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Usefulness of core needle biopsy for the diagnosis of thyroid Burkitt’s lymphoma: a case report and review of the literature

Abstract

Background

Thyroid lymphomas are an exceptional finding in patients with thyroid nodules. Burkitt’s lymphoma is one of the rarest and most aggressive forms of thyroid lymphomas, and its prognosis depends on the earliness of medical treatment. Given the rarity of this disease, making a prompt diagnosis can be challenging. For instance, fine-needle aspiration (FNA) cytology, which is the first-line diagnostic test that is performed in patients with thyroid nodules, is often not diagnostic in cases of thyroid lymphomas, with subsequent delay of the start of therapy.

Case presentation

Here we report the case of a 52-year-old woman presenting with a rapidly enlarging thyroid mass. Thyroid ultrasonography demonstrated a solid hypoechoic nodule. FNA cytology was only suggestive of a lymphoproliferative disorder and did not provide a definitive diagnosis. It is core needle biopsy (CNB) that helped us to overcome the limitations of routine FNA cytology, showing the presence of thyroid Burkitt’s lymphoma. Subsequent staging demonstrated bone marrow involvement. The early start of an intensive multi-agent chemotherapy resulted in complete disease remission. At 60 months after the diagnosis, the patient is alive and has not had any recurrence.

Conclusions

Clinicians should be aware that thyroid Burkitt’s lymphoma is an aggressive disease that needs to be treated with multi-agent chemotherapy as soon as possible. To diagnose it promptly, they should consider to order/perform a CNB in any patient with a rapidly enlarging thyroid mass that is suspicious for lymphoma.

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Background

Thyroid nodules are an extremely common occurrence. It is estimated that up to 67% of the population has a thyroid nodule that could be detected by ultrasonography [1]. Thyroid cancer occurs in 7–15% of cases depending on risk factors such as age, sex, family history, and radiation exposure [2]. Thyroid lymphoma accounts for less than 5% of all thyroid cancers. Nevertheless, clinicians should know how to manage this extremely rare occurrence, as the prognosis of the most aggressive subtypes depends on the earliness of the diagnosis and the subsequent start of multiagent chemotherapy regimens.

Routine medical work-up of patients with thyroid nodules is based on the evidence that fine-needle aspiration (FNA), preferably performed under ultrasonographic guidance and with rapid on-site evaluation by a cytopathologist [3], is the most sensitive and cost-effective method to assess their nature and/or the need for surgery [2, 4,5,6]. By contrast, FNA has a low accuracy for the diagnosis of thyroid lymphomas [7, 8], often leading to diagnostic surgery. It has been argued that in cases suspicious of thyroid lymphomas, core needle biopsy (CNB) could help to reduce diagnostic surgery [7] and, most importantly, to obtain earlier the diagnosis necessary to start life-saving treatment with multiagent chemotherapy.

Here we report the case of a woman with Burkitt’s lymphoma of the thyroid gland, where CNB helped us to overcome the limitations of routine FNA cytology and to prescribe the right medical treatment. We also performed a review of the literature and a search in Pubmed of other clinical cases of adult patients affected by Burkitt’s lymphoma of the thyroid gland. For this purpose, we used the combined terms “Burkitt”, “thyroid”, and “case”, and we selected only English written articles [9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24], while we excluded a few reports in other languages, such as Spanish [25,26,27,28], French [29, 30], and Japanese [31, 32].

Case presentation

A 52-year-old woman presented to our Endocrinology Unit with a growing thyroid mass, which had enlarged so rapidly she had become unable to wear her motorcycle helmet in the weeks prior to her visit. She suffered from Hashimoto’s thyroiditis for which she was taking levothyroxine. There was no history of neck irradiation or family history of thyroid cancer. On examination, there was a large, firm thyroid nodule on the right side of the neck, without palpable cervical lymphadenopathy. TSH was 4.79 μU/mL with FT3 and FT4 within the reference range. Otherwise, there was only a mild thrombocytopenia. Thyroid ultrasonography showed a solid hypoechoic nodule in the right lobe of the gland, with significant internal vascularity and absence of calcifications (Figure 1). FNA cytology with rapid on-site evaluation of the material adequacy showed that there were only atypical lymphoid cells with no thyrocytes and the specimens were considered suggestive of a lymphoproliferative disorder but insufficient to make a diagnosis, such that a CNB was scheduled for the following day.

