the field of lymphomas, contributing to refining the diagnostic criteria of several diseases, upgrading entities previously defined as provisional and identifying new entities. This process has resulted in two recent classification proposals of lymphoid neoplasms: the International Consensus Classification (ICC) and the 5th edition of the WHO classification (WHO-HAEM5). In this paper, we review and compare the two classifications in terms of diagnostic criteria and entity definition, focusing on T-cell lymphomas and histiocytic/dendritic cell tumours. Moreover, we update the genetic data of the various pathological entities. The main goal is to provide a tool to facilitate the work of the pathologists, haematologists and researchers involved in the diagnosis and treatment of these haematological malignancies.

CD30 Lateral Flow and Enzyme-Linked Immunosorbent Assays for Detection of BIA-ALCL: A Pilot Study

INTRODUCTION

Breast Implant-Associated Anaplastic Large Cell Lymphoma (BIA-ALCL) commonly presents as a peri-implant effusion (seroma). CD30 (TNFRSF8) is a consistent marker of tumor cells but also can be expressed by activated lymphocytes in benign seromas. Diagnosis of BIA-ALCL currently includes cytology and detection of CD30 by immunohistochemistry or flow cytometry, but these studies require specialized equipment and pathologists' interpretation. We hypothesized that a CD30 lateral flow assay (LFA) could provide a less costly rapid test for soluble CD30 that eventually could be used by non-specialized personnel for point-of-care diagnosis of BIA-ALCL.

METHODS

We performed LFA for CD30 and enzyme-linked immunosorbent assay (ELISA) for 15 patients with pathologically confirmed BIA-ALCL and 10 patients with benign seromas. To determine the dynamic range of CD30 detection by LFA, we added recombinant CD30 protein to universal buffer at seven different concentrations ranging from 125 pg/mL to 10,000 pg/mL. We then performed LFA for CD30 on cryopreserved seromas of 10 patients with pathologically confirmed BIA-ALCL and 10 patients with benign seromas.

RESULTS

Recombinant CD30 protein added to universal buffer produced a distinct test line at concentrations higher than 1000 pg/mL and faint test lines at 250-500 pg/mL. LFA produced a positive test line for all BIA-ALCL seromas undiluted and for 8 of 10 malignant seromas at 1:10 dilution, whereas 3 of 10 benign seromas were positive undiluted but all were negative at 1:10 dilution. Undiluted CD30 LFA had a sensitivity of 100.00%, specificity of 70.00%, positive predictive value of 76.92%, and negative predictive value of 100.00% for BIA-ALCL. When specimens were diluted 1:10, sensitivity was reduced to 80.00% but specificity and positive predictive values increased to 100.00%, while negative predictive value was reduced to 88.33%. When measured by ELISA, CD30 was below 1200 pg/mL in each of six benign seromas, whereas seven BIA-ALCL seromas contained CD30 levels > 2300 pg/mL, in all but one case calculated from dilutions of 1:10 or 1:50.

CONCLUSIONS

BIA-ALCL seromas can be distinguished from benign seromas by CD30 ELISA and LFA, but LFA requires less time (<20 min) and can be performed without special equipment by non-specialized personnel, suggesting future point-of-care testing for BIA-ALCL may be feasible.

BIA-ALCL Epidemiology in an Aesthetic Breast Surgery Cohort of 1501 Patients

BACKGROUND

Epidemiologic studies on breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) currently estimate the risk between 1:300 and 1:30,000, assessed mainly in large breast reconstruction populations.

OBJECTIVES

The aim of the study was to assess BIA-ALCL epidemiology in a cohort of patients who have received textured implants for cosmetic indications.

METHODS

In a prospective cohort observational study, 1501 patients who received a cosmetic breast augmentation between 2006 and 2016 were monitored, recording any implant-related complications, including BIA-ALCL. Cross-checking of clinical, pathology, and external records data identified cases. Prevalence, implant-specific prevalence (I-SP), incidence rate (IR), event-free time (EFT), and the Kaplan-Meier survival estimate were calculated.

RESULTS

All but 2 patients received macrotextured or microtextured devices bilaterally. Mean follow-up was 3.2 years (1 months to 16.4 years). Five BIA-ALCL cases were investigated. Prevalence was 1:300 patients; I-SP was 6.9 cases/1000 individuals/Allergan BIOCELL devices and 1.3 cases/1000 individuals/Mentor Siltex devices; and IR was 1.07 cases/1000 females/year. Mean (SD) EFT was 9.2 years.

CONCLUSIONS

When using a denominator based on a cohort of cosmetic patients, BIA-ALCL occurrence is higher than previously reported, particularly with macrotextured devices. Given the similar IRs in reconstructive and cosmetic cohorts, their even distribution could be consequent to underreporting due to poorer follow-up and lower awareness in the latter group. The genetic predisposition in the oncologic cohort reasonably affects the early onset more than the IR. The importance of accurate follow-up is confirmed. Stratification risks analysis can guide surgeons during patient counseling regarding the decision for prophylactic explantation.

LEVEL OF EVIDENCE: 4

Breast implant associated anaplastic large cell lymphoma: Evidence for an efficient diagnostic workup

INTRODUCTION

During the last few years it has been shown that an anaplastic T cell lymphoma can develop as a rare and late sequelae of implant-based breast reconstruction. This malignancy was recognized in the 2017 by WHO and named breast implant associated anaplastic large T cell lymphoma (BIA-ALCL). BIA-ALCL usually presents as abundant effusion around the implant, thus, in addition to cytology smears, its diagnosis also requires immunohistochemistry, T cells clonality and cytometry. Due to the increasing attention of clinicians, it is likely that the number of the BIA-ALCL suspected cases will grow in the future, implying the necessity of a reliable and cost-effective diagnostic procedure.

METHODS

To achieve this goal, we retrospectively analyzed the results of laboratory investigations performed at our Institute (Fondazione IRCCS Istituto Nazionale dei Tumori Milan, Italy) on 44 effusions obtained from 31 women suspected for BIA-ALCL.

