Hereditary Medullary Thyroid Carcinoma Research Articles

Unlocking the Potential of Multigene Parallel Sequencing: A Concomitant Germline RET and BRCA1 Mutation in a Hereditary Medullary Thyroid Carcinoma

We report a rare case of a 33-year-old South Asian woman who visited the Molecular Pathology and Genomics Department referred for hereditary germline cancer genetic testing after being diagnosed with high-grade, multifocal medullary carcinoma of the thyroid. Genetic counselling showed an elaborate family history of cancer. Germline cancer testing on 113 genes for pancancer panel by next-generation sequencing showed a pathogenic heterozygous single nucleotide variant in RET gene c.1901G>C p.Cys634Ser (codon10) and an incidental finding of the presence of a pathogenic splice variant in BRCA1 gene c.213-1G>C at the intron 4 of the gene. The patient was further managed with a paradigm of Precision Medicine (PM) based on the 5Ps like participation, psychological support, and prediction of risk assessment, prevention, and personalisation.

The Long-Term Cure of Patients With Hereditary Medullary Thyroid Carcinoma: 40 Years of Follow-Up in a Single Center.

The cure rate of patients with hereditary medullary thyroid carcionoma (MTC) can be decisively improved by screening for elevated calcitonin (Ctn) levels and RET gene mutations in patients from families affected by multiple endocrine neoplasia type 2 (MEN2), followed by prophylactic thyroidectomy in persons with mutated RET genes. In this long-term observational study, we investigated whether postoperative cures are indeed maintained decades after the procedure. From 1979 to 2021, 277 patients with MEN2 who underwent thyroidectomy were observed postoperatively for 14.4 ± 10.3 years (mean, standard deviation). They were classified as either cured or not cured depending on the last measured serum Ctn level (cured, Ctn < 10 pg/mL or < 2 pg/mL; not cured, Ctn ≥ 10 pg/mL). Depending on their RET mutation status, they were categorized as moderate, high, or highest risk (121, 130, and 26 patients, respectively). 154 patients (55.6%) obtained a long-term cure (Ctn <10 pg/mL). The median age at surgery was 27, 14, and 4 years in patients at moderate, high, and highest risk. All 52 patients who had undergone prophylactic thyroidectomy before the age of 6 years, 9 years, or 6 months had a Ctn level below 2 pg/mL and were cured at the end of the follow-up period. In a multivariable analysis, prognostic factors for a long-term cure were a lower tumor stage and, by tendency, classification as belonging to the moderate as opposed to the highest-risk group. In patients receiving an early diagnosis of MEN2 via family screening, prophylactic thyroidectomy taking into account the RET mutation risk group can achieve a long-term cure of MTC with undetectable serum Ctn levels.

B-355 Assessment of Calcitonin Cutoff Values for Post-Thyroidectomy Surveillance in Patients with Medullary Thyroid Carcinoma: Findings from a Single-Center Investigation

Abstract Background Patients with sporadic or hereditary Medullary Thyroid Carcinoma (MTC) often undergo total thyroidectomy and lymph node dissection, with postoperative surveillance relying on serum calcitonin levels and ultrasound examinations. According to American Thyroid Association (ATA) guidelines, detectable levels of serum calcitonin and Carcinoembryonic Antigen (CEA) post-thyroidectomy suggest potential disease persistence or recurrence, necessitating frequent monitoring for early detection. This study sought to reassess the role of postoperative calcitonin levels in identifying possible tumor recurrence. Methods A retrospective analysis was conducted using Siemens Atellica to test calcitonin levels in 562 samples collected between 09/27/2022 and 08/11/2023, at least 3 months post-total thyroidectomy. Imaging studies performed within 6 months of the calcitonin assessment were also reviewed. Sample pools with calcitonin concentrations near 3.00 and 5.00 pg/mL were utilized to determine the limit of quantification (LoQ). CEA results were included for comparison. Additionally, 16 serum samples were analyzed using the Roche Cobas system at a reference laboratory. Results Precision analysis around 3.00 and 5.00 pg/mL revealed coefficients of variation (CVs) of 16.49% and 8.87%, respectively. Comparison of calcitonin levels between Siemens Atellica and Roche Cobas systems demonstrated consistent levels &amp;lt; 5.00 pg/mL in 15 out of 16 samples, indicating alignment and reliability between the platforms. A calcitonin cutoff of 1.89 pg/mL yielded 43% sensitivity and 67% specificity, while a cutoff of 5.00 pg/mL resulted in 0% sensitivity and 100% specificity. Conclusions Our findings suggest that a 5 pg/mL calcitonin cutoff on the Siemens Atellica platform may be suitable for identifying tumor persistence or recurrence in post-thyroidectomy patients within our institution. However, individual laboratories should establish their LoQ criteria when interpreting calcitonin levels for postoperative monitoring of tumor recurrence.

