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Cystic neutrophilic granulomatous mastitis: sensitivity and specificity of 16s rRNA and Sanger sequencing for Corynebacterium spp
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  1. Ellen Yang1,
  2. Robert Kozak2,
  3. Sharon Nofech-Mozes1,2,
  4. Elsa Salvant3,
  5. Ekaterina Olkhov-Mitsel2,
  6. Elzbieta Slodkowska1,2,
  7. Anna Plotkin1,2,
  8. Wedad Hanna1,2,
  9. Fang-I Lu1,2
  1. 1 Department of Laboratory Medicine and Pathobiology, University of Toronto, Toronto, Ontario, Canada
  2. 2 Precision Diagnostics and Therapeutics Program (Laboratory Medicine), Sunnybrook Health Sciences Centre, Toronto, Ontario, Canada
  3. 3 Sunnybrook Research Institute, Sunnybrook Health Sciences Centre, Toronto, Ontario, Canada
  1. Correspondence to Dr Fang-I Lu, Department of Laboratory Medicine and Pathobiology, University of Toronto, Toronto M5S, Ontario, Canada; fangi.lu{at}sunnybrook.ca

Abstract

Aims Cystic neutrophilic granulomatous mastitis (CNGM) is a subtype of granulomatous mastitis (GM) associated with Corynebacterium spp infection. We aimed to analyse the prevalence of Corynebacteria in CNGM and non-CNGM cases.

Methods Breast specimens diagnosed as granulomatous inflammation between 2010 and 2020 were reviewed to identify a CNGM cohort and a non-CNGM cohort. Polymerase chain reaction-based identification of Corynebacteria by 16S ribosomal RNA (16S rRNA) primers, followed by confirmatory Sanger sequencing (SS), was performed on all cases. Clinical, radiological and microbiology data were retrieved from the electronic patient records.

Results Twenty-eight CNGM cases and 19 non-CNGM cases were identified. Compared with the non-CNGM cohort, patients in the CNGM cohort were more likely to be multiparous (p=0.01), breast feeding (p=0.01) and presenting with a larger breast mass (p<0.01), spontaneous drainage (p=0.05) and skin irritation (p<0.01). No significant difference in the prevalence of Corynebacteria between the cohorts (7% vs 11%, p=0.68) by microbiological culture was identified. Compared with microbiology culture, the sensitivity and specificity of each Corynebacterial detection method were 50% and 81% for Gram stain, and 25% and 100% for 16S rRNA combined with SS. Regardless of the diagnosis, patients positive for Corynebacteria were more likely to have a persistent disease (p<0.01).

Conclusion CNGM presents as a large symptomatic breast mass in multiparous breastfeeding women. The importance of adequate sampling and repeated microbiology culture in conjunction with sequencing on all GM cases with persistent disease is paramount.

  • Breast Diseases
  • Corynebacterium
  • DIAGNOSIS

Data availability statement

All data relevant to the study are included in the article or uploaded as supplementary information.

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WHAT IS ALREADY KNOWN ON THIS TOPIC

  • Cystic neutrophilic granulomatous mastitis (CNGM) is more likely to occur in breastfeeding and multiparous women, and is thought to be associated with Corynebacterial infection.

WHAT THIS STUDY ADDS

  • Histological findings of CNGM may not adequately predict Corynebacterial infection due to sampling issues. However, Corynebacterial infection is associated with worse clinical outcomes.

HOW THIS STUDY MIGHT AFFECT RESEARCH, PRACTICE OR POLICY

  • No optimal testing modality currently exists for the detection of Corynebacterium. Repeated microbiology culture in conjunction with sequencing should be considered in cases of persistent or recurrent granulomatous mastitis, regardless of the histological morphology.

