Multiple Endocrine Neoplasia Type Research Articles

Genotype-Phenotype Correlations in the Hyperparathyroidism-Jaw Tumor Syndrome.

Establishing genotype-phenotype correlations in disorders of hereditary endocrine neoplasia is important for clinical screening, genetic counseling, prognostication, surveillance, and surgical strategy, and may also provide clues about disease pathogenesis. Important genotype-phenotype correlations are recognized, for example, in pheochromocytoma/paraganglioma and multiple endocrine neoplasia type 2A. The presence of such correlations has been less clear in other familial endocrine disorders associated with primary hyperparathyroidism including multiple endocrine neoplasia type 1 (MEN1), and the hyperparathyroidism-jaw tumor syndrome (HPT-JT). Characteristic features of HPT-JT, apart from fibro-osseous jaw tumors and uterine lesions, include renal neoplasms, such as Wilms tumor and mixed epithelial and stromal tumor (MEST; "renal hamartomas"), and a high incidence of parathyroid cancer. Emerging evidence suggests two different genotype-phenotype correlations in HPT-JT based on the type of variant in the CDC73 tumor suppressor gene. Although multiple CDC73 genotypes can give rise to the Wilms tumor phenotype in HPT-JT, the development of MEST of the kidney specifically correlates with the presence of a start-loss variant affecting the initiator methionine codon of parafibromin, the protein product encoded by CDC73. Furthermore, the risk of parathyroid cancer in HPT-JT also appears to correlate with genotype: CDC73 frameshift indel, splice-site, and stopgain genotypes are associated with a greatly increased risk of parathyroid carcinoma compared to carriers of CDC73 missense and non-frameshift indel variants. The recognition of such genotype-phenotype correlations in HPT-JT may impact genetic counseling, patient care and disease surveillance.

Up-to-Date Imaging for Parathyroid Tumor Localization in MEN1 Patients with Primary Hyperparathyroidism: When and Which Ones (A Narrative Pictorial Review).

Patients diagnosed with multiple endocrine neoplasia type-1 (MEN1) often initially present with primary hyperparathyroidism (pHPT), and typically undergo surgical intervention. While laboratory tests are fundamental for diagnosis, imaging is crucial for localizing pathological parathyroids to aid in precise surgical planning. In this pictorial review, we will begin by comprehensively examining key imaging techniques and their established protocols, evaluating their effectiveness in detecting abnormal parathyroid glands. This analysis will emphasize both the advantages and potential limitations within the clinical context of MEN1 patients. Additionally, we will explore integrated imaging approaches that combine multiple modalities to enhance localization accuracy and optimize surgical planning-an essential component of holistic management in MEN1 cases. Various imaging techniques are employed for presurgical localization, including ultrasound (US), multiphase parathyroid computed tomography (CT) scanning (4D CT), magnetic resonance imaging (MRI), and nuclear medicine techniques like single photon emission computed tomography/CT (SPECT/CT) and positron emission tomography/CT (PET/CT). US is non-invasive, readily available, and provides high spatial resolution. However, it is operator-dependent and may have limitations in certain cases, such as intrathyroidal locations, the presence of bulky goiters, thyroid nodules, and previous thyroidectomy. Four-dimensional CT offers dynamic imaging, aiding in the identification of enlarged parathyroid glands, particularly in cases of ectopic or supernumerary glands. Despite concerns about radiation exposure, efforts are underway to optimize protocols and reduce doses, including the use of dual-energy CT. MR imaging offers excellent soft tissue contrast without radiation exposure, potentially providing superior differentiation between parathyroid glands and the surrounding structures. Radionuclide imaging, especially PET/CT using radiopharmaceuticals like [18F]FCH, shows promising results in localizing parathyroid tumors, particularly in patients with MEN1. [18F]FCH PET/CT demonstrates high sensitivity and may provide additional information compared to other imaging modalities, especially in cases of recurrent HPT.