Critically evaluated key points on hereditary medullary thyroid carcinoma.

Medullary thyroid carcinoma (MTC) accounts for only 3% of all thyroid carcinomas: 75% as sporadic MTC (sMTC) and 25% as hereditary MTC (hMTC) in the context of multiple endocrine neoplasia type 2 (MEN2). Early diagnosis is possible by determining the tumour marker calcitonin (Ctn) when clarifying nodular goitre and by detecting the mutation in the proto-oncogene RET in the MEN2 families. If the Ctn level is only slightly elevated, up to 30 pg/ml in women and up to 60 pg/ml in men, follow-up checks are advisable. At higher levels, surgery should be considered; at a level of > 100 pg/ml, surgery is always advisable. The treatment of choice is total thyroidectomy, possibly with central lymphadenectomy. In the early stage, cure is possible with adequate surgery; in the late stage, treatment with tyrosine kinase inhibitors is an option. RET A mutation analysis should be performed on all patients with MTC. During follow-up, a biochemical distinction is made between: healed (Ctn not measurably low), biochemically incomplete (Ctn increased without tumour detection) and structural tumour detection (metastases on imaging). After MTC surgery, the following results should be available for classification in follow-up care: (i) histology, Ctn immunohistology if necessary, (ii) classification according to the pTNM scheme, (iii) the result of the RET analysis for categorisation into the hereditary or sporadic variant and (iiii) the postoperative Ctn value. Tumour progression is determined by assessing the Ctn doubling time and the RECIST criteria on imaging. In most cases, "active surveillance" is possible. In the case of progression and symptoms, the following applies: local (palliative surgery, radiotherapy) before systemic (tyrosine kinase inhibitors).

Abstract 4238: ModelingRET-rearranged non-small cell lung cancer (NSCLC): Generation of lung cell progenitors from patient-derived induced pluripotent stem cells (iPSCs)

Abstract Rearranged during Transfection (RET) oncogenic rearrangements can occur in 1-2% of lung adenocarcinomas. While RET-driven NSCLC models have been developed using various approaches, no model based on patient-derived induced pluripotent stem cells (iPSCs) has been described yet. Patient-derived iPSCs hold great promise for disease modeling. However, generating iPSCs with specific oncogenic drivers, like RET rearrangements, presents challenges due to reprogramming efficiency and genotypic variability within tumors. To address this issue, we aimed to generate lung progenitor cells (LPCs) from patient-derived iPSCs carrying the somatic mutation RETC634Y which is commonly associated with hereditary medullary thyroid carcinoma. Additionally, we have established a RETC634Y knock-in iPSC model to validate the effect of this oncogenic mutation during LPC differentiation. We successfully generated LPCs from RETC634Y iPSCs using a 16-days protocol and showed an overexpression of cancer-associated markers as compared to control iPSCs. Transcriptomic analysis revealed a distinct signature of NSCLC tumor repression, suggesting a lung multilineage lung dedifferentiation, along with an upregulated signature associated with RETC634Ymutation potentially linked to poor NSCLC prognosis. These findings were validated using the RETC634Y knock-in iPSC model, highlighting key cancerous targets such as PROM2 and C1QTNF6, known to be associated with poor prognostic outcomes. Furthermore, the LPCs derived from RETC634Y iPSCs exhibited a positive response to the RET inhibitor Pralsetinib, evidenced by the downregulation of the cancer markers. This study provides a novel off-the-shelf iPSC model of RET-driven NSCLC, paving the way for exploring the molecular mechanisms involved in RET-driven NSCLC to study disease progression and to uncover potential therapeutic targets. Citation Format: Paul Marcoux, Jinwook Hwang, Christophe Desterke, Jusuf Imeri, Annelise Bennaceur Griscelli, Ali Turhan. ModelingRET-rearranged non-small cell lung cancer (NSCLC): Generation of lung cell progenitors from patient-derived induced pluripotent stem cells (iPSCs) [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 4238.