RESULTS

Through cytology, eight out of 44 effusions showed the presence of BIA-ALCL cells. Lymphoma cells were than confirmed in seven samples by immunohistochemistry and/or T cell clonality and/or cytometry. Overall, cytology showed 100% sensitivity, 97% specificity and positive and negative predictive values of 87.5% and 100% respectively. Further analyses were particularly useful in effusions showing small percentages of BIA-ALCL cells. Moreover, an extended cytometric profile that can be applied when fast confirmation of the cytologic result is required was also identified.

CONCLUSIONS

Our results evidenced a central role of cytopathology in the management of BIA-ALCL suspected effusions and suggested that further laboratory investigations might be applied only in cases showing atypical/activated lymphoid cells through cytology.

Establishment and characterization of a novel breast implant-associated anaplastic large cell lymphoma cell line and PDX model (BIA-XR1) with a unique KRAS mutation

Breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) is an uncommon T-cell lymphoma type with distinct clinical, molecular and genetic features. Establishment of BIA-ALCL cell lines and patient-derived xenograft (PDX) models are essential experimental tools to investigate the molecular pathogenesis of the disease. We characterized a novel BIA-ALCL cell line and PDX model, named BIA-XR1, derived from a patient with textured breast implant who developed lymphoma. Next-generation sequencing revealed a STAT3 mutation, commonly detected in BIA-ALCL, and a unique KRAS mutation reported for the first time in this lymphoma type. Both JAK/STAT3 and RAS/MEK/ERK oncogenic pathways were activated in BIA-XR1, which are targetable with clinically available agents.

A Spectrum of Disease: Breast Implant-Associated Anaplastic Large Cell Lymphoma, Atypicals, and Other Implant Associations

Breast implant associated anaplastic large cell lymphoma (BIA-ALCL) is an uncommon and emerging malignancy caused by textured breast implants. The most common patient presentation is delayed seromas, other presentations include breast asymmetry, overlying skin rashes, palpable masses, lymphadenopathy, and capsular contracture. Confirmed diagnoses should receive lymphoma oncology consultation, multidisciplinary evaluation, and PET-CT or CT scan evaluation prior to surgical treatment. Disease confined to the capsule is curable in the majority of patients with complete surgical resection. BIA-ALCL is now recognized as one disease among a spectrum of inflammatory mediated malignancies which include implant-associated squamous cell carcinoma and B cell lymphoma.

Breast Implant-Associated Anaplastic Large Cell Lymphoma

Pathologic staging including assessment of margins is essential for the proper management of patients with breast implant-associated anaplastic large-cell lymphoma (BIA-ALCL). As most patients present with effusion, cytologic examination with immunohistochemistry and/or flow cytometry immunophenotyping are essential for diagnosis. Upon a diagnosis of BIA-ALCL, en bloc resection is recommended. When a tumor mass is not identified, a systematic approach to fixation and sampling of the capsule, followed by pathologic staging and assessment of margins, is essential. Cure is likely when lymphoma is contained within the en bloc resection and margins are negative. Incomplete resection or positive margins require a multidisciplinary team assessment for adjuvant therapy.

Bilateral primary breast Burkitt's lymphoma in pregnancy

Pregnancy-associated cancer is defined as malignancy diagnosed during gestation or up to 1 year post partum. Treatment of cancer during pregnancy is complicated by the risk of harm to the fetus and limitations in safety data. Postpartum patients receiving chemotherapy, tyrosine-kinase inhibitors or hormonal agents should avoid breast feeding to avoid drug excretion in breast milk. Patients who will receive cytotoxic chemotherapy should be advised of the potential impact on their future fertility and offered fertility-preservation options. Breast cancer is the most common pregnancy-associated malignancy and is most frequently either invasive ductal or lobular carcinoma. Breast lymphoma is an exceedingly rare diagnosis that typically presents with unilateral disease in the seventh decade of life. Here, we present the case of a woman who presented with bilateral breast masses during the second trimester of pregnancy and was ultimately diagnosed with primary breast Burkitt's lymphoma.

Extranodal T- and NK-cell lymphomas

Non-cutaneous extranodal NK/T cell lymphoproliferations constitute a heterogenous group of rare neoplasms, occurring primarily in the gastro-intestinal tract, nasal area, spleen, and liver. Their nomenclature refers to their usual clinical presentation and predilection for specific anatomic sites-i.e. extranodal NK/T-cell lymphoma, nasal-type, hepatosplenic T-cell lymphoma, primary intestinal T-cell lymphomas, indolent lymphoproliferative disorders of the gastrointestinal tract, and breast implant-associated anaplastic large cell lymphoma. Extranodal tissues may also be involved by T-cell leukemias, or other entities usually presenting as nodal diseases. Primary extranodal entities range from indolent to highly aggressive diseases. Here, we will review the clinicopathologic features of the pertinent entities including the recent advances in their molecular and genetic characterization, with an emphasis on the changes introduced in the 2022 International Consensus Classification of lymphoid neoplasms, and highlight the diagnostic criteria helpful to sort out the distinction with potential mimickers.

Clinical recommendations for diagnosis and treatment according to current updated knowledge on BIA-ALCL

Shared strategies and correct information are essential to guide physicians in the management of such an uncommon disease as Breast Implant-Associated Anaplastic Large Cell Lymphoma (BIA-ALCL). A systematic review of the literature was performed to collect the most relevant evidence on BIA-ALCL reported cases. A panel of multidisciplinary experts discussed the scientific evidence on BIA-ALCL, and updated consensus recommendations were developed through the Delphi process. The lastest reported Italian incidence of BIA-ALCL is 3.5 per 100.000 implanted patients (95% CI, 1.36 to 5.78), and the disease counts over 1216 cases worldwide as of June 2022. The most common presentation symptom is a late onset seroma followed by a palpable breast mass. In the event of a suspicious case, ultrasound-guided fine-needle aspiration should be the first step in evaluation, followed by cytologic and immunohistochemical examination. In patients with confirmed diagnosis of BIA-ALCL confined to the capsule, the en-bloc capsulectomy should be performed, followed by immediate autologous reconstruction, while delayed reconstruction applies for disseminate disease or radically unresectable tumor. Nevertheless, a multidisciplinary team approach is essential for the correct management of this pathology.