Fig. 1
figure 1

Endocrine imaging of a patient with Burkitt’s lymphoma. Thyroid US showed a solid hypoechoic mass (a) with significant internal vascularity (b) and no calcifications. Core needle biopsy showed homogeneous medium-sized B cells infiltrating the thyroid (c, arrowhead), mitotic figures (c, asterisk), and scattered macrophages ingesting apoptotic cells (c, arrow), giving a “starry sky” appearance. The extent of thyroid infiltration can be appreciated on (d) where follicular cells are only those positively stained for TTF1 (thyroid transcription factor 1). The CT scan performed before treatment showed a 44x43x87 mm thyroid nodule (e), which disappeared at the CT scan performed one year after treatment completion (f)

After checking the blood coagulation profile, the patient underwent a CNB, which allowed histological/morphological tissue analysis. This showed that normal thyrocytes were virtually all replaced by homogeneous medium-sized lymphocytes with scanty blue cytoplasm, round nuclei, coarse chromatin, and multiple small nucleoli. There were frequent mitotic figures and scattered macrophages ingesting apoptotic cells, giving to the tissue section the so-called ‘starry sky’ appearance (Fig. 1). Overall, these features were consistent with the presence of a thyroid Burkitt’s lymphoma, and further investigations were ordered to confirm the diagnosis and evaluate the disease extent. A CT of chest and abdomen showed the 44x43x87 mm thyroid nodule with left tracheal deviation (Figure 1) without other visible masses or lymph nodes. Bone marrow biopsy showed almost 100% lymphoid infiltration, consisting of a population of intermediate-sized blast-like cells, with prominent nucleoli, which were replacing all normal cells. These cells expressed CD10, CD20, and were negative for Bcl2, CD34, and TdT. Altogether these results led us to the final diagnosis of stage IV Burkitt’s lymphoma [33].

The patient was admitted to our hospital’s Haematology Unit and was successfully treated with 3 cycles of Hyper-CVAD chemotherapy (cyclophosphamide, vincristine, doxorubicin and dexamethasone) completed in five months. The thyroid mass disappeared (Fig. 1) and the platelets returned to baseline levels. At 60 months after diagnosis the patient is alive, and remains disease-free at regular follow-up.

Discussion

Burkitt’s lymphoma is one of the rarest [34] and also most aggressive subtypes of thyroid lymphomas [11]. It is considered the fastest growing human tumor, with a cell doubling time of 24–48 h [33]. It arises from B cells, where a chromosomal translocation, more frequently t(8;14)(q24;q32) and less frequently either t(2;8)(p12;q24) or t(8;22)(q24;q11), leads to the deregulated expression of the oncogene C-Myc, which promotes cell cycle progression [35]. As a result, this lymphoma is characterized by the presence of monomorphic medium-sized B cells with a very high proliferation rate and increased apoptosis. To the best of our knowledge, 23 cases of thyroid Burkitt’s lymphoma have been described in the English medical literature [9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24] (Table 1). The majority of them (13 out of 23) were cases of Burkitt’s lymphoma with disseminated disease (stage III/IV). Among them, at least 5 patients (22%) died within the first 2 years of follow-up [11, 21, 22, 24] (Table 1). These were cases of age greater than 60 years, advanced disease, or disease onset complicated by cavernous sinus thrombosis (Table 1). Consistent with this, advanced age, poor performance status, advanced stage, and central nervous system or bone marrow involvement are considered the most relevant prognostic factors of a poor outcome in Burkitt’s lymphoma [35]. Therefore, starting chemotherapy as soon as possible is key for a complete response.