Pediatric Medullary Thyroid Carcinoma: Clinical Presentations and Long-Term Outcomes in 144 Patients Over 6 Decades.

Sporadic medullary thyroid carcinoma (sMTC) rarely occurs in childhood and no studies have specifically focused on this entity. To describe the clinical presentations and long-term outcomes of a large cohort of children and young adults with sMTC compared with hereditary MTC (hMTC). Retrospective study of 144 patients diagnosed with MTC between 1961 and 2019 at an age ≤ 21 years and evaluated at a tertiary referral center. In contrast to hMTC (n = 124/144, 86%), patients with sMTC (n = 20/144, 14%) are older (P < .0001), have larger tumors (P < .0001), a higher initial stage grouping (P = .001) and have more structural disease (P = .0045) and distant metastases (DM) (P = .00084) at last follow-up, but are not more likely to die from MTC (P = .42). Among 77 patients diagnosed clinically, not by family history (20/20 sMTC and 57/124 hMTC), there was no difference in the initial stage (P = .27), presence of DM at diagnosis (P = 1.0), disease status at last follow-up (P = .13), overall survival (P = .57), or disease-specific survival (P = .87). Of the 12 sMTC tumors that underwent somatic testing, 11 (91%) had an identifiable alteration: 10 RET gene alterations and 1 ALK fusion. sMTC is primarily a RET-driven disease that represents 14% of childhood-onset MTC in this cohort. Pediatric sMTC patients are older, present with clinical disease at a more advanced TNM classification, and have more persistent disease at last follow-up compared with hMTC, but these differences disappear when comparing those presenting clinically. Somatic molecular testing should be considered in sMTC patients who would benefit from systemic therapy.

Biomarker identification of medullary thyroid carcinoma from gene expression profiles considering without-treatment and with-treatment studies-A bioinformatics approach.

Medullary thyroid carcinoma (MTC) is a neuroendocrine tumor derived from parafollicular thyroid gland cells. In both hereditary MTC and sporadic forms, genetic changes result in fundamental changes, and prognosis and mutational status are highly correlated. In this work, biomarker genes (DEGs and DEmiRNAs) for MTC will be computationally identified in order to help in their diagnosis and treatment. The gene expression profiles of two different types of studies, namely without-treatment (wo-trt)and with-treatment (w-trt), are considered for discovering biomarkers. The datasets were retrieved from the GEO database, and the DEGs and DEmiRNAs were analyzed using ExpressAnalyst and GEO2R. The functional analysis of DEGs and DEmiRNAs was performed, and most of the pathways enriched related to thyroid oncological pathways such as MAPK pathway,mTOR pathway, and PI3K-AKT Signaling pathway. Through this conclusion, the RET gene was upregulated wo-trt; the dinaciclib treatment RET gene was down-regulated computationally. To optimize the therapeutic targeting of RET, greater research into the mechanisms regulating RET transcription is necessary.

Clinic Heterogeneity and Management of Pediatric Patients With Germline RET Proto-oncogene Mutation: Single-center Experience.