Breast Implanted-Associated Anaplastic Large Cell Lymphoma: A Case of Advanced Disease with Flow Cytometric Findings

Breast implant-associated anaplastic large cell lymphoma (breast implant-associated ALCL) is a recently described, distinct clinicopathological entity associated with macrotextured breast implants. The diagnostic workup of a patient suspected to have breast implant-associated ALCL includes cytological assessment of effusions and tissue biopsies of any masses or enlarged lymph nodes, with morphologic and immunophenotypic evaluation and possible flow cytometric and molecular testing. We report the case of a woman found to have breast implant-associated ALCL on fine needle aspirate and core biopsy, who on surgical resection, had extensive local disease with involvement of the resection margins and lymph nodes, requiring systemic treatment. We focus on the flow cytometric findings that identified a population of large cells on the CD30/side scatter dot plot and whose immunophenotype was consistent with breast implant-associated ALCL, highlighting the value of flow cytometry as an adjunct to morphological and immunophenotypic evaluation.

Current Understanding of Breast Implant-Associated Anaplastic Large Cell Lymphoma

Every year, breast implants are inserted worldwide for reconstructive or aesthetic reasons. Breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) is a rather uncommon type of T cell lymphoma that is positive for the CD30 biomarker. Despite being far more common than other primary breast lymphomas, BIA-ALCL has a very low incidence. Textured types of implants have been linked to almost all cases. The majority of patients have a favorable prognosis after the removal of implants and capsules. Nevertheless, the chance of a fatal outcome is higher with capsular invasion and tumor bulk. Although the exact cause of BIA-ALCL is unknown, it has been suggested that persistent infections or toxins related to the implants may play a role. Therefore, physicians must be aware of breast implants' rare but potentially significant side effects. Before surgery, patients with verified instances should be directed to a breast medical oncologist or lymphoma specialist for oncologic assessment. Total en-bloc capsulectomy, a surgical procedure that removes the implant and the surrounding capsule, is usually adequate. In other cases, a late diagnosis necessitates more invasive surgery and systemic therapies, which, while typically effective, have been linked to poor outcomes and even fatalities. Since it is a recently described entity and the "denominator" (i.e., the total number of breast implant procedures) is unknown, it is challenging to determine the risk of development. In this review, we hope to emphasize the elements of etiology, demography, clinical features, and current treatment approaches for BIA-ALCL. In doing so, we hope to increase the medical professional's knowledge of the recognition and treatment of BIA-ALCL.

The International Consensus Classification of Mature Lymphoid Neoplasms: a report from the Clinical Advisory Committee

Since the publication of the Revised European-American Classification of Lymphoid Neoplasms in 1994, subsequent updates of the classification of lymphoid neoplasms have been generated through iterative international efforts to achieve broad consensus among hematopathologists, geneticists, molecular scientists, and clinicians. Significant progress has recently been made in the characterization of malignancies of the immune system, with many new insights provided by genomic studies. They have led to this proposal. We have followed the same process that was successfully used for the third and fourth editions of the World Health Organization Classification of Hematologic Neoplasms. The definition, recommended studies, and criteria for the diagnosis of many entities have been extensively refined. Some categories considered provisional have now been upgraded to definite entities. Terminology for some diseases has been revised to adapt nomenclature to the current knowledge of their biology, but these modifications have been restricted to well-justified situations. Major findings from recent genomic studies have impacted the conceptual framework and diagnostic criteria for many disease entities. These changes will have an impact on optimal clinical management. The conclusions of this work are summarized in this report as the proposed International Consensus Classification of mature lymphoid, histiocytic, and dendritic cell tumors.

A Systematic Review of Outcomes Following Breast Implant Associated Anaplastic Large Cell Lymphoma (BIA-ALCL)

Background

Breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) has increasingly become a significant concern for patients. Focus thus far has been on understanding pathogenesis and establishing treatment pathways. There has been less attention on the assessment of long-term treatment outcomes. The purpose of this study was to perform a systematic review to assess published data on treatment outcomes for BIA-ALCL.

Methods

Using PRISMA guidelines, a systematic search of the literature was carried out from January 1997 to January 2021 using the Web of Science (PubMed) and Ovid Medline. Included in the review were any studies on the management and follow-up of patients, including disease status at a minimum of 18 months following treatment.

Results

A total of 39 articles matched the inclusion criteria. However, 94% of patients were managed with explantation and capsulectomy. Then, 39% of patients had adjuvant chemotherapy, 19% radiotherapy, 6% autologous stem cell transplant, and 4% immunotherapy. The mean follow-up was 19 months (range 3–36 months), and 69% of patients were reported to be alive at 18 months. The mainstay of treatment was surgical – en bloc capsulectomy with adjuvant treatment for advanced disease.

Conclusions

Robust survival data based on high-level evidence are challenging to establish in BIA-ALCL. Early diagnosis and en bloc capsulectomy with negative margins, whilst considering the need for adjuvant treatment, particularly targeted immune therapy in advanced disease represents the consistent forms of treatment. National databases, prospective studies, and treatment of patients in tertiary centres are all recommended to improve the quality of the research available in the management of BIA-ALCL.

Conversion of Breast Implants into Natural Breast Reconstruction: Evaluating Lipofilled Mini Dorsi Flap

Background:

Autologous reconstruction techniques can provide a long-lasting natural breast reconstruction for patients. This study aimed to further investigate outcomes in the conversion of breast implant reconstruction into a lipofilled mini dorsi flap, focusing on reviewing its techniques, efficiency, and final results.

Methods:

Over 3 years, we performed a number of breast implant replacements via the lipofilled mini dorsi flap technique. The artificial implants were replaced to a deepithelized flap. The efficiency and tolerance of the technique were evaluated by the whole surgical team, and the achieved results were also analyzed by the patients in terms of postoperative pain, functional impact, and the softness of the reconstructed breast by comparing their prior condition to the lipofilled mini dorsi flap condition at least 9 months after operation.