Introduction

Cystic neutrophilic granulomatous mastitis (CNGM) is an uncommon subtype of granulomatous mastitis (GM), characterised by neutrophilic and lipogranulomatous inflammation surrounding cystic spaces or lipid vacuoles.1 These spaces occasionally contain rod-shaped, Gram-positive bacilli, with the current literature suggesting Corynebacterium spp as the leading causative organism.1–3 It was first described by Paviour et al as lipogranulomatous inflammation centred around coryneform bacteria, and a causal role of Corynebacterium was postulated due to its deep location within the breast tissue, even though it has previously been known as normal skin flora.4 Taylor et al also identified suppurative granulomas accompanied by Gram-positive bacilli, leading to the conclusion that Corynebacterium species had a strong association with GM.1

Clinically, CNGM often presents as a breast mass with nipple discharge, pain and erythema in women of reproductive age.2–4 Both its clinical and radiological presentations can mimic and raise concern for invasive carcinoma. It has been associated with breast feeding in which the bacterium is postulated to gain entry via lactiferous ducts during lactation.1 CNGM has a chronic debilitating course often requiring a prolonged course of treatment even after symptom cessation.2–4 Management of CNGM is highly variable and often involves antibiotics with or without oral corticosteroids, and rarely surgical resection of breast mass.2–4 Previous studies have shown its notable recurrence rate, ranging from 4% to 25%, especially in patients with a history of cigarette smoking and isolation of Corynebacterium kroppenstedtii.2–5

The definition of CNGM is still evolving and there are no universally accepted diagnostic criteria, especially given that Corynebacterial infection can be challenging to prove due to its fastidious nature by routine culture methods. As a result, the diagnosis of CNGM is often missed or delayed. Fujii et al suggested that the real-time PCR analysis using DNA templates extracted from formalin-fixed paraffin-embedded (FFPE) sections can be used to detect the Corynebacterium genome.6 There has been inconsistent success with 16S ribosomal RNA (16S rRNA) sequencing as shown by Gautham et al.3 Using a primer targeting the V5–V6 region that was thought to be conserved in Corynebacterium spp, the positivity rate in histologically diagnosed CNGM cases was found to be 52.2%.7 However, existing literature has not examined and compared all available methods for Corynebacterium identification in terms of sensitivity and specificity and has inconsistently identified different methods as the reference standard of identification. In addition, current studies have not compared the clinicopathological findings of patients with features of CNGM with those with GM, but without features of CNGM. Tariq et al showed that 68.7% of granulomatous lobular mastitis (GLM) cases were positive for C. kroppenstedtii by 16S rRNA SYBR real-time PCR, but only 56.7% of GLM cases showed definitive histological features of CNGM.8 The GLM group was compared with 10 cases of non-granulomatous abscess in the control group, which were negative for C. kroppenstedtii DNA.8

In this study, we examined the clinicopathological features of CNGM versus non-CNGM cases, including their association with Corynebacteria, and compared the sensitivity and specificity of the various identification methods for Corynebacteria.

Materials and methods

A retrospective search of breast specimens with a diagnosis of granulomatous inflammation identified 82 cases from 2010 to 2020. Seventy-seven cases with available HE-stained slides were reviewed by two pathologists specialising in breast pathology and one anatomical pathology resident to reach a consensus on the histologically diagnosed CNGM cohort and non-CNGM cohort. The following histological features were examined: (1) granulomatous inflammation, (2) lipid vacuoles in the form of cystic spaces within the granulomatous inflammation and (3) neutrophils rimming the cystic spaces/lipid vacuoles. Rod-shaped, Gram-positive bacteria were occasionally identified within the cystic spaces/lipid vacuoles on HE-stained (and/or Gram-stained if available) slides, but were not required for the diagnosis CNGM. The case was categorised as CNGM when all three features were present and a consensus was reached by all reviewers (figures 1 and 2). The case was categorised as non-CNGM when one or two features were present. All cases that lacked all of the above histological features were excluded.

Figure 1

H&E-stained slide of cystic neutrophilic granulomatous mastitis (×20 magnification). Granulomatous inflammation surrounds cystic spaces/lipid vacuoles that are lined by neutrophils.