Inherited forms of medullary thyroid carcinoma (MTC) can cause serious problems in diagnosis and follow-up. Family screening is performed, and prophylactic thyroidectomy at an appropriate age can be life-saving. This study aimed to investigate the diagnostic, clinical, laboratory characteristics, and treatment methods of cases with rearranged during transfection ( RET) mutation in the childhood age group. Patients diagnosed with hereditary MTC and patients who were evaluated by detecting MTC and/or RET mutations in their families were included in this study. Nine cases from 6 families were included in the study. Seven patients were evaluated as a result of screening, whereas 2 patients, one of whom was MEN2B, were symptomatic. Prophylactic thyroidectomy was performed in 7 cases. Medullary microcarcinoma was found in all, and additional papillary thyroid carcinoma in one. An inoperable tumor was detected in one patient, and sorafenib treatment was applied. A very heterogeneous clinical presentation can be seen in a group of pediatric patients with RET mutation. In rare RET mutations, the genotype-phenotype relationship is still unclear, and different clinical pictures can be seen. Although prophylactic thyroidectomy is life-saving, it can cause iatrogenic hypothyroidism and hypoparathyroidism. Concomitant papillary microcarcinomas may occur in very young children with germline RET mutation.

Abstract #1399687: Precision Oncology in the Management of Medullary Thyroid Cancer in an Adolescent with MEN2B, 1-year Follow-up

Medullary thyroid carcinoma (MTC) is a rare but aggressive thyroid tumor, with 25% of hereditary and 75% of sporadic forms. RET mutations are found in 98% of hereditary MTC and in 55% of sporadic MTC. Targeted therapies are a management option for patients with progressive or symptomatic disease with locoregional or metastatic MTC. We present the case of an adolescent with type 2B multiple endocrine neoplasia (MEN-2B) syndrome with an optimal response to pralsetinib. A 14-year-old adolescent, she was admitted for maxillofacial surgery in September 2019 due to a thyroid nodule and cervical nodes whose FNA reported: MTC; she underwent total thyroidectomy extended to prethyroid muscles + bilateral radical dissection. The pathology reported: multicentric MTC: in LTL tumor of 3.0 x 1.5cm, with invasion of tumor capsule and extraglandular 4mm to the adiposomuscular plane, lymphatic and venous permeation, tumor in isthmus of 1cm and RTL of 0.6cm; Bilateral periglandular and cervical lymph node metastasis (23/58) EC-IVA. Endocrinological evaluation showed a marfanoid phenotype, thick lips, tongue neuromas, diastema, and a history of chronic constipation with segmental colonic dilatation on abdominal radiography. No history of HTA. No similar family history. PET-CT-18FDG: mediastinal lymph nodes suggestive of metastasis. She received cervical-mediastinal radiotherapy: 6000 cGy in April 2020. Follow-up was interrupted due to a pandemic, she was readmitted with mediastinal disease progression according to PET-CT in June 2021. She had access to a genetic NGS tumor study that showed the RET M918T mutation. In December 2021, she started Pralsetinib 200 mg/day, achieving a biochemical and structural response in follow-up sustained to date, without developing major adverse events. The NCCN Guidelines advise performing the RET study at the time of initial diagnosis. Targeted therapies have helped supplant cytotoxic chemotherapy, which has low efficacy against disease progression, but there is still the problem of toxic side effects and frequent development of tumor resistance when using the current treatment regimen. In this case, with the MEN-2B criteria established, the RET M918T mutation detected. and presenting with disease progression (elevated calcitonin and CEA, associated with mediastinal disease progression), she agreed to an expanded program of anti-RET therapy with Pralsetinib, demonstrating safety and efficacy after 1 year of use.

Chronology of Thyroid Cancer

IntroductionThe basic nature of cancer includes unlimited growth, invasion, and metastasis. The TNM staging system is very simple and popular. It indicates the degree of the anatomical spread of the disease but does not include tumor growth. Collins reported that human tumors grow exponentially, which can be expressed in doubling time.Patients and MethodsWe found that in patients with medullary thyroid carcinoma (MTC) and papillary thyroid carcinoma (PTC) serum calcitonin and thyroglobulin levels changed exponentially over time, respectively, and that doubling times of these values were very strong prognostic factors. Doubling time has two major limitations. Doubling rate resolves these limitations. Using doubling rate, we performed kinetic analyses on tumor volume during active surveillance of micro-PTC.ResultsOur kinetic studies on patients with biochemically persistent disease revealed that 17% of MTC and 51% of PTC showed decrease in serum tumor marker levels over time. During active surveillance of micro-PTC, 17% of the patients showed clear decrease in their tumor volume. The evidences currently available are limited. However, our data indicate the following: Growth slowdown and regression are very common phenomena in the natural history of micro-PTC, clinical PTC in young and middle-aged patients, and hereditary MTC. The biologic characteristics of cancers of the same name, such as PTC, are diverse and vary widely with age.ConclusionsDoubling time and doubling rate are very powerful tools to provide the most appropriate management for the patients with thyroid cancers. Knowing the natural history of thyroid cancer is essential for the best disease management of thyroid cancer.