Table 1 Reported cases of thyroid Burkitt’s lymphomas

Unfortunately, given the rarity of this disease, making a prompt diagnosis can be challenging. The first aspect that should raise the suspicion of a thyroid lymphoma should be the presence of a rapidly growing goiter or nodule. It is estimated that 70% of patients with aggressive thyroid lymphomas complain of a rapidly expanding cervical mass that causes obstructive symptoms, such as dyspnea and dysphagia [8, 36]. In line with this figure, these symptoms were reported by 65% (15 out of 23) of patients with thyroid Burkitt’s lymphoma (Table 1). However, these symptoms are not specific and they might also be due to other conditions, such as anaplastic carcinoma or Riedel’s thyroiditis. Moreover, sometimes, the thyroid mass due to a lymphoma can be an incidental occurrence in patients with fever, malaise, weight loss, or hypothyroidism due to Hashimoto’s thyroiditis, as reported by [9, 16, 20]. Otherwise, there have been also a few reports of exceptional presentations such as a pathological fracture due to a secondary lytic lesion [13], and the onset of diplopia and headache due to a bilateral cavernous sinus thrombosis [24].

According to current guidelines [2, 6], ultrasonography is the first exam that should be performed in patients with a goiter or a thyroid nodule, and it should be generally followed by FNA cytology, whenever a solid thyroid nodule greater than 1-2 cm is detected. However, in case of a thyroid lymphoma, these procedures are often nondiagnostic. For instance, the ultrasound features of thyroid lymphomas, which include very low echogenicity, enhanced posterior echoes, increased vascularity, and lack of internal calcifications, are all aspecific [36]. In addition, as shown by the rapid on-site evaluation of our specimens, FNA cytology is often suggestive but insufficient to make a diagnosis of thyroid lymphoma. Apart from not providing adequate material, other pitfalls of FNA include the cytological similarities with thyroiditis and the high rate at which both pathologies occur simultaneously in the same gland, as 60–90% of lymphomas arise on a background of thyroiditis [36]. For these reasons, it has been argued that patients with suspected thyroid lymphomas require CNB or excision for diagnosis [8].

Tissue biopsies can provide the material necessary to assess tissue morphology and to perform a panel of immunostains, which should be the first aspects to evaluate when a Burkitt’s lymphoma is suspected [37]. In particular, typical morphological features of this lymphoma include the presence of homogeneous medium-sized lymphocytes with round nuclei, coarse chromatin and multiple small nucleoli, surrounded by a scanty blue cytoplasm with frequent small vacuoles and indistinct edges [38]. Another typical feature is the “starry sky” pattern [16], which is due to the presence of macrophages containing apoptotic tumor cells on a background of proliferating B cells. Then, to reach a final diagnosis of Burkitt’s lymphoma, immunohistochemical stainings should provide evidence that lymphomatous cells express CD19, CD20, CD10, and CD79a and no CD3, CD5, Bcl2, and TdT [37, 38]. Additional diagnostic criteria for Burkitt’s lymphoma include Ki67 positivity/proliferation index > 90%, light chain restriction, nuclear c-myc positivity at immunocytochemistry, and t(8;14)(q24;q32) by fluorescence in situ hybridization [38], as reported by [9, 11, 16, 17, 21,22,23] (Table 1).

Core needle biopsy (CNB) is an exam that is not routinely performed in the work-up of patients with thyroid nodules. This is ascribed to higher cost, technical requirements, and concerns about potential complications as compared to FNA [39]. In addition, also CNB can fail to diagnose follicular carcinomas [40], whose presence is diagnosed based on vascular invasion and/or capsular breakthrough [39]. Consistent with these issues, the AACE/ACE/AME guidelines suggest considering the use of CNB only in solid nodules with persistently inadequate cytology [6], and the ATA guidelines do not even recommend its use [2]. Nevertheless, our case reminds that CNB should not be dismissed as it can become extremely useful in cases of thyroid lymphomas, where it allows to obtain a specimen that is adequate for histological/morphological tissue analysis, as well as for other key diagnostic tests. This is supported also by our literature review showing that CNB (but no FNA) was able to provide the final diagnosis without additional exams [9, 11, 16, 17, 21,22,23] (Table 1). In particular, in the 23 reports of Burkitt’s lymphoma, FNA cytology was performed in 12 patients (52%) and was able to provide the diagnosis without core needle or open surgical biopsy only in one case [12] (Table 1). Overall, in the reported cases of thyroid Burkitt’s lymphoma, diagnosis was provided by core needle biospy (43%; 10 cases out of 23), open surgery (35%; 8 cases out of 23), incisional/open wedge biopsy (17%; 4 cases out of 23), rarely by FNA (1 case out of 23) [12] or biopsy of other sites of involvement, such as a renal mass (1 cases out of 23) [10] (Table 1).