IN SILICO ANALYSIS OF IDENTIFIED MOST FREQUENT MUTATIONS IN EXON 10, CODON 618 OF THE HUMAN RET GENE

Background: The Rearranged during Transfection (RET) gene mutations are known to be responsible for Hirschsprung disease (HSCR), as well as the multiple endocrine neoplasia (MEN) types 2A, 2B and familial medullary thyroid carcinoma (FMTC). Aim: In this study we analyse mutations of codon 618 (Cys618Phe, Cys618Arg, Cys618Ser, Cys618Tyr) in exon 10, in terms of their structural similarities, stability, conservation and interaction with their close interactor GFRA3 protein. Material and Methods: In the present study, multiple bioinformatics software was used, including HGMD and UniProt for the data collection. The structural prediction of different mutations at codon 618 was performed by using PSIPRED for secondary structure prediction and I-TASSER for 3D structure modelling. The mutated proteins stability was determined, using I- Mutant and MuPro, while the evolutionary amino acids conservation was assessed with the ConSurf tool. The wildtype RET and mutant proteins were independently docked with their nearby interactor protein GFRA3.Findings: The analysis indicates that among the examined mutations, the Cys618Phe displayed the greatest structural and functional similarity to the wildtype RET protein. The interaction analysis suggested that the Cys618Phe demonstrated stronger binding with GFRA3 compared to other mutations. Conclusion: This study highlights the impact of codon 618 mutations in exon 10 of the RET gene on protein stability, structure, and interactions with GFRA3. We find mutation Cys618Phe comparatively similar to RET wildtype protein while dissimilar mutation Cys618Tyr. These findings could help a molecular geneticist in analyzing mutations at codon 618 for both research and diagnostic purpose.

Prevalence of the major thyroid cancer-associated syndromes in the United States.

A subset of thyroid cancers develops in a setting of a known hereditary cancer-associated syndrome. Understanding the population prevalence of thyroid cancer-associated syndromes is important to guide germline genetic testing and clinical management. To estimate the prevalence of the major thyroid cancer-associated syndromes in the United States using the All of Us Research Program (AoU) data. In this cohort study, we identified pathogenic and likely pathogenic (P/LP) variants from the ClinVar database in 245,394 AoU biobank participants. We performed a logistic regression analysis of the association of ClinVar P/LP variants with thyroid cancer. P/LP variants in the genes of interest were manually curated to ensure match and pathogenicity status. We calculated the prevalence of thyroid cancer-associated syndromes defined by the presence of P/LP variants. Using logistic regression, we found that three hereditary syndromes, multiple endocrine neoplasia type 2 (MEN2, RET gene, p = 3.23e-20), PTEN hamartoma syndrome (PHPS, PTEN gene, p = 2.59e-15), and familial adenomatous polyposis type 1 (FAP, APC gene, p = 2.73e-10) were significantly associated with thyroid cancer. All these syndromes were previously reported to increase the risk of thyroid cancer. The prevalence of thyroid cancer-associated syndromes in the AoU was 1:2,172 (113 cases), 1:8,764 (28 cases), and 1:8,461 (29 cases) for MEN2, PHPS, and FAP, respectively. Most carriers of P/LP variants were not diagnosed with the features of the syndromes, including thyroid cancer, pheochromocytoma, or primary hyperparathyroidism. Three pathogenic RET variants that cause two amino acid substitutions, V804M and V804L, constitute 65% of all MEN2 variants in the AoU, and none of these carriers were diagnosed with thyroid cancer. The prevalence of MEN2 and PHPS is ~10-20 times higher than it is currently estimated for the general population (1:35,000 - 1,50,000 for MEN2 and 1:200,000-1:250,000 for PHTS). Most affected individuals are not diagnosed with thyroid cancer. These results further refine our understanding of the prevalence of hereditary syndromic thyroid cancers and may change the clinical approach to patients with moderate-risk RET mutations (such as V804M and V804L), potentially emphasizing active surveillance over prophylactic thyroidectomy.

Mechanisms of resistance to RET-directed therapies.

The association between RET and multiple endocrine neoplasia type 2 was established in 1993 and remains one of the very few oncogenes for which distinct phenotypes (medullary thyroid cancer or phaeochromocytoma) are associated with the same hot-spot variants occurring either in germline or somatic DNA. Somatic RET fusion events have also been described in several cancers, including papillary thyroid cancer, non-small cell lung cancer, breast cancer, salivary gland cancer and pancreatic cancer. Highly selective RET inhibitors have improved outcomes in RET-altered cancers and have been well tolerated. Nevertheless, primary and acquired drug resistance has been observed, arising from distinct genomic alterations either in RET (on target resistance) or via alternate oncogenic pathways (bypass resistance). The same mechanisms of resistance have been observed across multiple cancer types, which implies RET-altered cancers evolve away from RET addiction via stochastic subclonal events. Understanding these mechanisms is crucial for identifying therapeutic opportunities to overcome resistance. Successful treatment targeting bypass oncogenes has been reported in several instances, at least for short-term outcomes; in contrast, although several compounds have been reported to overcome on-target RET alterations, none have yet been translated into routine clinical practice and this remains an area of urgent clinical need.