Medullary thyroid carcinoma: a narrative historical review

Introduction Sporadic or hereditary medullary thyroid carcinoma (MTC) is an uncommon thyroid malignancy arising from calcitonin secreting parafollicular C cells. Interestingly, MTC and calcitonin were distinct entities that were discovered independently yet concurrently, and their association was unclear. Areas covered This review aims to present a historical review of the evolution of our understanding of MTC and its tumor marker calcitonin to highlight the prominent individuals that influenced and shaped our knowledge of this uncommon thyroid cancer type up to the dawn of the 21st century. A review of all published reports of novel research and work summarizing important findings for MTC and calcitonin was carried out. Expert opinion Surgery remains the cornerstone of treatment for localized MTC. However, several new treatment options are in development for advanced or metastatic MTC, including several novel small molecules targeting oncogenic RET and peptide receptor radionuclide therapy, immunotherapy, radioimmunotherapy, and radiofrequency ablation. In the near future, these novel treatments hold promise for therapy of this very distinct thyroid cancer type.

GLOBAL ENDOCRINOLOGY: Geographical variation in the profile of RET variants in patients with medullary thyroid cancer: a comprehensive review.

Genetic variability in humans is influenced by many factors, such as natural selection, mutations, genetic drift, and migrations. Molecular epidemiology evaluates the contribution of genetic risk factors in the etiology, diagnosis, and prevention of a particular disease. Few areas of medicine have been so clearly affected by genetic diagnosis and management as multiple neoplasia type 2 (MEN2), in which activating pathogenic variants in the RET gene results in the development of medullary thyroid carcinoma (MTC), pheochromocytoma, and hyperparathyroidism in nearly 98, 50, and 25% of gene carriers, respectively. Here, we aimed to collect RET genotyping data worldwide to analyze the distribution and frequency of RET variants from a global perspective. We show that the mutational spectrum of RET is observed worldwide. The codon 634 variants seem to be the most prevalent, but there are differences in the type of amino acid exchanges among countries and in the frequencies of the other RET codon variants. Most interestingly, studies using haplotype analysis or pedigree linkage have demonstrated that some pathogenic RET variants have been transmitted to offspring for centuries, explaining some local prevalence due to a founder effect. Unfortunately, after almost three decades after the causative role of the germline RET variants has been reported in hereditary MTC, comprehensive genotyping data remain limited to a few countries. The heterogeneity of RET variants justifies the need for a global effort to describe epidemiological data of families with MEN2 to further understand the genetic background and environmental circumstances that affect disease presentation.

Calcitonin and complementary biomarkers in the diagnosis of hereditary medullary thyroid carcinoma in children and adolescents.

Medullary thyroid carcinoma (MTC) is a rare malignancy that is effectively curable by surgery. Unlike in adults, hereditary MTC has a predominant role in children. A fast and safe diagnosis is important to assure the good prognosis for the patients. A major cornerstone is the assessment of biomarkers, but the interpretation must respect their pre-, post- and analytical features. Especially calcitonin (Ctn) is a challenging biomarker in daily laboratory diagnostics. However, Ctn is of particular relevance for the diagnostic in MTC. The American Thyroid Association recommends thyroidectomy if the upper reference range of Ctn is exceeded. Interestingly, age-dependent reference ranges for children and adolescents have become available only recently for Ctn assays. With this review, we aim to highlight the importance of a timely diagnosis of MTC in children and adolescents. Recent developments in pediatric biochemical diagnostics of MTC were summarized. This includes guidance on interpretation of RET, Ctn, procalcitonin, carcinoembryonic antigen, carbohydrate antigen 19-9, and chromogranin A. Currently, Ctn is the most investigated biomarker in the diagnosis of MTC in children and adolescents. Other biomarkers as PCT suggest complementary evidence about pediatric MTC but their interpretation based largely on adult's data. A successful treatment of MTC requires, besides results of biomarkers, information about medical history, RET gene analysis and recent guideline knowledge. More research is required to validate complementary biomarkers of Ctn in children. Additionally, the effect of different confounder on pediatric Ctn levels has to be further clarified.