In line with the concept that CNB should be the advised modality for thyroid lymphoma diagnosis, Sharma and colleagues have recently shown that CNB diagnostic sensitivity for detecting thyroid lymphomas is 93% [41]. This is in line with the results of Ha and colleagues, who found that CNB sensitivity for thyroid lymphoma was 94.7% with a positive predictive value of 100%, such that CNB was able to significantly reduce the rate of diagnostic surgery from 37.9 to 5.3%, as compared to FNA [7]. Interestingly, in a work comparing CNB to open surgical biopsy in patients with lymphoadenopathies, CNB turned out to have greater sensitivity for detecting malignancy, and it was also faster, cheaper and safer than the conventional surgical approach [42].

Having said that, current treatment of Burkitt’s lymphoma in adults is based on the delivery of short-duration, dose-intensive, multi-agent chemotherapy with minimization of treatment delays, and maintenance of serum drug concentrations over at least 48 to 72 h [35]. Some protocols, like the French LMB, the German BFM, and the CODOX-M/IVAC [43], have been adapted from pediatric regimens. Others, such the Hyper-CVAD regimen [44], which is the one we used, have been evaluated primarily in adults, but incorporate the principles found to be effective in pediatric populations [35]. Overall, with these regimens, 65 to 100% of patients achieve a complete response and 47 to 86% of patients maintain these remissions at least 1 year after treatment completion [35].

Conclusions

This case describes a patient with thyroid Burkitt’s lymphoma, which is a rare and highly aggressive thyroid malignancy that requires a prompt diagnosis in order to start as soon as possible life-saving multi-agent chemotherapy. In particular, our case highlights the usefulness of CNB for the diagnosis of thyroid lymphomas and reminds clinicians to order/perform it in any patient with a rapidly enlarging thyroid mass that is suspicious for lymphoma.

Abbreviations

AACE/ACE/AME:

American association of clinical endocrinologists/Association of clinical endocrinologists/Associazione medici endocrinologi

ATA:

American thyroid association

BFM:

Berlin-Frankfurt-Münster

CNB:

core needle biopsy

CODOX-M/IVAC:

cyclophosphamide, vincristine, doxorubicin, high-dose methotrexate/ifosfamide, etoposide, and high-dose cytarabine

CVAD:

cyclophosphamide, vincristine, doxorubicin, and dexamethasone

FNA:

fine needle biopsy

FT3:

free triiodothyronine

FT4:

free thyroxine

LMB:

lymphoma malignancy B

TSH:

thyroid stimulating hormone

References

  1. Tan GH, Gharib H. Thyroid incidentalomas: management approaches to nonpalpable nodules discovered incidentally on thyroid imaging. Ann Intern Med. 1997;126(3):226–31.

    Article  CAS  Google Scholar 

  2. Haugen BR, Alexander EK, Bible KC, Doherty GM, Mandel SJ, Nikiforov YE, Pacini F, Randolph GW, Sawka AM, Schlumberger M, et al. 2015 American Thyroid Association management guidelines for adult patients with thyroid nodules and differentiated thyroid Cancer the American Thyroid Association guidelines task force on thyroid nodules and differentiated thyroid Cancer. Thyroid. 2016;26(1):1–133.

    Article  Google Scholar 

  3. Witt BL, Schmidt RL. Rapid onsite evaluation improves the adequacy of fine-needle aspiration for thyroid lesions: a systematic review and meta-analysis. Thyroid. 2013;23(4):428–35.

    Article  Google Scholar 

  4. Burman KD, Wartofsky L. CLINICAL PRACTICE. Thyroid Nodules N Engl J Med. 2015;373(24):2347–56.

    Article  CAS  Google Scholar 

  5. Frates MC, Benson CB, Charboneau JW, Cibas ES, Clark OH, Coleman BG, Cronan JJ, Doubilet PM, Evans DB, Goellner JR, et al. Management of thyroid nodules detected at US: Society of Radiologists in ultrasound consensus conference statement. Radiology. 2005;237(3):794–800.