Multiple endocrine neoplasia type 2A with simultaneous metastatic medullary thyroid carcinoma and bilateral pheochromocytoma

Multiple endocrine neoplasia type 2A with simultaneous metastatic medullary thyroid carcinoma and bilateral pheochromocytoma

Sarcomas arising in MEN1 patients: demonstrating LOH of the MEN1 locus and loss of menin expression.

Multiple endocrine neoplasia type 1 (MEN1) is a hereditary tumor syndrome characterized by endocrine tumors, typically from parathyroid, pancreatic, or anterior pituitary origin. In addition, benign cutaneous soft tissue tumors are prevalent in MEN1 patients. Although sarcomas have been reported in MEN1 patients it is unclear if these tumors should be considered as part of the MEN1 syndrome. Here, five patients with a MEN1 syndrome and a sarcoma are described. In all five sarcomas loss of heterozygosity of the MEN1 gene and loss of expression of menin are shown, suggesting that sarcomas may be a phenotypic expression of MEN1 syndrome.

Screening and surveillance practices for Multiple Endocrine Neoplasia type 1-related Neuroendocrine Tumours in European Neuroendocrine Tumor Society Centers of Excellence (ENETS CoE)-An ENETS MEN1 task force questionnaire study.

Multiple Endocrine Neoplasia type 1 (MEN1) Clinical Practice Guidelines (2012) are predominantly based on expert opinion due to limited available evidence at the time, leaving room for interpretation and variation in practices. Evidence on the natural course of MEN1-related neuroendocrine tumours (NET) and the value of screening programs has increased and new imaging techniques have emerged. The aim of this study is to provide insight in the current practices of screening and surveillance for MEN1-related NETs in ENETS Centers of Excellence (CoEs). A clinical practice questionnaire was distributed among all 65 ENETS CoEs. Response rate was 91% (59/65). In 14% of CoEs <10 patients, in 50% 10-49, in 31% 50-100 and in 3 centres (5%) >100 patients with MEN1 are seen. Practices with regard to screening and surveillance of NETs were markedly heterogeneous. Differences between countries were noted in the use of gut hormones for biochemical screening and the choice for imaging modality for screening/surveillance of pancreatic NETs (PanNETs). Magnetic resonance imaging (MRI) is the preferred modality for screening and surveillance of PanNETs, whereas this is computed tomography (CT) for thoracic NETs. Practices regarding screening for thoracic NETs were more homogeneous among larger volume CoEs, with longer screening intervals. The majority of CoEs tailored the surveillance of small pancreatic and lung NETs to observed growth rate. 68% of CoEs advise patients with clinical MEN1 with negative genetic testing to undergo periodic screening like mutation-positive patients. In conclusion, there is still marked heterogeneity in practice, although there are also common trends. Differences were sometimes associated with volume or country, but often no association was found. This underscores the need for clear and evidence-based practice recommendations.

Genetic Landscape and Clinical Manifestations of Multiple Endocrine Neoplasia Type 1 in a Korean Cohort: A Multicenter Retrospective Analysis.