1751P Real-world study of REarranged during Transfection [RET] testing in patients [pts] with medullary thyroid cancer [MTC] in Europe [EU5

This study described testing for mutations in the RET gene among pts with sporadic and hereditary MTC, a crucial factor in selecting targeted therapy linked with improved treatment [tx] outcomes for pts with MTC.

Procalcitonin measured by three different assays is an excellent tumor marker for the follow-up of patients with medullary thyroid carcinoma.

Procalcitonin (PCT) has been suggested as a tumor marker in patients with medullary thyroid carcinoma (MTC). Clinical application data in long term follow-up are missing. 210 serum samples of 169 consecutive patients with MTC (92 sporadic, 77 hereditary, 158 postoperative follow-up, 11 preoperative) were collected between 2018 and 2020. Postoperative patients were stratified into three groups according to their disease status at the end of follow-up: cured (n=51, calcitonin (CT) levels<limit of quantitation), minimal residual disease (n=55, detectable CT and no metastases provable by imaging methods), metastatic disease (n=52). In five patients CT and PCT were measured while on therapy with tyrosine kinase inhibitors (TKI). CT was analyzed by the Roche ECLIA, PCT by three assays from Roche, PES, Abbott. The mean±SD values seen with the three PCT assays in the MTC response groups, cured: <0.06, 0.016±0.007, 0.014±0.007ng/mL, minimal residual disease: 0.511±0.800, 0.389±0.687, 0.341±0.614ng/mL, metastatic disease 109±202, 60.4±110, 63.3±115ng/mL correlate well with the CT results in these groups: cured <1.0pg/mL, minimal residual disease 91.3±121.5pg/mL, metastatic disease 14,489±30,772pg/mL. There was a significant correlation (p<0.001) between the three PCT assays (Roche/PES r=0.970, Roche/Abbott r=0.976, Abbott/PES r=0.995). In the course of treatment with TKI both CT and PCT reflected clinical state. Preoperative PCT in hereditary MTC has the same diagnostic validity than CT. PCT measured with three different immunoassays is as good as the standard tumor marker CT in the follow-up of MTC but has a superior analytical stability.

Selective Antitumor Activity of Datelliptium toward Medullary Thyroid Carcinoma by Downregulating RET Transcriptional Activity.

Simple SummaryMedullary thyroid carcinoma (MTC) is a rare aggressive type of thyroid cancer with a propensity for metastasizing to the lymph nodes, liver, bones, and lungs. Previous studies have demonstrated that activated REarranged during Transfection (RET) mutants are key regulators of invasive and metastatic behaviors in MTC. The present study aimed to evaluate the antiinvasive and antimetastatic potential of a novel RET transcription inhibitor, datelliptium, which stabilizes the RET G-quadruplex structures and suppresses RET oncogene transcription by examining its effects on epithelial-to-mesenchymal transition (EMT), cancer stem cells (CSCs), and MTC cell migration. Interestingly, the ablation of RET with datelliptium resulted in decreased EMT, spheroid formation, and MTC cell migration. In this study, we also demonstrated the in vivo antitumor activity in TT tumor-bearing mice with about 75% tumor growth inhibition.Medullary thyroid carcinoma (MTC) is a rare aggressive form of thyroid cancer with high rates of metastasis. Sporadic and hereditary MTC are strongly driven by somatic and germline mutations, respectively, in the transmembrane REarranged during Transfection (RET) proto-oncogene, which encodes a receptor tyrosine kinase. Our previous study identified datelliptium as a novel RET transcription inhibitor, which stabilizes the RET G-quadruplex structures and suppresses RET oncogene transcription. The present study aimed to elucidate the effect of datelliptium on the suppression of epithelial-to-mesenchymal transition (EMT) and metastasis-related behaviors of MTC cells, including cell migration and formation of cancer stem cells (CSCs). Our results demonstrated that datelliptium downregulated the expression of the mesenchymal markers, including N-cadherin, vimentin, slug, snail, and claudin-1. Compared to untreated cells, datelliptium significantly decreased the migration of TT cells in a dose-dependent manner in a wound healing assay. Additionally, datelliptium significantly reduced the size of preformed spheroids from TT cells over the time course. Finally, datelliptium inhibited approximately 75% of MTC xenograft growth with minimal systemic toxicity. In conclusion, datelliptium exerts its antitumor activity against MTC cells by reducing the EMT program, migratory ability, and self-renewal capacity of TT cells, thus preventing invasive and metastatic behavior of MTC.