Figure 2

Gram-stained slide of cystic neutrophilic granulomatous mastitis (×40 magnification). Rod-shaped, Gram-positive bacteria are identified in the cystic spaces.

Areas diagnostic of CNGM were marked on HE-stained slides, and the circled areas were then microdissected from unstained 10 µm-thick FFPE tissue sections which were deparaffinised, dehydrated, air dried and then subjected to DNA extraction using the PinPoint slide DNA isolation system. DNA concentration was measured by the NanoDrop spectrophotometer (Thermo Fisher Scientific, Waltham, Massachusetts, USA). DNA was amplified by AmpliTaq Gold 360 (Thermo Fisher Scientific) on the Rotorgene RG 6000 (Corbet Research, Saffron Walden, UK), as per protocol in the Molecular Microbiology laboratory for 16S rRNA sequencing at Sunnybrook Health Sciences Centre. For each sample, PCR was performed in duplicate. Non-DNA template controls and Corynebacterium positive DNA controls were included in each run to monitor PCR contamination issues and confirm PCR positive samples. 16S rRNA sequencing was performed on all samples to facilitate bacterial identification.9 PCR was performed using primers for the 16S intragenic region of the bacterial rRNA gene as has been described previously.10 Following this, amplicons were purified and Sanger sequencing (SS) was performed to determine the bacterial species present using the following primers: 16S-F: AGA GTT TGA TCA TGG CTC AG; 16S-R: GGA CTA CCA GGG TAT CTA AT. Sequencing was performed on all samples where an amplicon was generated through the centre for Ap-plied Genomics facility using dual ABI 3730XL instruments. The resulting sequences were queried in the GenBank database using BLASTn (accessed on June 2021). For this study, we considered the generation of any amplicon by the 16S PCR as a non-specific screening test for both cohorts prior to confirmatory SS.

Where bacterial culture was performed, the aspirate was planted on sheep blood agar enriched with 0.1% Tween 80, in addition to standard media, and incubated at 37°C. Bacterial identification was performed using matrix-associated laser desorption ionisation-time of flight (MALDI-TOF) mass spectrometry (MS).11

Clinical features including patient age, clinical presentation, gravida status, breastfeeding history, smoking history, a history of breast conditions, treatment modalities and recovery course, all of which were retrieved from the electronic patient records, along with radiological features and microbiology workup results.

Statistical analysis was performed using SPSS V.26.0 (International Business Machines, Armonk, New York, USA). χ2 test was used to calculate differences in the clinical presentation, treatment outcome and the prevalence of Corynebacteria between CNGM versuss non-CNGM cohorts. Values of p<0.05 were considered statistically significant. Sensitivity and specificity were calculated using microbiology culture as the reference standard.

Results

Of 77 breast specimens with a diagnosis of granulomatous inflammation, 28 CNGM cases and 19 non-CNGM cases were identified. The CNGM cohort all, at least focally, demonstrated aggregates of multinucleated histiocytes surrounding cystic spaces/lipid vacuoles, with neutrophils rimming the periphery of the cystic spaces/lipid vacuoles, with or without the presence of rod-shaped Gram-positive bacteria within the cystic spaces/lipid vacuoles. The non-CNGM cohort demonstrated some but not all of these features, most commonly having only granulomatous inflammation with or without neutrophils and no cystic spaces/lipid vacuoles. The rest of the cases did not meet our preset diagnostic criteria for CNGM and non-CNGM and were excluded.

Clinical presentations

The median age for CNGM was 39.5 years (ranging from 29 to 64 years). Most patients were multiparous (79%) and had a breastfeeding history (71%). Few had a smoking history (14%) and a history of breast conditions (21%), including a patient with previous invasive lobular carcinoma, 1 case of breast reduction, 2 cases with benign breast lesion resections, and 2 cases with previous bacterial mastitis. Most presented with a breast mass (93%) with size ranging from 1.6 to 14 cm, associated with pain (82%), spontaneous discharge (61%) and skin irritation (89%).