Multiple endocrine neoplasia type 1 (MEN1) is an autosomal dominant disorder characterized by tumors in multiple endocrine organs, caused by variants in the MEN1 gene. This study analyzed the clinical and genetic features of MEN1 in a Korean cohort, identifying prevalent manifestations and genetic variants, including novel variants. This multicenter retrospective study reviewed the medical records of 117 MEN1 patients treated at three tertiary centers in Korea between January 2012 and September 2022. Patient demographics, tumor manifestations, outcomes, and MEN1 genetic testing results were collected. Variants were classified using American College of Medical Genetics and Genomics (ACMG) and French Oncogenetics Network of Neuroendocrine Tumors propositions (TENGEN) guidelines. A total of 117 patients were enrolled, including 55 familial cases, with a mean age at diagnosis of 37.4±15.3 years. Primary hyperparathyroidism was identified as the most common presentation (84.6%). The prevalence of gastroenteropancreatic neuroendocrine tumor and pituitary neuroendocrine tumor (PitNET) was 77.8% (n=91) and 56.4% (n=66), respectively. Genetic testing revealed 61 distinct MEN1 variants in 101 patients, with 18 being novel. Four variants were reclassified according to the TENGEN guidelines. Patients with truncating variants (n=72) exhibited a higher prevalence of PitNETs compared to those with non-truncating variants (n=25) (59.7% vs. 36.0%, P=0.040). The association between truncating variants and an increased prevalence of PitNETs in MEN1 underscores the importance of genetic characterization in guiding the clinical management of this disease. Our study sheds light on the clinical and genetic characteristics of MEN1 among the Korean population.

Primary hyperparathyroidism in multiple endocrine neoplasia type 1 (MEN1): Northern Ireland's (N.I) experience

Primary hyperparathyroidism in multiple endocrine neoplasia type 1 (MEN1): Northern Ireland's (N.I) experience

Targeting Menin in Acute Myeloid Leukemia: Therapeutic Advances and Future Directions.

Germline mutations in the MEN1 gene encoding menin protein cause multiple endocrine neoplasia type 1 (MEN1) syndrome. Recent evidence suggests that inhibiting the interaction of menin with its crucial oncogenic protein partners represents a promising therapeutic strategy to AML. Menin plays a critical role in lysine methyltransferase 2A (KMT2A)-gene-rearranged and NPM1-m acute leukemias, both associated with adverse outcomes with current standard therapies, especially in the relapsed/refractory setting. Disrupting the menin-KMT2A interaction affects the proleukemogenic HOX/MEIS transcription program. This disruption leads to the differentiation of KMT2Ar and NPM1-m AML cells. Small molecular inhibitors of the menin-KMT2A interaction target the central cavity of MEN1 to inhibit the MEN1-KMT2A interaction and could target a similar transcriptional dependency in other leukemia subsets, broadening their therapeutic potential. These agents, both as monotherapies and in combination with synergistic drugs, are undergoing preclinical and clinical evaluation with promising early results. With the growing literature around menin inhibitors in AML, we discussed the biology of menin, its mechanism of action, its interacting partners in leukemia, possible inhibitors, their implications, synergistic drugs, and future therapeutic strategies in this review.

Genotype-based prognosis prediction for MEN1-Related pancreatic neuroendocrine tumors in Korean patients a single-center retrospective study

BackgroundPancreatic neuroendocrine tumors (PNETs) are the leading cause of death related to multiple endocrine neoplasia type 1 (MEN1). Previous studies have linked certain mutations in the MEN1 gene and loss of interactions with MENIN's functional partners to the mortality or aggressiveness of PNETs. This study aimed to evaluate the genotype-phenotype correlations of MEN1-related PNETs in Korean patients and to summarize the treatment outcomes comprehensively. MethodsWe retrospectively analyzed 72 patients diagnosed with MEN1 at a tertiary care center in Korea between January 2003 and September 2022. MEN1 mutations were analyzed using direct or next-generation sequencing. ResultsAmong 40 families with MEN1, 10 had exon 2 mutations, which were the most frequently observed. Of these, 50 (69.4 %) were diagnosed with PNETs; 20 underwent pancreatic resection. Patients with truncating mutations showed a significant difference in age-related penetrance of PNET (p = 0.029). No distinct genotype was associated with malignant transformation (lymph node or distant metastasis) in MEN1-related PNETs. In the subgroup Cox model, mutations in exons 3 or 10 showed significant differences in tumor progression in the observation group (adjusted hazard ratio: 8.164,(95 % CI: 1.648–40.436), p = 0.010, HR: 8.300, (95 % CI: 1.808–38.113), p = 0.007). ConclusionPNETs in Korean patients with MEN1 exhibit a stable prognosis. An individualized follow-up strategy may be necessary, particularly for young patients with truncating mutation in the MEN1 gene. In addition, those with mutations in exons 3 or 10 may require more active surveillance to decrease the risk of progression.

Molecular Pathophysiology of Parathyroid Tumorigenesis-The Lesson from a Rare Disease: The "MEN1 Model".