Similar Stage-dependent Survival and Outcome in Sporadic and Hereditary Medullary Thyroid Carcinoma.

Long-term data are scarce on large cohorts with sporadic (sMTC) and hereditary medullary thyroid carcinoma (hMTC). To compare long-term disease-specific survival (DSS) and outcomes between sMTC and hMTC groups. Retrospective analysis. German tertiary referral center. A total of 673 patients with MTC that underwent surgery from January 1974 to July 2019. None (observational study). Differences between sMTC and hMTC in long-term, stage-dependent survival and outcomes. Surgery was performed at median ages of 49 years for sMTC (n = 477, 44% male) and 29 years for hMTC (n = 196, 43% male; P < 0.0001). The mean follow-up times were 9.2 ± 8.0 (sMTC) and 14.6 ± 10.3 years (hMTC). Age and tumor stage at diagnosis were significantly different between the 2 groups (P < 0.0001). The sMTC and hMTC groups had different overall DSS (log rank, P = 0.0183), but similar stage-dependent DSS (log rank, P = 0.1242-0.8981). In a multivariate analysis, sMTC and hMTC did not differ in DSS (hazard ratio [HR] = 1.56; 95% CI, 0.94-2.57), but in both groups, a worse DSS was significantly associated with age at diagnosis (HR = 1.04; 95% CI, 1.02-1.05), male sex (HR = 0.49; 95% CI, 0.32-0.76), and stages III and IV at diagnosis (HR = 20.00; 95% CI, 2.74-145.91 and HR = 97.47; 95% CI, 13.07-726.67, respectively). The groups had significantly different (P < 0.0001) outcomes (i.e., cured, minimal residual disease, structural detectable disease, and death), but similar stage-dependent outcomes (P = 0.9449-0.0511), except for stage III (P = 0.0489). Patients with sMTC and hMTC had different ages of onset, but similar stage-dependent DSS and outcomes after the MTC diagnosis. This finding suggested that tumor behavior was similar in sMTC and hMTC.

Biochemical and Genomic Changes of a Devastating Metastatic Medullary Thyroid Cancer