The median age for non-CNGM was 40 years (ranging from 24 to 77 years). Some patients were multiparous (47%) and had a breastfeeding history (47%). Forty-two per cent of the non-CNGM cohort had a previous breast condition, including 2 patients with invasive carcinoma status post resection and 6 patients with mastitis or breast abscess. Most presented with a breast mass (74%) with size ranging from 0.8 to 7.4 cm, associated with pain (74%), spontaneous discharge (32%) and skin irritation (37%).

The CNGM cohort was more likely to be multiparous (p=0.01) with a history of breast feeding (p=0.01), and presenting with a larger breast mass (p<0.01), spontaneous drainage (p=0.05) and skin irritation (p<0.01). There was no statistical difference in age, smoking history and presentation with a painful mass (table 1).

Table 1

Comparison between cystic neutrophilic granulomatous mastitis (CNGM) and non-CNGM (non-CNGM) cohorts

Microbiology studies

Gram stain slides were available for review in 22 (79%) of CNGM and 11 (58%) of non-CNGM cases. Microbiology culture of fresh tissue was performed on 19 (68%) CNGM and 8 (42%) non-CNGM cases. 16S rRNA of FFPE tissue were done on all CNGM and non-CNGM cases, with SS performed on the 7 CNGM and 10 non-CNGM with a positive 16S rRNA result (table 1).

Out of 5 CNGM cases with a positive microbiology culture and/or sequencing for any bacterium, 2 CNGM cases were positive for Corynebacteria by microbiology culture (cases 1 and 2). SS failed to identify Corynebacteria in 1 of the 2 Corynebacterial culture-positive cases. The non-Corynebacterial organisms identified included Sphingomonas echinoides (case 3), Mycobacterium abscessus (case 4) and Staphylococcus lugdunensis (case 5). On histological examination, 6 cases (27% of cases with Gram stain) demonstrated Gram-positive organisms, including all cases positive for Corynebacterium (table 2).

Table 2

Clinical, radiological and pathological features of cystic neutrophilic granulomatous mastitis (CNGM) cohort with positive microbiological studies

Two non-CNGM cases were positive for Corynebacteria by microbiology culture (cases 2 and 3) out of 8 non-CNGM cases with a positive microbiology culture and/or sequencing for any bacterium. SS failed to identify both Corynebacterial culture-positive cases. The non-Corynebacterial organisms identified included Prevotella spp, Peptoniphilus asaccharolyticus and Atopobium minutum (case 1), Peptostreptococcus anaerobius and Dicentra spp (case 4), Staphylococcus saccharolyticus (case 5), Peptoniphilus harei (case 6), Bacillus spp (case 7) and Sphingomonas spp (case 8). On histological examination, 1 case (9% of cases with Gram stain) demonstrated Gram-positive organisms; none of the cases positive for Corynebacterium demonstrated Gram-positivity (table 3).

Table 3

Clinical, radiological and pathological features of non-cystic neutrophilic granulomatous mastitis/granulomatous mastitis (non-CNGM) cohort with positive microbiological studies

The prevalence of Corynebacteria was not significantly different between these cohorts by microbiological culture (p=0.68) or by SS (p=0.44). However, the non-CNGM cohort had more bacteria (including Corynebacterium and non-Corynebacterium) than the CNGM cohort by SS (p=0.04).

The rate of a positive result for the various detection methods was 21% (7/33) for Gram stain, 36% (17/47) for 16S rRNA alone, 41% (7/17) for 16S rRNA followed by SS, and 30% (8/27) for microbiology culture for any culturable bacteria (table 1). Using Corynebacterial microbiology culture as the reference standard, the sensitivity and specificity of Corynebacterial detection by each method were 50% and 81% for Gram stain, and 25% and 100% for 16S rRNA combined with SS (table 4).

