Breast implant-associated anaplastic large-cell lymphoma: a systematic literature review
Linfoma anaplásico de grandes células relacionado ao implante mamário: revisão sistemática da literatura

Epidemiology

Data on the prevalence and incidence of BIA-ALCL were collected. The estimated prevalence in the United States between 1996 and 2015 was 1:30,000 textured implants². De Jong et al. 2008⁸ reported that the estimated incidence of BIA-ALCL was 1-3 cases per 1 million breast implants per year⁶. A retrospective descriptive study from the Italian Ministry of Health indicated that the estimated incidence of BIA-ALCL in Italy was 2.8:100,000 at-risk patients (with implants) in 2015 and 2.3:100,000 at-risk patients in 2016⁷. The Australian Therapeutic Products Administration reported that the incidence of BIA-ALCL in December 2016 ranged from 1:1,000 to 1:10,000 textured implants⁷. A study found that the estimated risk of BIA-ALCL ranged between 1-500,000 and 1-3 million breast implants, and the incidence in the United States, based on the literature and institutional database, was 2.03:1 million people per year⁷.

The incidence of BIA-ALCL varies worldwide (much lower in Asia than that in Western countries, lower in Brazil and Europe and higher in Australia and New Zealand)², which may be related to the frequency of using smooth or textured implants in each country and genetic predisposition/race².

The incidence and prevalence of BIA-ALCL have increased, which may be due to increased number of breast implant surgeries^9,10.

Breast implant characteristics

In 2017, the Food and Drug Administration provided 359 medical reports on BIA-ALCL; most of them included patients with textured implants. Of the 232 cases with implant type information, textured and smooth implants were used in 203 and 28 patients, respectively^4,9. All 18 cases reported in a retrospective study from the United Kingdom involved textured implants⁶. Ninety-five patients were included in the systematic review analyzed in this study, and most of them received textured implants⁵. Another study reported five cases of BIA-ALCL in a cohort of 17,656 women with textured Natrelle implants (Biocell), corresponding to a prevalence of at least 1:3,500 textured Natrelle implants².

Although these cases included smooth and textured implants, the latter was used at some point by patients in almost all cases¹¹. Some patients underwent multiple implant replacement surgeries, which may limit determining the type of implant used¹¹.

Cases potentially caused by smooth implants may be due to incomplete clinical history¹¹. The reviewed meta-analysis reported that implant surface was textured in 17 (21.3%) and was unknown in 63 (78%) patients, and none of them were related to smooth surface implants. The most common brands were McGhan (11 patients, 14%), Mentor (7%), and PIP (hydrogel, 3%). The brands were unknown in 76% patients¹².

A retrospective descriptive study reported that all patients (N = 55) diagnosed with BIA-ALCL in Australia and New Zealand from 2007 to 2016 had textured implants. The reviewed meta-analysis indicated that the risk of BIA-ALCL was 14.11 times higher for Biocell textured implants (95% CI, 1.2-561.46; p = 0.0005) and 10.84 times higher for Silimed textured polyurethane implants (95% CI, 1.0-566.34; p = 0.05) as compared to Siltex textured implants. The brands with the highest estimated risk by the number of implants were Biocell (1:3,817), Silimed (1:7,788), and Siltex (1:60,631). The risk from polyurethane implants in this study may be overestimated because of the lower availability of this type of implant in the Australian and New Zealand markets as compared with the other two textured implants¹.

A retrospective descriptive study from the Italian Ministry of Health showed that 21 cases involved textured silicone implants (polyurethane implant in one case) and one case included a double lumen (saline/silicone) implant with textured surface⁹. Fifteen patients received breast implants before the diagnosis of BIA-ALCL⁹. Although >97% implants used in Italy are textured and the 22 cases of BIA-ALCL were associated with textured silicone implants, our sample was not representative enough to correlate the disease pathogenesis with the type of implant⁷.

With current advancements in breast augmentation and reconstruction, the proportion of textured implants is significantly higher than that of smooth implants, which may partly explain why most cases involved textured implants⁶. Reported cases are limited to implants used in the United States because most BIA-ALCL studies come from this country. Therefore, further studies are necessary to correlate this disease with the type of implant in other countries¹¹.

BIA-ALCL has been associated with silicone and saline implants⁹. The analyzed systematic review found that this type of cancer occurred in 61% of patients with silicone implants and 39% with saline implants. This result may be related to the increased use of textured silicone implants⁵. The materials used in implants were silicone (32, 40%), saline (28, 35%), polyurethane (2), combination of silicone and saline (1), and other materials (17)¹². Several authors have found that the number of implants was similar between different filling materials¹¹. The analyzed literature review found no significant differences in the number of saline and silicone implants¹⁰.

Pathophysiology

The pathophysiology of BIA-ALCL is unknown^4,6,10. The development of this cancer may be due to several factors, including bacterial biofilm growth, textured implant surface, immune response, and patient genetics^1,5.

Textured implants and the breast microbiome (especially Gram-negative bacteria) can potentially trigger malignant transformation by increasing the risk of chronic antigen-driven inflammation (predominantly via Th1 and Th17 lymphocytes)^1,4,5,9,10. The central hypothesis is that concavities on textured implants predispose to subclinical infection and/or chronic inflammation because the larger surface area and embossed surface increase bacterial adhesion and biofilm formation as compared with smooth implants^1,6,11.

Hu et al. 2015¹³ analyzed the biofilm formed in humans and pigs, which found that lymphocytic response was higher in textured implants than that in smooth implants. In addition, most cells present in the infiltrate were T lymphocytes, and the number of B and T cells linearly increased with the increasing bacterial load⁴.

Honghua et al. 2016¹⁴ reported that the prevalence of Gram-negative Ralstonia spp. increased in the implant capsule microbiome collected from patients with BIA-ALCL as compared with controls^5,6. A study analyzed healthy and cancerous breast tissues in patients with BIA-ALCL and found that both tissues had similar microbiome; however, the number of bacteria was significantly lower in healthy tissues⁵.

A study found that Gram-negative bacteria were identified in ALCL, whereas Gram-positive bacteria were isolated from capsular contractures¹². Another study suggested that nosocomial infection was the etiologic agent due to the clustering pattern and the presence of multiple events¹. The time of disease development supports this hypothesis because it is similar with the time of onset of inflammation, immune activation, and transformation to cancer triggered by biofilms. Moreover, no cases of BIA-ALCL were found in the years preceding the use of textured implants⁵. Silicon particles embedded in implant capsules have been suggested to possibly initiate an inflammatory response¹¹.

Host genetic factors appear to play a role in this disease, including Janus Kinase and Signal Transducer and Activator of Transcription 3 (JAK-STAT3) mutations related to cell proliferation, differentiation, and apoptosis, mutations in tp53 and DNA methyltransferase 3A (DNMT3A), and genetic alterations associated with chronic inflammation^2,5,10.

Despite the increasing evidence that chronic inflammation is an etiological factor in this type of cancer, conclusions should be cautiously draw because this disease is poorly understood⁶.