Primary hyperparathyroidism represents the third most prevalent endocrine disease in the general population, consisting of an excessive secretion of parathyroid hormone from one or, more frequently, more of the parathyroid glands, leading to a dysregulation of calcium homeostasis. Schematically, its development occurs primarily by pathophysiological events with genetic mutation, at the germline and/or somatic level, that favor the neoplastic transformation of parathyroid cells and promote their aberrant proliferation, and mutations determining the shift in the PTH "set-point", thus interfering with the normal pathways of PTH secretion and leading to a "resetting" of Ca2+-dependent PTH secretion or to a secretion of PTH insensitive to changes in extracellular Ca2+ levels. Familial syndromic and non-syndromic forms of primary hyperparathyroidism are responsible for approximately 2-5% of primary hyperparathyroidism cases and most of them are inherited forms. The history of the genetic/molecular studies of parathyroid tumorigenesis associated with multiple endocrine neoplasia type 1 syndrome (MEN1) represents an interesting model to understand genetic-epigenetic-molecular aspects underlying the pathophysiology of primary hyperparathyroidism, both in relation to syndromic and non-syndromic forms. This minireview aims to take a quick and simplified look at the MEN1-associated parathyroid tumorigenesis, focusing on the molecular underlying mechanisms. Clinical, epidemiological, and observational studies, as well as specific guidelines, molecular genetics studies, and reviews, have been considered. Only studies submitted to PubMed in the English language were included, without time constraints.

Neuroendocrine Tumors and Survival Rates in Multiple Endocrine Neoplasia Type 1 Patients: Impact of Gender Difference

Introduction: Multiple endocrine neoplasia type 1 (MEN-1) is the most common inherited syndrome associated with NET development and gender-specific differences are emerging in neuroendocrine tumors (NETs). This study aimed to analyze gender difference in a single cohort of MEN-1 patients focusing on duodeno-pancreatic (DP)-NET and survival rates. Methods: MEN-1 patients referred to the Endocrinology Unit of the “Federico II” University of Naples, ENETS CoE, were retrospectively evaluated. Results: Among 100 MEN-1 patients enrolled, 59 (59%) were female and 41 (41%) male, and mean age at diagnosis was 39.4 years (range 5–86). No statistically significant association was identified between MEN-1 clinical manifestations and gender (primary hyperparathyroidism [PHPT] p: 1.0, DP-NET p: 0.83, pituitary adenoma [PA] p: 0.84, lung NET p: 0.64, and thymic NET p: 0.10), and similarly, age at diagnosis of MEN-1 and its individual manifestations was similar between genders. Survival analysis revealed no statistically significant difference between genders in DP-NET patients regarding progression disease p: 1.0 and death p: 1.0. Mean progression-free survival (PFS) of patients with DP-NET was 98.6 months (range 3–288), and mean overall survival (OS) was 130.1 months (range 3–444 months), without differences between genders (PFS p: 0.67 and OS p: 0.60). The Kaplan-Meier survival curves for PFS and OS showed no differences between genders (PFS p: 0.92; OS p: 0.87). Conclusion: In this MEN-1 cohort, no gender differences in the occurrence of PHPT, PA, DP-NET, lung NET, and thymic NET, nor in survival outcomes including PFS and OS within the DP-NET subcohort, emerged. Therefore, this study supports similar screening and follow-up for both male and female MEN-1 patients.

A rare case of a combination of metabolic and genetic changes in one patient (multiple endocrine neoplasia type 1 syndrome and Williams syndrome)

Asthma and obesity are diseases characterized by variability in the course and possible complications, the frequency of which is steadily increasing from year to year. The correlation between obesity and asthma is still an acute problem of the health care system. Representing very common diseases, they aggravate each other’s course and significantly worsen the quality of life. Polyphenols are a promising option to solve the existing problem. These low molecular weight compounds are biologically active substances capable of influencing on many metabolic processes in the body. This review demonstrates the multiple properties of these unique micronutrients, including antioxidant, anti-carcinogenic, anti-inflammatory, metabolic, neuroprotective and many others. The integration of polyphenols into the daily diet can contribute to strengthening public health, reducing the frequency and progression of socially significant diseases, and using these compounds in diseases such as asthma and obesity, according to numerous modern studies, it is possible to achieve a significant therapeutic effect at all. The purpose of this literature review is to trace the correlation between the effect of using polyphenols and changes in the course of the disease and quality of life in patients with asthma on the background of obesity, based on facts from advanced sources

Pheochromocytoma-Paraganglioma Syndrome: A Multiform Disease with Different Genotype and Phenotype Features.