Table 4

Sensitivity and specificity of identification methods for Corynebacterium spp (using corynebacterial culture positivity as a reference standard)

Treatment and outcome

For the CNGM cohort, 21 patients (75%) received antibiotic treatment, with 12 patients (43%) receiving more than 1 type of antibiotics. Six patients (21%) also received concurrent corticosteroids. The most frequently prescribed antibiotic was cefalexin (48%), followed by doxycycline (33%). Therapeutic drainage was performed in 5 cases (18%). Complete resolution was achieved in 13 patients (46%), taking 4.6 months on average. Three patients (10%) had a recurrence in the ipsilateral or contralateral breast, with a mean time-to-recurrence of 13 months (table 2).

For the non-CNGM cohort, 9 patients (47%) received antibiotic treatment, with 4 patients (21%) receiving more than 1 type of antibiotics; no patients received concurrent corticosteroids. The most frequently prescribed antibiotic was clavulin (44%), followed by cefalexin (33%). Therapeutic drainage was performed in 5 patients (26%). Complete resolution was achieved in 16 patients (84%), taking 11.2 months on average. No patient had a recurrence in the ipsilateral or contralateral breast (table 3).

There was no statistical significance between the CNGM and non-CNGM cohorts for complete resolution (p=0.10) and recurrence (p=0.14). However, regardless of the histological diagnosis, patients positive for Corynebacteria were more likely to have a persistent disease with less complete resolution (p<0.01), although they were not significantly more likely to recur (p=0.12) (table 5).

Table 5

Outcomes of Corynebacteria-positive versus Corynebacteria-negative cases

Discussion

There is a significant overlap in morphology between CNGM and other forms of GM. A stepwise assessment of granulomatous inflammation of the breast has been proposed, in which histological features, Gram stain and microbiological studies are combined to improve diagnostic certainty.5 However, our study suggests that the distinctions between CNGM and other forms of GM may be clinically irrelevant. While the CNGM cohort was significantly more likely to be breast feeding and multiparous than the non-CNGM cohort, and to present with symptomatic mastitis including larger breast mass, spontaneous nipple discharge and skin irritation, there were no significant differences in the rate of Corynebacteria positivity or clinical outcomes between these two cohorts. Instead, poor clinical outcomes were associated with Corynebacterial infection, highlighting the importance of adequate sampling and microbiology studies on cases initially diagnosed as non-CNGM but with persistent disease, in order not to miss the organisms and to initiate the appropriate treatment.

Due to the retrospective nature of the study, not all histological Gram stain and/or microbiology culture were available for review. The limited tissue remaining in the tissue block also prevented retrospective examination. Future prospective studies using all available testing modalities (culture, 16S rRNA sequencing) should be considered, as the awareness and clinical suspicion for CNGM may be raised at the time of clinical examination. Though some of the Gram stain data are missing, the percentage of cases with Gram stain performed is relatively similar between the CNGM and non-CNGM cohorts— 79% (22/28) in the CNGM group, and 58% (11/19) in the non-CNGM group (table 1). In addition, our study was the first to compare the sensitivity and specificity of Gram stain vs 16S rRNA and SS to detect Corynebacteria, using microbiology culture as the reference standard, based on cases that had both Gram stain and SS results available. Although 16S rRNA combined with SS outperformed Gram stain as the more specific (100%) detection method, its sensitivity was only 25%, limiting its routine use for the diagnosis of Corynebacterial infection. Overall, our findings suggest that, when there is strong clinical suspicion for an infectious aetiology, 16S rRNA combined with SS, in conjunction with culture, should be considered regardless of Gram stain results.