Results:

Forty-seven consecutive operations were prospectively studied. The mean ± standard deviation volume of the removed implants was 348.66 ± 86.54 mL. The mean volume of fat injected was 284.13 ± 62.94 mL. The procedure’s average duration was 108.93 ± 17.65 minutes. The surgical team evaluated the results as very satisfactory in 32 cases (68.1%), satisfactory in 15 cases (31.9%), and moderately satisfactory or unsatisfactory in zero cases (0.0%). Eighteen patients (38.3%) evaluated their reconstruction as very good, while 20 patients (42.6%) considered their reconstruction as good, four (8.5%) as average, and zero (0.0%) as insufficient.

Conclusion:

According to our experience, the lipofilled mini dorsi flap is a simple, less invasive, and quick procedure to convert breast implants into natural breast reconstruction.

2022 Practice Recommendation Updates From the World Consensus Conference on BIA-ALCL

BACKGROUND

Laboratory and clinical research on breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) is rapidly evolving. Changes in standard of care and insights into best practice were recently presented at the 3rd World Consensus Conference on BIA-ALCL.

OBJECTIVES

The authors sought to provide practice recommendations from a consensus of experts, supplemented with a literature review regarding epidemiology, etiology, pathogenesis, diagnosis, treatment, socio-psychological aspects, and international authority guidance.

METHODS

A literature search of all manuscripts between 1997 and August 2021 for the above areas of BIA-ALCL was conducted with the PubMed database. Manuscripts in different languages, on non-human subjects, and/or discussing conditions separate from BIA-ALCL were excluded. The study was conducted employing the Delphi process, gathering 18 experts panelists and utilizing email-based questionnaires to record the level of agreement with each statement by applying a 5-point Likert Scale. Median response, interquartile range, and comments were employed to accept, reject, or revise each statement.

RESULTS

The literature search initially yielded 764 manuscripts, of which 405 were discarded. From the remaining 359, only 218 were included in the review and utilized to prepare 36 statements subdivided into 5 sections. After 1 round, panelists agreed on all criteria.

CONCLUSIONS

BIA-ALCL is uncommon and still largely underreported. Mandatory implant registries and actions by regulatory authorities are needed to better understand disease epidemiology and address initial lymphomagenesis and progression. Deviation from current diagnosis and treatment protocols can lead to disease recurrence, and research on breast implant risk factors provide insight to etiology.

LEVEL OF EVIDENCE: 4

An Updated Approach and Understanding of Breast Implant-Associated Anaplastic Large Cell Lymphoma

Breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) is a rare subtype of T-cell non-Hodgkin lymphoma that is usually localized to the fluid and capsule surrounding a breast implant. There have only been <1,000 cases and 36 deaths reported to date and the average patient presents 7 to 10 years following initial breast implant placement. Most patients present with delayed seromas, a breast mass, capsular abnormalities, lymphadenopathy, or cutaneous masses. Unlike other forms of non-Hodgkin lymphoma, most cases are cured with surgery alone. The challenge of BIA-ALCL surrounds its rarity-in regard to both its diagnosis as well as the limited available data to guide therapy for more advanced cases. Careful pathology evaluation to analyze both the fluid surrounding the capsule and the capsule itself is critical. Studies to identify which patients are at greater risk of development of this rare entity are ongoing.

Breast Implant-associated Anaplastic Large Cell Lymphoma Diagnosis 6 Years After Implant Removal: A Case Report

ABSTRACT

We present a case report of a 48-year-old woman with a late-onset seroma of her left breast, 6 years after removal of her textured breast implants. At that time, she also had a late-onset seroma of her left breast, and capsulectomy was performed along with removal of the implants. The current late seroma presentation, which followed 6 years of uneventful healing, was treated with en bloc excision of the encapsulated seroma. Pathology results were concordant with locally invasive anaplastic large cell lymphoma (ALCL). Review of her previous seroma cytology from 6 years ago was performed given the current updated guideline standards on breast implant-associated ALCL (BIA-ALCL). Evidence of BIA-ALCL confirmed the patient had the diagnosis 6 years ago. The disease persisted and remained indolent for 6 years and manifested clinically as a late seroma of the left breast. This case report emphasizes the high degree of suspicion that is required in late seroma cases involving textured breast implants or a history of textured breast implants, along with the need for en bloc capsulectomy as a primary treatment for diagnosed BIA-ALCL to avoid incomplete capsulectomy and recurrence of the disease.

Nonmalignant CD30+ Cells in Contralateral Peri-Implant Capsule of Patient With BIA-ALCL: A Premalignant Step?

CD30 lymphocyte activation antigen and phosphorylated STAT3 (pSTAT3) are consistent markers of tumor cells in breast implant-associated anaplastic large cell lymphoma (BIA-ALCL). We present a case of BIA-ALCL in a breast implant capsule containing clustered tumor cells expressing CD30, pSTAT3, pSTAT6, interleukin 9, and granzyme B tumor cell biomarkers. Remarkably, the contralateral breast contained many scattered large, atypical CD30+ cells surrounded by inflammatory cells, raising a suspicion of bilateral BIA-ALCL, known to occur in some patients. To clarify the diagnosis, immunohistochemistry and multilabel immunofluorescence were performed. Unlike the tumor cells, the atypical CD30+ cells of the contralateral breast lacked pSTAT3, pSTAT6, interleukin 9, and granzyme B, eliminating a diagnosis of bilateral BIA-ALCL. This case highlights the importance of interpreting CD30 staining in the context of other tumor cell biomarkers and histopathology to avoid an incorrect diagnosis of BIA-ALCL. We believe the findings also suggest the possibility of CD30 expression as an early event in the multistep pathogenesis of BIA-ALCL.

LEVEL OF EVIDENCE: 5

Current Progress in Breast Implant-Associated Anaplastic Large Cell Lymphoma

Breast implant-associated anaplastic large-cell lymphoma (BIA-ALCL) is an uncommon type of T-cell lymphoma. Although with a low incidence, the epidemiological data raised the biosafety and health concerns of breast reconstruction and breast augmentation for BIA-ALCL. Emerging evidence confirms that genetic features, bacterial contamination, chronic inflammation, and textured breast implant are the relevant factors leading to the development of BIA-ALCL. Almost all reported cases with a medical history involve breast implants with a textured surface, which reflects the role of implant surface characteristics in BIA-ALCL. With this review, we expect to highlight the most significant features on etiology, pathogenesis, diagnosis, and therapy of BIA-ALCL, as well as we review the physical characteristics of breast implants and their potential pathogenic effect and hopefully provide a foundation for optimal choice of type of implant with minimal morbidity.