    Article  Google Scholar 

  6. Gharib H, Papini E, Garber JR, Duick DS, Harrell RM, Hegedus L, Paschke R, Valcavi R, Vitti P. No AAATFT: American Association of Clinical Endocrinologists, American College of Endocrinology, and Associazione Medici Endocrinologi medical guidelines for clinical Practice for the diagnosis and Management of Thyroid Nodules-2016 update. Endocr Pract. 2016;22:1–60.

    Article  Google Scholar 

  7. Ha EJ, Baek JH, Lee JH, Kim JK, Song DE, Kim WB, Hong SJ. Core needle biopsy could reduce diagnostic surgery in patients with anaplastic thyroid cancer or thyroid lymphoma. Eur Radiol. 2016;26(4):1031–6.

    Article  Google Scholar 

  8. Graff-Baker A, Sosa JA, Roman SA. Primary thyroid lymphoma: a review of recent developments in diagnosis and histology-driven treatment. Curr Opin Oncol. 2010;22(1):17–22.

    Article  Google Scholar 

  9. Thieblemont C, Mayer A, Dumontet C, Barbier Y, Callet-Bauchu E, Felman P, Berger F, Ducottet X, Martin C, Salles G, et al. Primary thyroid lymphoma is a heterogeneous disease. J Clin Endocrinol Metab. 2002;87(1):105–11.

    Article  CAS  Google Scholar 

  10. Iqbal Y, Al-Sudairy R, Abdullah MF, Al-Omari A, Crankson S. Non-Hodgkin lymphoma manifesting as thyroid nodules and cardiac involvement. J Pediatr Hematol Oncol. 2003;25(12):987–8.

    Article  Google Scholar 

  11. Ruggiero FP, Frauenhoffer E, Stack BC Jr. Thyroid lymphoma: a single institution's experience. Otolaryngol Head Neck Surg. 2005;133(6):888–96.

    Article  Google Scholar 

  12. Kalinyak JE, Kong CS, McDougall IR. Burkitt's lymphoma presenting as a rapidly growing thyroid mass. Thyroid. 2006;16(10):1053–7.

    Article  Google Scholar 

  13. Camera A, Magri F, Fonte R, Villani L, Della Porta MG, Fregoni V, Manna LL, Chiovato L. Burkitt-like lymphoma infiltrating a hyperfunctioning thyroid adenoma and presenting as a hot nodule. Thyroid. 2010;20(9):1033–6.

    Article  Google Scholar 

  14. Kandil E, Safah H, Noureldine S, Abdel Khalek M, Waddadar J, Goswami M, Friedlander P. Burkitt-like lymphoma arising in the thyroid gland. Am J Med Sci. 2012;343(1):103–5.

    Article  Google Scholar 

  15. Yildiz I, Sen F, Toz B, Kilic L, Agan M, Basaran M. Primary Burkitt's lymphoma presenting as a rapidly growing thyroid mass. Case Rep Oncol. 2012;5(2):388–93.

    Article  Google Scholar 

  16. Bongiovanni M, Mazzucchelli L, Martin V, Crippa S, Bolli M, Suriano S, Giovanella L. Images in endocrine pathology: a starry-sky in the thyroid. Endocr Pathol. 2012;23(1):79–81.

    Article  Google Scholar 

  17. Mweempwa A, Prasad J, Islam S. A rare neoplasm of the thyroid gland. N Z Med J. 2013;126(1369):75–8.

    PubMed  Google Scholar 

  18. Albert S. Primary Burkitt lymphoma of the thyroid. Ear Nose Throat J. 2013;92(12):E1–2.

    PubMed  Google Scholar 

  19. Zhang L, Gao L, Liu G, Wang L, Xu C, Li L, Tian Y, Feng H, Guo Z. Primary Burkitt's lymphoma of the thyroid without Epstein-Barr virus infection: a case report and literature review. Oncol Lett. 2014;7(5):1519–24.

    Article  Google Scholar 

  20. Cooper K, Gangadharan A, Arora RS, Shukla R, Pizer B. Burkitt lymphoma of thyroid gland in an adolescent. Case Rep Pediatr. 2014;2014:187467.