Abstract Introduction: Medullary thyroid carcinoma (MTC) is a neuroendocrine tumor of thyroid parafollicular C cells. About 25% of cases are hereditary, associated with MEN2 syndromes. RET M918 mutation (somatic or germline) is associated with the most aggressive form of MTC. If MTC is hereditary, further tumor genomic analysis is not routinely performed. Therefore, the somatic mutational landscape of hereditary MTCs is not frequently described in the literature. We present an unusual case of MTC with a germline M918 RET mutation, displaying an initial smoldering course followed by rapidly fatal widespread metastases. Whole exome sequencing (WES) of primary tumor and metastases revealed intertumoral heterogeneity with many somatic mutations including p53 mutation. Clinical Case: The patient with characteristic facies of MEN 2B presented with a neck mass at age 28. She had no family history of MEN. At diagnosis, calcitonin was 11,392 pg/mL and CEA was 729.7 ug/L. Pathology showed MTCs of 5 cm (right) and 2.1 cm (left) with lymph node metastases (pT3N1bMx). Genetic testing showed RET M918 mutation. Postoperative calcitonin and CEA were 3.3 pg/ml and 1.7 ug/L respectively. Tumor markers doubling time was initially about 1 year, but progressively shortened over time. Three years after surgery, calcitonin and CEA were 101 pg/ml and 387 ug/L respectively. CT chest and abdomen identified no distant metastasis. Over the next 4 months, calcitonin and CEA increased dramatically to 1821pg/ml and 3974 ug/L. The patient was admitted for acute liver failure and passed away. Autopsy revealed widely metastatic disease to liver, lungs, spleen, pituitary, right adrenal gland, bones, and brain. WES revealed 87, 283 and 591 somatic mutations in the primary tumor, lung and liver metastases respectively. The primary tumor had chromosome 1p loss whereas liver and lung metastases had somatic mutation of TP53 and single copy loss of chromosome 17 (biallelic inactivation of p53). Conclusion: This case illustrates intertumoral spatial and temporal genetic heterogeneity. Mutations detected by WES may or may not be cancer-related and their clinical relevance is often uncelar. We hypothesize TP53 biallelic loss might have contributed to the aggressive phenotype of this tumor. Also of note, even before the appearance of metastases, CEA was disproportionately higher than calcitonin, reflecting tumor dedifferentiation. Further studies are needed to address CEA threshold for additional imaging and imaging modality for early detection of metastases.

MicroRNAs in Medullary Thyroid Carcinoma: A State of the Art Review of the Regulatory Mechanisms and Future Perspectives.

Medullary thyroid carcinoma (MTC) is a rare malignant neoplasia with a variable clinical course, with complete remission often difficult to achieve. Genetic alterations lead to fundamental changes not only in hereditary MTC but also in the sporadic form, with close correlations between mutational status and prognosis. In recent years, microRNAs (miRNAs) have become highly relevant as crucial players in MTC etiology. Current research has focused on their roles in disease carcinogenesis and development, but recent studies have expounded their potential as biomarkers and response predictors to novel biological drugs for advanced MTC. One such element which requires greater investigation is their mechanism of action and the molecular pathways involved in the regulation of gene expression. A more thorough understanding of these mechanisms will help realize the promising potential of miRNAs for MTC therapy and management.

Hereditary Medullary Thyroid Carcinoma: Genotype, Phenotype and Outcomes in a North Indian Cohort.

Aggressiveness of hereditary medullary thyroid carcinoma (hMTC) has been conventionally described to correlate with American Thyroid Association (ATA) risk groups based on RET mutations. Recent evidence increasingly contradicts this notion. We studied the RET genotype and its correlation with disease phenotype and survival outcomes in a cohort of hMTC patients. In a retrospective cohort of 55 hMTC patients from 23 families treated at a north Indian tertiary care institute over 15-years, RET genotype was correlated with disease phenotype (clinical, biochemical, and pathological attributes) and outcomes in terms of biochemical cure (normalization of serum calcitonin), structural cure, overall survival (OS) and disease specific survival (DSS). Forty-nine patients had Multiple Endocrine Neoplasia(MEN)-type 2A syndrome, 02 had MEN-2B, and 4 had familial MTC. Two patients belonged to highest ATA risk, 41 to high-risk, and 12 to moderate risk categories. Age of the patientsor stage of disease at presentation did not differ significantly between the ATA risk groups. Though the baselineserum calcitonin was significantly higher in highest risk category, the biochemical cure rates were not significantly different. At a median follow up of 48months (Inter-quartile range 18-84, range 12-192) structural cure rates in ATA moderate and high risk groups were significantly higher than highest risk group (p = 0.04). No significant difference in OS between the three ATA groups of hMTC among the patients who underwent surgical treatment was observed (p = 0.098). The ATA moderate and high risk groups have better structural cure rates compared to ATA highest risk group. The biochemical cure and overall survival rates did not significantly differ between ATA risk-groups, and were impacted by the disease stage at presentation.The current ATA risk-groups do not reliably predict the outcomes in terms of biochemical cure and survival in hMTC patients.