Breast implant-associated anaplastic large cell lymphoma: clinical follow-up and analysis of sequential pathologic specimens of untreated patients shows persistent or progressive disease

Breast implant-associated anaplastic large cell lymphoma (ALCL) is a distinctive type of T-cell lymphoma that arises around textured-surface breast implants. In a subset of patients, this disease can involve surrounding tissues, spread to regional lymph nodes, and rarely metastasize to distant sites. The aim of this study was to assess sequential pathologic specimens from patients with breast implant-associated ALCL to better understand the natural history of early-stage disease. To achieve this goal, we searched our files for patients who had breast implant-associated ALCL and who had undergone earlier surgical intervention with assessment of biopsy or cytologic specimens. We then focused on the patient subset in whom a definitive diagnosis was not established, and patients did not receive current standard-of-care therapy at that time. We identified a study group of ten patients with breast implant-associated ALCL in whom pathologic specimens were collected 0.5 to 4 years before a definitive diagnosis was established. A comparison of these serial biopsy specimens showed persistent disease without change in pathologic stage in three patients, progression in five patients, and persistence versus progression in two patients. Eventually, six patients underwent implant removal with complete capsulectomy and four underwent partial capsulectomy. Seven patients also received chemotherapy because of invasive disease, three of whom also received radiation therapy, two brentuximab vedotin after chemotherapy failure, and one allogeneic stem cell transplant. Eight patients achieved complete remission and two had partial remission after definitive therapy. At time of last follow-up, six patients were alive without disease, one had evidence of disease, one died of disease, and two patients died of unrelated cancers. In summary, this analysis of sequential specimens from patients with breast implant-associated ALCL suggests these neoplasms persist or progress over time if not treated with standard-of-care therapy.

Use of flow cytometry and cytology to differentiate breast implant-associated anaplastic large cell lymphoma from reactive seromas in Brazilian patients

INTRODUCTION

The combination of cytology and multiparametric flow cytometry (MFC) may be useful in the diagnosis of breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) and may be a practical way to differentiate lymphoma from benign and reactive seromas. Although the Brazilian breast implant market is the second largest in the world, with several manufacturers and the almost exclusive use of textured implants, the occurrence of BIA-ALCL in Brazil is underreported.

METHODS

One hundred seventeen sequential collections of suspicious periprosthetic fluid (PF) from 105 Brazilian patients registered between March/2018 and March/2021 were evaluated by routine cytomorphology and flow cytometry. The combination of CD30, HLA-DR, and CD25 was used together with T and B lymphocyte and monocyte evaluation. The PF samples were divided into positive, acute reactive (neutrophilic exudate), or chronic reactive (macrophage or lymphocyte rich), and unavailable samples.

RESULTS

Nine BIA-ALCL positive cases (7.7%) were identified, with typical morphology and increased FSC/SSC dispersion, bright expression of CD30, CD25 and HLA-DR, and absence or weakness of T-cell antigens (CD3, CD8, CD4, CD5, and CD7). Reactive samples were acute (n = 18, 15.4%) and chronic (n = 70, 59.8%). Twenty samples were excluded. The mean age of BIA-ALCL patients was 50 years (31-57 years) and 35 years in reactive patients (20-69 years).

CONCLUSION

Use of MFC with a comprehensive antibody panel consisting of CD30 in conjunction with CD25 and HLA-DR can discriminate anaplastic cells of BIA-ALCL from lymphoid or neutrophilic reactive cells and should be considered in the initial evaluation of seroma.

BIA-ALCL diagnosis on CytoLyt fixed ThinPrep, cell block and immunohistochemistry

Breast implant associated anaplastic large cell lymphoma (BIA-ALCL) is an emergent rare T cell non-Hodgkin lymphoma arising in association with a breast implant, particularly textured ones. Recent guidelines list cytopathological examination as the first essential step for diagnosis, routinely followed by CD30 immunohistochemistry (IHC) and flow cytometry (FC) for a T cell clone. The majority of BIA-ALCL literature regarding cytopathological evaluation describes morphology based on various preparation methods limited to cytospins and smears with the exception of at least one case report detailing cytomorphological and IHC findings on ThinPrep. This case report details initial diagnosis of BIA-ALCL rendered with CytoLyt prepared ThinPrep and cell block, including the specific antibodies used for IHC. The ThinPrep slide showed numerous singly dispersed large, atypical cells with abundant cytoplasm containing irregular nuclei with dispersed chromatin and prominent nucleoli in a background of macrophages, inflammatory cells and granular debris. TIA-1 and CD30 along with other T-cell markers, including specific antibodies, remains immunoreactive in tissue collected in CytoLyt solution. Cell size reduction, artifactual lymphoid cell aggregation and prominent nucleoli in benign and reactive conditions are among other ThinPrep cellular alterations pathologists should bear in mind.

ALK-Negative Anaplastic Large Cell Lymphoma: Current Concepts and Molecular Pathogenesis of a Heterogeneous Group of Large T-Cell Lymphomas

Simple Summary

ALK- anaplastic large cell lymphoma (ALK- ALCL) is a rare subtype of CD30+ large T-cell lymphoma that typically affects older adults and has a poor prognosis. Recognition of its histopathologic spectrum, subtypes, and of other tumors that can resemble ALK- ALCL is crucial to avoid making a wrong diagnosis that could result in inappropriate treatment for a patient. In recent years, several important studies have identified recurrent molecular alterations that have shed light on the pathogenesis of this lymphoma. However, on the other hand, putting all this vast information together into a concise form has become challenging. In this review, we present not only a more detailed view of the histopathologic findings of ALK- ALCL but also, we attempt to provide a more simplified perspective of the relevant genetic and molecular alterations of this type of lymphoma, that in our opinion, is not available to date.