    CAS  PubMed  PubMed Central  Google Scholar 

  21. Allaoui M, Benchafai I, Mahtat el M, Regragui S, Boudhas A, Azzakhmam M, Boukhechba M, Al Bouzidi A, Oukabli M. Primary Burkitt lymphoma of the thyroid gland: case report of an exceptional type of thyroid neoplasm and review of the literature. BMC Clin Pathol. 2016;16:6.

    Article  Google Scholar 

  22. Quesada AE, Liu H, Miranda RN, Golardi N, Billah S, Medeiros LJ, Jaso JM. Burkitt lymphoma presenting as a mass in the thyroid gland: a clinicopathologic study of 7 cases and review of the literature. Hum Pathol. 2016;56:101–8.

    Article  Google Scholar 

  23. Akshintala D, Paturi BT, Liu J, Emani VK. A rare diagnosis of a thyroid mass. Am J Med. 2016;129(9):e191–2.

    Article  Google Scholar 

  24. Moghaddasi M, Nabovvati M, Razmeh S. Bilateral cavernous sinus thrombosis as first manifestation of primary Burkitt lymphoma of the thyroid gland. Neurol Int. 2017;9(2):7133.

    Article  Google Scholar 

  25. Garcia Calzado MC, Ruiz Buendia A, Lopez Aranda JF, Martin Villacanas JA: [Burkitt's lymphoma with onset in the thyroid gland. A case report]. Med Clin (Barc) 1997, 108(14):556–557.

  26. Hernandez JA, Reth P, Ballestar E. primary thyroid lymphoma with bone marrow and central nervous system infiltration at presentation. Med Clin (Barc). 2001;116(9):357–8.

    Article  CAS  Google Scholar 

  27. Duran HJ, Diaz-Morfa M, Garcia-Parrenoa J, Bellon JM. Burkitt's lymphoma affecting only the thyroid. Med Clin (Barc). 2008;131(1):38–9.

    Article  Google Scholar 

  28. Pereyra Zenklusen A, Burgesser MV. thyroid Burkitt lymphoma. Rev Fac Cien Med Univ Nac Cordoba. 2011;68(2):70–1.

    CAS  PubMed  Google Scholar 

  29. Bouges S, Daures JP, Hebrard M. incidence of acute leukemias, lymphomas and thyroid cancers in children under 15 years, living around the Marcoule nuclear site from 1985 to 1995. Rev Epidemiol Sante Publique. 1999;47(3):205–17.

    CAS  PubMed  Google Scholar 

  30. Mongalgi MA, Chakroun D, el Bez M, Boussen H, Debabbi A. thyroid goiter revealing Burkitt's lymphoma. Arch Fr Pediatr. 1992;49(6):594–5.

    CAS  PubMed  Google Scholar 

  31. Matsuo T, Murase K, Wago M, Matsuo S, Ikeda T, Yamaguchi T. acute B-cell lymphoblastic leukemia with Burkitt's lyphoma cells--a case report. Gan No Rinsho. 1983;29(9):1035–9.

    CAS  PubMed  Google Scholar 

  32. Fujii H, Maekawa T, Kamezaki H, Ohno H, Nishida K, Urata Y. Burkitt's lymphoma with an initial symptom of thyroid tumor during pregnancy. Rinsho Ketsueki. 1986;27(10):1957–63.

    CAS  PubMed  Google Scholar 

  33. Molyneux EM, Rochford R, Griffin B, Newton R, Jackson G, Menon G, Harrison CJ, Israels T, Bailey S. Burkitt's lymphoma. Lancet. 2012;379(9822):1234–44.

    Article  Google Scholar 

  34. Graff-Baker A, Roman SA, Thomas DC, Udelsman R, Sosa JA. Prognosis of primary thyroid lymphoma: demographic, clinical, and pathologic predictors of survival in 1,408 cases. Surgery. 2009;146(6):1105–15.

