ABSTRACT
INTRODUCTION: Mammary analogue secretory carcinoma is a rare malignant tumor of the salivary glands that typically involves the major glands. The aim of the current study is to report a rare case of mammary analogue secretory carcinoma that presented with left cervical lymphadenopathy. CASE REPORT: A 59-year-old lady presented with left cervical lymphadenopathy. Tissue biopsy and immunohistochemistry revealed metastatic carcinoma, favoring ovarian origin. Staging workup was performed and, ultimately, the patient was treated as having a carcinoma of unknown primary. After showing partial response to therapy, left side neck dissection was performed. Based on better assessment of the histologic picture and a broader panel of immunohistochemistry performed on the excision specimen, the final diagnosis was that of mammary analogue secretory carcinoma. DISCUSSION: Mammary analogue secretory carcinoma is usually an indolent salivary gland carcinoma, with the majority of patients presenting with a slow-growing, painless mass measuring approximately 2 cm in size, and a reported duration ranging from 2 months to several years. In certain cases, pain and facial paralysis have been reported. It could also be found incidentally during radiologic assessment for thyroid illness or routine dental screening. CONCLUSION: Diagnosing mammary analogue secretory carcinoma is challenging, and this should be in the differential diagnosis list of metastatic carcinomas to cervical lymph nodes.
ABSTRACT
Cytogenetic abnormalities involving chromosome 16 are found in 5– 8% of acute myeloid leukemia (AML). These are typically a pericentric inversion inv(16)(p13.1q22) or a translocation, t(16;16)(p13.1;q22), involving the MYH11 and CBFB genes localized to chromosome 16p13.1 and 16q22, respectively. In addition, less common rearrangements include deletion of the long arm of chromosome 16, del(16) (q22), and cryptic insertions involving the MYH11 and the CBFB genes with otherwise normal karyotypes. In this report, we present the first AML case with a new translocation involving the CBFB gene. The more common CBFB - MYH11 fusion product resulting from the inversion and/or translocation of chromosome(s) 16 leads to an AML with monocytic and granulocytic differentiation and abnormal eosinophil component with large, purple to violet color eosinophilic granules. This entity typically corresponds to the adult AML-M4Eo in French-American- British (FAB) Classification and now called AML with inv(16)(p13.1q22) or t(16;16)(p13.1;q22);CBFB-MYH1 in the new 2017 WHO Classification. Patients may present with myeloid sarcoma at initial diagnosis or at relapse. We present a case of an 80-year-old male with a history of prostate cancer post radiotherapy who was referred for COVID-19 testing. A complete blood count with differential revealed neutropenia and a macrocytic anemia. A bone marrow biopsy and a bone marrow aspirate confirmed a diagnosis of AML with 33% blasts including myeloblasts and promonocytes. Interphase fluorescence in situ hybridization (FISH) analysis with a break-apart probe for CBFB showed an abnormal hybridization pattern consistent with rearrangement of CBFB in 66% of nuclei. Chromosome analysis revealed an abnormal karyotype with two related clones: 47,XY, t(10;16)(p13;q22),+22[4]/48,idem,+8[16]. Sequential GTG-FISH confirmed that the 3’ region of CBFB was translocated to 10p13 in the t(10;16) and the 5’ region remained on 16q. Based on the karyotype, the patient’s bone barrow exhibits clonal evolution having acquired additional chromosome abnormalities (trisomy 22 and trisomy 8). Molecular studies by next generation sequencing showed NRAS p.Gln61Lys mutation with a VAF of 11.21%. No genomic alterations were detected in KIT, KRAS or FLT3 genes. AML with inv(16)(p13.1q22) or t(16;16)(p13.1;q22) is associated with a high rate of complete remission and favorable overall survival when treated with intensive consolidation therapy. However, their prognostic advantage may be affected by additional cytogenetic abnormalities and/or other gene mutations. Specifically, trisomy 22, is a frequent abnormality additional to inv(16) detected as a secondary finding which has been associated with an improved outcome when compared to the prognosis associated with inv(16) alone. Furthermore, KIT (in 30–40%), FLT3 (in 14%), NRAS (in 45%) and KRAS (in 13%) mutations are common in this AML type. The prognostic implications of KIT mutation (especially involving exon 8) do not appear to be significantly poor prognostic compared to other AML types. On the other hand FLT3-TKD mutations and trisomy 8 are associated with a worse outcome. The patient is currently receiving Vidaza 75 mg/m2, days 1–7 of a 28 days cycle with Venetoclax mg daily of a 28-day cycle and his clinical prognosis is currently unclear. Further analysis by DNA sequencing may help to characterize the molecular nature of the fusion gene product resulting from the novel t(10;16)(p13;q22). To the best of our knowledge, this is the first reported case of an AML patient with translocation t(10;16)(p13;q22) involving the CBFB gene. Given the rarity and lack of additional information regarding the effects of this abnormality, the prognosis and survival cannot be predicted.
ABSTRACT
Avian orthoavulavirus, commonly known as Newcastle disease virus (NDV) has been a constant threat for the poultry industry of Iran for decades. Recently, a couple of preliminary studies on backyard and commercial chicken suggested that a major subgenotype circulating in Iran may be VII(L) subgenotype, which is now known as VII.1.1 according to the new classification system. The unique subgenotype was not reported from other parts of the world and was slightly (=3%) different from the closest group that was VIId. The study was conducted between July 2018 and March 2019 to determine the exact NDV genotypes/subgenotypes circulating in Iranian broiler poultry farms;fivehundred and forty chickens were sampled from thirty-six broiler farms located in eighteen provinces of Iran. As other genotypes/subgenotypes such as XIII and VI.2 are circulating in neighbouring countries, border provinces were also sampled. The F gene of the NDV isolates was sequenced and phylogenetic analysis was conducted. All the isolates clustered under the VII.1.1 group. The evolutionary analysis also revealed that the distances were between 0.0 and 0.7% meaning that the Iranian NDV circulating in broiler farms were not only of VII.1.1 sub-genotype, but also genetically very identical, indicating that the routine control measures for ND in Iran were not able to prevent the circulating NDVs. Although stricter biosecurity measures have been really effective in developed countries, surveillance of NDV to determine the circulating genotypes might also help us to implement better vaccination strategies in the future. [ FROM AUTHOR] Copyright of Bulgarian Journal of Veterinary Medicine is the property of Trakia University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full . (Copyright applies to all s.)