Abstract

Anaplastic large cell lymphoma (ALCL) is a subtype of CD30+ large T-cell lymphoma (TCL) that comprises ~2% of all adult non-Hodgkin lymphomas. Based on the presence/absence of the rearrangement and expression of anaplastic lymphoma kinase (ALK), ALCL is divided into ALK+ and ALK-, and both differ clinically and prognostically. This review focuses on the historical points, clinical features, histopathology, differential diagnosis, and relevant cytogenetic and molecular alterations of ALK- ALCL and its subtypes: systemic, primary cutaneous (pc-ALCL), and breast implant-associated (BIA-ALCL). Recent studies have identified recurrent genetic alterations in this TCL. In systemic ALK- ALCL, rearrangements in DUSP22 and TP63 are detected in 30% and 8% of cases, respectively, while the remaining cases are negative for these rearrangements. A similar distribution of these rearrangements is seen in pc-ALCL, whereas none have been detected in BIA-ALCL. Additionally, systemic ALK- ALCL—apart from DUSP22-rearranged cases—harbors JAK1 and/or STAT3 mutations that result in the activation of the JAK/STAT signaling pathway. The JAK1/3 and STAT3 mutations have also been identified in BIA-ALCL but not in pc-ALCL. Although the pathogenesis of these alterations is not fully understood, most of them have prognostic value and open the door to the use of potential targeted therapies for this subtype of TCL.

Management of Patients with Textured Surface Breast Implants

SUMMARY

The purpose of this special topic article is to present an evidence-based approach and provide recommendations for the management of both asymptomatic and symptomatic patients with textured surface breast implants. There are currently no scientific data to support complete removal of a benign capsule. When unnecessary capsulectomies are performed, the patient is at higher risk for developing postoperative complications. Ultimately, the decision to keep, exchange, or remove breast implants is the patient's decision and the procedure should be performed only by a qualified surgeon.

Update on the Classification and Diagnostic Approaches of Mature T-Cell Lymphomas

CONTEXT.—

In the 2017 revised World Health Organization classification of tumors of hematopoietic and lymphoid tissues, some mature T-cell lymphomas are reclassified and a few new provisional entities are established based on new data from clinical and laboratory studies. T follicular helper cell lymphoma is identified by T follicular helper cell markers. Anaplastic large cell lymphoma, ALK negative, is a better-defined entity based on genetic abnormalities, and breast implant-associated anaplastic large cell lymphoma is recognized as a provisional entity. The gastrointestinal T-cell lymphomas are reclassified, with addition of a new provisional entity, indolent T-cell lymphoproliferative disorder of the gastrointestinal tract, characterized by an indolent clinical course.

OBJECTIVE.—

To review the diagnostic approaches of reclassified and newly established entities of mature T-cell lymphomas, focusing on significant immunophenotypic features and molecular genetic abnormalities. Relevant new discoveries after the publication of the 2017 World Health Organization classification are included.

DATA SOURCES.—

Information from the literature most relevant to 2017 World Health Organization revised classification and publications after 2016.

CONCLUSIONS.—

Incorporating clinical, morphologic, and immunophenotypic features usually provides sufficient evidence to reach a preliminary diagnosis of mature T-cell lymphoma. Molecular genetic studies can be very helpful for the final diagnosis and classification, especially in challenging cases. Some molecular genetic features have been found in breast implant-associated anaplastic large cell lymphoma, distinct from anaplastic large cell lymphoma, ALK negative. Immunohistochemical staining of 4 markers may enable further subtyping of peripheral T-cell lymphomas.

Current Progress in Investigating Mature T- and NK-Cell Lymphoma Gene Aberrations by Next-Generation Sequencing (NGS)

Despite efforts to abrogate the severe threat to life posed by the profound malignancy of mature natural killer/T-cell lymphoma (NKTCL), therapeutic advances still require further investigation of its inherent regulatory biochemical processes. Next-generation sequencing (NGS) is an increasingly developing gene detection technique, which has been widely used in lymphoma genetic research in recent years. Targeted therapy based on the above studies has also generated a series of advances, making genetic mutation a new research hotspot in lymphoma. Advances in NKTCL-related gene mutations are reviewed in this paper.

Breast Implant-Associated Anaplastic Large Cell Lymphoma: Defining Future Research Priorities

Breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) is an emerging cancer of the immune system that is exclusively associated with textured-surface breast implants. This clinical review provides an update on the diagnosis and management of BIA-ALCL with an emphasis on major advances. The epidemiology and pathophysiology of the disease are also reviewed, focusing on current paradigm shifts and highlighting current controversies related to disease classification and risk mitigation. Finally, the authors conclude by discussing medicolegal and ethical issues surrounding BIA-ALCL while establishing a future basic science and clinical research agenda that is central to improving patient safety.

Management of Symptomatic Patients with Textured Implants

SUMMARY

Proper management of symptomatic textured implant patients is critical to identify and treat associated oncologic disease. Textured surface breast implants were first introduced more than 50 years ago in an effort to decrease high rates of capsular contracture and implant malposition observed with first-generation smooth surface breast implants. Textured implants were dominant over smooth devices in the United States in the late 1990s, but they fell out of favor for newer-generation smooth implants, while texture remained the dominant selling implants worldwide until recently. A class I device recall by the US Food and Drug Administration in 2019 precipitated a removal of the highest selling implant worldwide, Allergan Biocell, due to a disproportionately increased risk of breast implant-associated anaplastic large cell lymphoma (BIA-ALCL). Operative strategies, such as bacterial control at the time of textured implant insertion, have not been credibly shown to affect or prevent the future development of BIA-ALCL. BIA-ALCL patients require complete surgical excision of their disease, whereas textured implant patients who are otherwise asymptomatic do not require surgical removal. For suspicious cases, diagnostic testing with CD30 immunohistochemistry should be performed before any surgical intervention. Capsules are evaluated with 12 strategic regional biopsies in a standardized approach. If surgeons are revising or exchanging textured implants, they may reasonably consider a total capsulectomy, though this is not advocated by the Food and Drug Administration or national societies, and has not been shown to mitigate future risk of BIA-ALCL. The purpose of this article is to review data on and outcomes for textured surface implants, disease-associated risk, and the management strategy for revisionary surgery and device surveillance.