    Article  Google Scholar 

  35. Blum KA, Lozanski G, Byrd JC. Adult Burkitt leukemia and lymphoma. Blood. 2004;104(10):3009–20.

    Article  CAS  Google Scholar 

  36. Stein SA, Wartofsky L. Primary thyroid lymphoma: a clinical review. J Clin Endocrinol Metab. 2013;98(8):3131–8.

    Article  CAS  Google Scholar 

  37. Naresh KN, Ibrahim HA, Lazzi S, Rince P, Onorati M, Ambrosio MR, Bilhou-Nabera C, Amen F, Reid A, Mawanda M, et al. Diagnosis of Burkitt lymphoma using an algorithmic approach--applicable in both resource-poor and resource-rich countries. Br J Haematol. 2011;154(6):770–6.

    Article  Google Scholar 

  38. Zeppa P, Cozzolino I. Non-Hodgkin lymphoma. Monogr Clin Cytol. 2018;23:34–51.

    Article  Google Scholar 

  39. Paja M, del Cura JL, Zabala R, Corta I, Lizarraga A, Oleaga A, Exposito A, Gutierrez MT, Ugalde A, Lopez JI. Ultrasound-guided core-needle biopsy in thyroid nodules. A study of 676 consecutive cases with surgical correlation. Eur Radiol. 2016;26(1):1–8.

    Article  Google Scholar 

  40. Yoon JH, Kim EK, Kwak JY, Moon HJ. Effectiveness and limitations of core needle biopsy in the diagnosis of thyroid nodules: review of current literature. J Pathol Transl Med. 2015;49(3):230–5.

    Article  Google Scholar 

  41. Sharma A, Jasim S, Reading CC, Ristow KM, Villasboas Bisneto JC, Habermann TM, Fatourechi V, Stan M. Clinical presentation and diagnostic challenges of thyroid lymphoma: a cohort study. Thyroid. 2016;26(8):1061–7.

    Article  Google Scholar 

  42. Pugliese N, Di Perna M, Cozzolino I, Ciancia G, Pettinato G, Zeppa P, Varone V, Masone S, Cerchione C, Della Pepa R, et al. Randomized comparison of power Doppler ultrasonography-guided core-needle biopsy with open surgical biopsy for the characterization of lymphadenopathies in patients with suspected lymphoma. Ann Hematol. 2017;96(4):627–37.

    Article  Google Scholar 

  43. Oosten LEM, Chamuleau MED, Thielen FW, de Wreede LC, Siemes C, Doorduijn JK, Smeekes OS, Kersten MJ, Hardi L, Baars JW, et al. Treatment of sporadic Burkitt lymphoma in adults, a retrospective comparison of four treatment regimens. Ann Hematol. 2018;97(2):255–66.

    Article  CAS  Google Scholar 

  44. Thomas DA, Faderl S, O'Brien S, Bueso-Ramos C, Cortes J, Garcia-Manero G, Giles FJ, Verstovsek S, Wierda WG, Pierce SA, et al. Chemoimmunotherapy with hyper-CVAD plus rituximab for the treatment of adult Burkitt and Burkitt-type lymphoma or acute lymphoblastic leukemia. Cancer. 2006;106(7):1569–80.

    Article  CAS  Google Scholar 

  45. Claudi R, Viola P, Cotellese R, Angelucci R. Atypical primary Burkitt lymphoma of the thyroid gland: a practical approach for differential diagnosis and management. AM J Case Rep. 2010;11:169–73.

    Google Scholar 

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No funding was received for this study.

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This is a case report of a single patient, to protect privacy and respect confidentiality, none of the raw data has been made available in any public repository. The original reports, laboratory studies, imaging studies and outpatient clinic records are retained as per normal procedure within the medical records of our institution. Dataset are available from the corresponding author on reasonable request.

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SB, BF examined the patient and contributed to manuscript conception, preparation, and editing. AM contributed to manuscript preparation and editing. DB and FZ performed the tissue sections readings, and contributed to image preparation and manuscript editing. VC examined the patient and contributed to manuscript editing. GP examined the patient and contributed to manuscript preparation and editing. All authors read and approved the final manuscript.

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Correspondence to Stella Bernardi.

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Bernardi, S., Michelli, A., Bonazza, D. et al. Usefulness of core needle biopsy for the diagnosis of thyroid Burkitt’s lymphoma: a case report and review of the literature. BMC Endocr Disord 18, 86 (2018). https://0-doi-org.brum.beds.ac.uk/10.1186/s12902-018-0312-9

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