Pheochromocytoma and paraganglioma (PPGL) are rare tumors derived from the adrenal medulla and extra-adrenal chromaffin cells. Diagnosis is often challenging due to the great variability in clinical presentation; the complexity of management due to the dangerous effects of catecholamine excess and the potentially malignant behavior require in-depth knowledge of the pathology and multidisciplinary management. Nowadays, diagnostic ability has certainly improved and guidelines and consensus documents for treatment and follow-up are available. A major impulse to the development of this knowledge has come from the new findings on the genetic and molecular characteristics of PPGLs. Germline mutation in susceptibility genes is detected in 40% of subjects, with a mutation frequency of 10-12% also in patients with sporadic presentation and genetic testing should be incorporated within clinical care. PPGL susceptibility genes include "old genes" associated with Neurofibromatosis type 1 (NF1 gene), Von Hippel Lindau syndrome (VHL gene) and Multiple Endocrine Neoplasia type 2 syndrome (RET gene), the family of SDHx genes (SDHA, SDHB, SDHC, SDHD, SDHAF2), and genes less frequently involved such as TMEM, MAX, and FH. Each gene has a different risk of relapse, malignancy, and other organ involvement; for mutation carriers, affected or asymptomatic, it is possible to define a tailored long-life surveillance program according to the gene involved. In addition, molecular characterization of the tumor has allowed the identification of somatic mutations in other driver genes, bringing to 70% the PPGLs for which we know the mechanisms of tumorigenesis. This has expanded the catalog of tumor driver genes, which are identifiable in up to 70% of patients Integrated genomic and transcriptomic data over the last 10 years have revealed three distinct major molecular signatures, triggered by pathogenic variants in susceptibility genes and characterized by the activation of a specific oncogenic signaling: the pseudo hypoxic, the kinase, and the Wnt signaling pathways. These molecular clusters show a different biochemical phenotype and clinical behavior; they may also represent the prerequisite for implementing customized therapy and follow-up.

Multiple Endocrine Neoplasia Type 2B: Early Diagnosis by Multiple Mucosal Neuroma

Multiple Endocrine Neoplasia Type 2B: Early Diagnosis by Multiple Mucosal Neuroma

Long term outcomes of pituitary adenomas in Multiple Endocrine Neoplasia type 1: a nationwide study.

Historically, Multiple Endocrine Neoplasia type 1 (MEN1)-related pituitary adenomas (PAs) were considered more aggressive and treatment-resistant than sporadic PAs. However, recent studies suggest similarities in their behavior. This study aimed to evaluate the long-term outcomes of MEN1 PAs and identify predictive factors. Nationwide multicenter retrospective cohort study of MEN1-related PAs with a minimum 1-year follow-up, collecting patient demographics, germline MEN1 pathogenic variants (PV), PA size, secretory profile, radiological characteristics, treatments, and outcomes. We analyzed 84 PAs, 69%in females and 31% in males (P<0.001), diagnosed at a mean age of 35.2±14.9 years, mostly through screening (60.7%). Median follow-up was 9 years (IQR:4-16). Prolactin-secreting PAs (PRLomas) (53.5%) and microadenomas (65.5%) were most common. Dopamine agonist treatment was first line for 16 macroPRLomas and 25 microPRLomas, 60.9% of them achieved PRL normalization. There was no significant association observed with tumor size, sex, treatment duration or MEN1 PV. The risk of progression from micro-PA to invasive macro-PA was 7.2% (4/55), after 8 years (IQR:4-13), all of them were microPRLomas. Kaplan-Meier estimation curve showed significantly higher progression probability in microPRLomas than in other microadenomas subtypes (P=0.017) or microNFPAs (P=0.032). No differences were found between sex, age, or germline MEN1 PV. MEN1-related micro-PAs have a low risk of progressing to invasive macro-PAs, regardless of sex, age at diagnosis, or MEN1 germline PV. The risk is higher for microPRLomas over the long term. Therefore, long-term surveillance with reduced frequency, rather than intensive short-term monitoring, may be appropriate for patients with MEN1-related PAs.