Elective Implant Removal and Replacement in Asymptomatic Aesthetic Patients with Textured Devices

SUMMARY

The management of patients with breast implants requires secondary procedures through the life of the implant, sometimes in the early postoperative period and more commonly many years after the initial surgery. In performing revisional procedures, removal and replacement of the implants is often required for a variety of reasons. With growing concerns of implant safety, implant exchange or removal with or without a capsulectomy has been increasingly requested by patients. In particular, textured breast implants have been under increased scrutiny secondary to their association with breast implant-associated anaplastic large cell lymphoma. Unfortunately, to date, there are no data and very little guidance as to the appropriate management of patients currently with textured implants as well as patients with a history of having had textured implants placed in the past. The surgeon must not only consider the appropriate management of patients with uncomplicated, asymptomatic textured devices but also consider the appropriate management when faced with another indication for revisional surgery and the need determine the appropriate course of action. An algorithm for the management of the explantation patient in general will be introduced in this review with a focus on the rationale, planning, and management of patients with an uncomplicated, asymptomatic textured implants.

Breast Implant-Associated Anaplastic Large Cell lymphoma: Brief overview of current data and imaging findings

In 2016, the World Health Organization added Breast Implant-Associated Anaplastic Large Cell lymphoma as a provisionally recognized lymphoma to the family of existing Anaplastic Large Cell lymphomas. Current estimates of the lifetime risk of the disease in women with textured breast implants range from 1:1,000 to 1:30,000. The mean interval from implant placement to diagnosis is 10.7 ± 4.6 years and the most common clinical symptom at presentation is breast swelling. A high level of clinical suspicion is recommended in patients presenting with breast symptoms and/or peri-implant fluid collection occurring more than 1 year after breast implant placement. Ultrasound is the imaging modality of choice, with a high sensitivity for peri-implant fluid and a high specificity for peri-implant mass. When ultrasound is inconclusive, breast MRI is indicated. As of today, all confirmed cases have tested positive for CD30 immunohistochemistry and the disease has shown to have an excellent prognosis when it is diagnosed earlier (localized disease), and when complete surgery, consisting of explantation, capsulectomy, and removal of any associated capsule mass, is performed. This overview summarizes the available epidemiological and clinical data of Breast Implant-Associated Anaplastic Large Cell lymphoma, with an emphasis on imaging features.

How I Diagnose Anaplastic Large Cell Lymphoma

OBJECTIVES

This review describes our approach to the diagnosis of all 4 anaplastic large cell lymphoma (ALCL) entities.

METHODS

ALCLs are a group of CD30-positive mature T-cell lymphomas with similar morphologic and phenotypic characteristics but variable clinical and genetic features. They include systemic ALK-positive ALCL, systemic ALK-negative ALCL, primary cutaneous ALCL, and the recently described provisional entity breast implant-associated ALCL.

RESULTS

In cases with classic features, the diagnosis of ALCL is often straightforward. However, variant histology, the importance of clinical history, and multiple antigenic aberrancies all present challenges to accurate diagnosis and subclassification.

CONCLUSIONS

A systematic approach to the diagnosis of ALCL and awareness of potential mimics are critical to avoid misdiagnosis. It is also crucial to correctly identify localized forms of ALCL to avoid classification as systemic ALCL and subsequent overtreatment.

New developments in non-Hodgkin lymphoid malignancies

The revised fourth edition of the World Health Organization (WHO) Classification of Tumours of Haematopoietic and Lymphoid Tissues (2017) reflects significant advances in understanding the biology, genetic basis and behaviour of haematopoietic neoplasms. This review focuses on some of the major changes in B-cell and T-cell non-Hodgkin lymphomas in the 2017 WHO and includes more recent updates. The 2017 WHO saw a shift towards conservatism in the classification of precursor lesions of small B-cell lymphomas such as monoclonal B-cell lymphocytosis, in situ follicular and in situ mantle cell neoplasms. With more widespread use of next generation sequencing (NGS), special entities within follicular lymphoma and mantle cell lymphoma were recognised with recurrent genetic aberrations and unique clinicopathological features. The diagnostic workup of lymphoplasmacytic lymphoma and hairy cell leukaemia has been refined with the discovery of MYD88 L265P and BRAF V600E mutations, respectively, in these entities. Recommendations in the immunohistochemical evaluation of diffuse large B-cell lymphoma include determining cell of origin and expression of MYC and BCL2, so called 'double-expressor' phenotype. EBV-positive large B-cell lymphoma of the elderly has been renamed to recognise its occurrence amongst a wider age group. EBV-positive mucocutaneous ulcer is a newly recognised entity with indolent clinical behaviour that occurs in the setting of immunosuppression. Two lymphomas with recurrent genetic aberrations are newly included provisional entities: Burkitt-like lymphoma with 11q aberration and large B-cell lymphoma with IRF4 rearrangement. Aggressive B-cell lymphomas with MYC, BCL2 and/or BCL6 rearrangements, so called 'double-hit/triple-hit' lymphomas are now a distinct entity. Much progress has been made in understanding intestinal T-cell lymphomas. Enteropathy-associated T-cell lymphoma, type II, is now known to not be associated with coeliac disease and is hence renamed monomorphic epitheliotropic T-cell lymphoma. An indolent clonal T-cell lymphoproliferative disorder of the GI tract is a newly included provisional entity. Angioimmunoblastic T-cell lymphoma and nodal T-cell lymphomas with T-follicular helper phenotype are included in a single broad category, emphasising their shared genetic and phenotypic features. Anaplastic large cell lymphoma, ALK- is upgraded to a definitive entity with subsets carrying recurrent rearrangements in DUSP22 or TP63. Breast implant-associated anaplastic large cell lymphoma is a new provisional entity with indolent behaviour. Finally, cutaneous T-cell proliferations include a new provisional entity, primary cutaneous acral CD8-positive T-cell lymphoma, and reclassification of primary small/medium CD4-positive T-cell lymphoma as lymphoproliferative disorder.