Current literature agrees that microbiological evidence of Corynebacterium species and/or histochemical identification is challenging. The fastidious nature of these bacteria is explained by their lipophilic cell membrane lacking mycolic acids.8 12 There are several alternative methods of identifying Corynebacteria to improve diagnostic certainty. These include the nanopore sequencing method, MALDI-TOF MS and 16S rRNA and rpoB gene sequence amplification with PCR.12–16 Furthermore, our study identified several non-Corynebacterial organisms by microbiology culture and/or SS. Many of these organisms caused a false-positive 16S rRNA result, highlighting the need for a more specific PCR probe than 16S rRNA. Some organisms, such as Sphingomonas spp, Peptoniphilus harei and Staphylococcus saccharolyticus, were likely environment or skin contaminants that were acquired during sample collection. Unfortunately, a common and unavoidable problem working with FFPE tissue is the non-sterile handling of the specimen blocks. It is imperative that the interpretation of the histology, Gram stain, culture and sequencing results should be made in the correct clinical context. In addition, given that the current literature mostly associated Corynebacterium with CNGM, we only performed 16S RNA followed by confirmatory SS with the aim of detecting Corynebacterium. However, our sequencing results identified several non-Corynebacterial organisms within the same patient, suggesting that CNGM may in-deed be associated with a polymicrobial population. Novel techniques using metagenomic sequencing have demonstrated potential in identifying C. kroppenstedtii from cases of GLM and has shown greater sensitivity than traditional culture methods.16 17 Metagenomic sequencing has advantages over 16S rRNA sequencing methods in that it can detect a greater range of pathogens present in a sample, and often provide better identification of the microorganism. However, the high cost and technical sophistication has limited its wide scale application. Nonetheless, metagenomic sequencing offers promise as a future tool for investigating CNGM cases.

Empirical antimicrobial therapies are frequently the initial treatment option to cover for Staphylococcus spp as a conventional cause of mastitis. Because of their lipophilic nature, lipophilic antibiotics including doxycycline, trimethoprim-sulfamethoxazole, clarithromycin and rifampicin are proposed to be more effective against Corynebacteria with the presence of lipogranulomas.11 Susceptibility to rifampin, tetracycline, trimethoprim-sulfamethoxazole, linezolid and vancomycin was found in a study of 11 breast tissue and aspirate specimens that grew C. kroppenstedtii in culture.18 Although the use of steroids was initially proposed for the treatment of GM and its association with autoimmune disease, treatment with steroids alone or in combination with antibiotics has also been used for CNGM.5 18 The lack of standardised treatment proves to add to the challenges of determining the effectiveness of each treatment’s modalities. Our study highlighted the need for studies on larger samples to elucidate the optimal therapeutic regimens for CNGM.

Conclusions

In our study, patients with CNGM were more likely to be breast feeding and multiparous, and to present with a symptomatic breast mass than patients with GM/non-CNGM. Corynebacterium spp were detected in 7% of CNGM and 11% of non-CNGM cases and their presence was associated with worse clinical outcomes regardless of the histological diagnosis, highlighting the importance of adequate sampling and microbiology studies on all GM cases with persistent disease. The clinical significance of organisms other than Corynebacterium spp in CNGM and the optimal therapeutic regimen for CNGM remains uncertain. However, it was discovered that using microbiology culture as the reference standard, 16S rRNA followed by SS was the most specific detection method for Corynebacterium spp, although the low sensitivity of this testing method limits its routine use.

Data availability statement

All data relevant to the study are included in the article or uploaded as supplementary information.

Ethics statements

Patient consent for publication

Ethics approval

The study was approved by the Research Ethics Board of Sunnybrook Health Sciences Centre, Toronto, Canada.

References

Footnotes

  • Handling editor Vikram Deshpande.

  • Contributors All authors contributed to this study, including conception and design (EY, RK, SN-M, ESl, AP, WH and F-IL), study conduct (EY, RK, SN-M, ESa, EO-M, F-IL), data analysis (EY, RK, F-IL) and manuscript write-up (EY, RK, ES, SN-M, ESl, AP, WH and F-IL). Dr. Fang-I Lu accepts full rsponsibility for the work, conduct and publication of the study and have access to the research data.

  • Funding The authors have not declared a specific grant for this research from any funding agency in the public, commercial or not-for-profit sectors.

  • Competing interests None declared.

  • Provenance and peer review Not commissioned; externally peer reviewed.