Challenges in Managing Insulinomas and Hyperparathyroidism in MEN1: A Clinical Case Study

Pancreatic insulinoma is an uncommon neuroendocrine tumor with an incidence of approximately 1 per million people annually. While the majority of insulinomas are sporadic, a minority are associated with Multiple Endocrine Neoplasia type 1 (MEN1), a rare genetic disorder transmitted in an autosomal dominant pattern. MEN1 is characterized by the presence of hyperplastic or adenomatous parathyroid glands, pancreatic islet cell tumors, and pituitary tumors. The disorder can also involve lesions in the duodenum, adrenal glands, thymus, and bronchi. We report a case of MEN1 presenting with multiple insulinomas in a 37-year-old male, who exhibited symptoms of intermittent hypoglycemia over a decade. Diagnostic workup included biochemical assays , and imaging studies that revealed elevated insulin and C-peptide levels and hypervascular pancreatic lesions, , and pathological findings consistent with MEN1. Surgical intervention involved the enucleation of insulinomas and distal pancreatectomy, followed by removal of parathyroid adenomas. The postoperative evolution was marked by the resolution of hypoglycemic episodes and the persistence of primary hyperparathyroidism. This case underscores the complexity of diagnosing and managing insulinomas within the context of MEN1. It highlights the importance of a multidisciplinary approach to treatment and the need for ongoing surveillance to address both endocrine manifestations and psychological impacts. The findings advocate for comprehensive management strategies and support systems to improve patient outcomes and quality of life.

12406 Epidemiology Of Multiple Endocrine Neoplasia Type 1 In South Korea: A Nationwide Cohort Study

Abstract Disclosure: K. Kim: None. Y. Hwang: None. M. Yu: None. S. Moon: None. N. Hong: None. Y. Rhee: None. Multiple Endocrine Neoplasia Type 1 (MEN1) is one of the rarest endocrine disorders, with a scarcity of comprehensive epidemiological data globally. This deficiency in data is even more pronounced in Asian populations, where MEN1 remains an under-researched area. Therefore, our aim is to identity the prevalence, demographic characteristics, and patterns of comorbidities associated with MEN1.This nationwide cohort study assessed likely MEN1 cases from the Korean National Health Insurance Service database (2003-2020), selected via two operational definitions: one requiring an ICD-10 code for MEN1 (D44.8) and the other mandating at least two related procedures for MEN1-associated conditions (Primary Hyperparathyroidism, Pituitary Adenomas, and Duodenopancreatic Neuroendocrine Tumors). Cases were 1:10 matched by age, sex, and index year with controls who did not have any MEN-1 associated tumors. Our study evaluated 412 patients with likely MEN1 (mean age 43.6 ± 15.8 years; 35.4% male) against an age-sex matched control group of 4,120. Baseline characteristics showed a higher prevalence of comorbidities in MEN1 patients, including diabetes mellitus (22.6% vs 4.8%), hypertension (38.1% vs 16.4%), and dyslipidemia (20.6% vs 11.2%), all with p&amp;lt;0.001. Cancer prevalence was markedly elevated in MEN1 patients across most types, compared to controls. Adrenal involvements were observed in 34.7% of MEN1 patients, with adrenal adenoma being the most common (31.6%). Parathyroid, pituitary, and duodenopancreatic involvements were identified in 58.6%, 22.3%, and 19.9% of MEN1 patients, respectively. Mortality analysis revealed MEN1 patients had a higher mortality rate (16.0 per 1000 person-years) and a younger mean age at death (60.1 years) compared to controls (68.0 years), with an adjusted mortality hazard ratio of 3.1. Additionally, mortality risk varied with organ involvement; parathyroid involvement showed an adjusted HR of 2.7, pituitary involvement 4.7, and duodenopancreas involvement 4.0. The risk increased significantly with multi-organ involvement, where patients affected in more than two organs had HRs from 2.8 to 7.3. Our findings indicate that MEN1 significantly impacts patient morbidity and mortality, necessitating improved surveillance and tailored management to enhance early detection and optimize care for this vulnerable patient group. These insights underscore the pressing need for further research into MEN1 and other rare diseases to advance patient care and outcomes. Presentation: 6/2/2024