Next generation sequencing of breast implant-associated anaplastic large cell lymphomas reveals a novel STAT3-JAK2 fusion among other activating genetic alterations within the JAK-STAT pathway

Breast implant associated anaplastic large cell lymphoma (BIA-ALCL) is a distinct type of ALCL, and a new provisional entity by the 2016 revision of the World Health Organization (WHO) classification of tumors of hematopoietic and lymphoid tissues. In contrast to systemic and primary cutaneous ALCLs, BIA-ALCLs have been genetically characterized by the absence of fusions and frequent activation of the JAK-STAT3 pathway through mutations in JAK1 and STAT3. In this study, we report the results of the genetic profiling of 9 BIA-ALCL cases supporting the role of the JAK-STAT pathway activation in this entity, including the identification of an activating STAT3-JAK2 fusion similar to those recently reported in T-cell lymphoproliferative disorders of the gastrointestinal tract. To our knowledge, this is the first fusion reported in BIA-ALCL, providing further insight into the overall genetic landscape of this rare entity as well as uncovering potential options for targeted therapy in cases with advanced disease.

UK Guidelines on the Diagnosis and Treatment of Breast Implant-Associated Anaplastic Large Cell Lymphoma on behalf of the Medicines and Healthcare products Regulatory Agency Plastic, Reconstructive and Aesthetic Surgery Expert Advisory Group

Breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) is an uncommon T-cell non-Hodgkin Lymphoma (NHL) associated with breast implants. Raising awareness of the possibility of BIA-ALCL in anyone with breast implants and new breast symptoms is crucial to early diagnosis. The tumour begins on the inner aspect of the peri-implant capsule causing an effusion, or less commonly a tissue mass to form within the capsule, which may spread locally or to more distant sites in the body. Diagnosis is usually made by cytological, immunohistochemical and immunophenotypic evaluation of the aspirated peri-implant fluid: pleomorphic lymphocytes are characteristically anaplastic lymphoma kinase (ALK)-negative and strongly positive for CD30. BIA-ALCL is indolent in most patients but can progress rapidly. Surgical removal of the implant with the intact surrounding capsule (total en-bloc capsulectomy) is usually curative. Late diagnosis may require more radical surgery and systemic therapies and although these are usually successful, poor outcomes and deaths have been reported. By adopting a structured approach, as suggested in these guidelines, early diagnosis and successful treatment will minimise the need for systemic treatments, reduce morbidity and the risk of poor outcomes.

Etiology of Breast Implant-Associated Anaplastic Large Cell Lymphoma (BIA-ALCL): Current Directions in Research

Simple Summary

The first report of breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) was in 1997. Although BIA-ALCL develops around breast implants, it is considered a cancer of the immune system and not a cancer of the breast ducts or lobules. Nearly all confirmed cases to date have been associated with textured surface (versus smooth surface) breast implants. As physicians have become more aware of BIA-ALCL, so has the number of reported cases, although the number of cases remains low. In most instances, patients have an excellent prognosis following removal of the breast implant and its surrounding fibrous capsule. Many theories on factors that trigger the development of BIA-ALCL, such as the presence of bacteria, have been proposed. However, the sequence(s) of events that follow the initial triggering event(s) have not been fully determined. This article summarizes the current scientific knowledge on the development of BIA-ALCL.

Abstract

Breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) is a CD30-positive, anaplastic lymphoma kinase-negative T-cell lymphoma. Where implant history is known, all confirmed cases to date have occurred in patients with exposure to textured implants. There is a spectrum of disease presentation, with the most common occurring as a seroma with an indolent course. A less common presentation occurs as locally advanced or, rarely, as metastatic disease. Here we review the immunological characteristics of BIA-ALCL and potential triggers leading to its development. BIA-ALCL occurs in an inflammatory microenvironment with significant lymphocyte and plasma cell infiltration and a prominent Th1/Th17 phenotype in advanced disease. Genetic lesions affecting the JAK/STAT signaling pathway are commonly present. Proposed triggers for the development of malignancy include mechanical friction, silicone implant shell particulates, silicone leachables, and bacteria. Of these, the bacterial hypothesis has received significant attention, supported by a plausible biologic model. In this model, bacteria form an adherent biofilm in the favorable environment of the textured implant surface, producing a bacterial load that elicits a chronic inflammatory response. Bacterial antigens, primarily of Gram-negative origin, may trigger innate immunity and induce T-cell proliferation with subsequent malignant transformation in genetically susceptible individuals. Although much remains to be elucidated regarding the multifactorial origins of BIA-ALCL, future research should focus on prevention and treatment strategies, recognizing susceptible populations, and whether decreasing the risk of BIA-ALCL is possible.

UK Guidelines on the Diagnosis and Treatment of Breast Implant-Associated Anaplastic Large Cell Lymphoma (BIA-ALCL) on behalf of the Medicines and Healthcare products Regulatory Agency (MHRA) Plastic, Reconstructive and Aesthetic Surgery Expert Advisory Group (PRASEAG)

Breast implant-associated anaplastic large cell lymphoma (BIA-ALCL) is an uncommon T cell Non-Hodgkin Lymphoma (NHL) associated with breast implants. Raising awareness of the possibility of BIA-ALCL in anyone with breast implants and new breast symptoms is crucial to early diagnosis. The tumour begins on the inner aspect of the peri-implant capsule causing an effusion, or less commonly a tissue mass to form within the capsule, which may spread locally or to more distant sites in the body. Diagnosis is usually made by cytological, immunohistochemical and immunophenotypic evaluation of the aspirated peri-implant fluid: pleomorphic lymphocytes are characteristically anaplastic lymphoma kinase (ALK) negative and strongly positive for CD30. BIA-ALCL is indolent in most patients but can progress rapidly. Surgical removal of the implant with the intact surrounding capsule (total en-bloc capsulectomy) is usually curative. Late diagnosis may require more radical surgery and systemic therapies and although these are usually successful, poor outcomes and deaths have been reported. By adopting a structured approach, as suggested in these guidelines, early diagnosis and successful treatment will minimize the need for systemic treatments, reduce morbidity and the risk of poor outcomes.