Clinical Trials Logo

Neuroendocrine Tumors clinical trials

View clinical trials related to Neuroendocrine Tumors.

Filter by:

NCT ID: NCT06456723 Completed - Clinical trials for Neuroendocrine Tumors

Evaluation of [18F]Fluoroethyl Triazole Labelled [Tyr3]-Octreotate Analogues for the Imaging of Neuroendocrine Tumours.

FETONET
Start date: May 14, 2014
Phase: Phase 1/Phase 2
Study type: Interventional

Radiolabelled somatostatin analogs are invaluable in the diagnosis and treatment of neuroendocrine tumours (NET). The most commonly used positron emission tomography (PET) radiotracers used for the visualisation of NET are radiolabelled somatostatin analogs (SSAs) labelled with [68Ga]Ga-DOTA-peptides. The [68Ga]Ga-DOTA-peptide radiolabelled SSAs have significant limitations in terms of accessibility and low throughput. The team at Imperial College London developed a novel radiotracer, [18F]fluoroethyl triazole labelled [Tyr3]-Octreotate analogue ([18F]-FET-βAG-TOCA), in an attempt to overcome these limitations. Within the FETONET study, two cohorts of patients will undergo PET/CT imaging following an injection of [18F]-FET-βAG-TOCA, with the view to compare the clinical utility of this radiotracer with [68Ga]Ga-DOTA-peptide PET-CT in patients with NET.

NCT ID: NCT06455358 Not yet recruiting - Clinical trials for Neuroendocrine Tumors

61Cu-NODAGA-LM3 PET/CT for the Detection of Neuroendocrine Tumors (COPPER PET in NET)

Start date: June 2024
Phase: Phase 1/Phase 2
Study type: Interventional

The goal of this monocentric, open-label, randomized-controlled, reader-blind clinical study is to assess the safety of the radiolabeled somatostatin receptor ligand, 61Cu-NODAGA-LM3, and its sensitivity in comparison to the standard of care, 68Ga-DOTATOC, for PET/CT imaging in patients with well differentiated bronchopulmonary and gastroenteropancreatic neuroendocrine tumors.

NCT ID: NCT06448208 Recruiting - Clinical trials for Neuroendocrine Tumors

Defining Response Criteria for PET Scans for People With Neuroendocrine Tumors

Start date: June 3, 2024
Phase:
Study type: Observational

People with neuroendocrine cancer typically have imaging scans before and after treatment, including positron emission tomography (PET) scans. The scans are analyzed using a set of criteria that describes how the disease has responded to treatment. The purpose of this study is to establish new criteria for doctors to use when evaluating these PET scans. Researchers are testing whether these new criteria are useful for predicting whether a person's cancer gets better, gets worse, or stays the same. Researchers will also compare these new criteria to the current standard criteria for evaluating imaging scans.

NCT ID: NCT06430021 Recruiting - Clinical trials for Neuroendocrine Tumors

Study of the Value of hPG80 (Circulating Progastrin) for the Diagnosis of Neuroendocrine Tumours in Patients With an MEN1 Mutation

PRO-NEM1
Start date: June 13, 2024
Phase:
Study type: Observational

Multiple Endocrine Neoplasia type 1 (MEN1) is an autosomal dominant disease with a high degree of penetrance (>80% of patients). It is caused by the presence of the MEN1 mutation located on chromosome 11q13. The prevalence of this mutation is estimated at approximately 1/30,000. This hereditary syndrome is characterized by the presence of tumours of the endocrine system (adenoma of the parathyroid, pituitary and adrenal glands, neuroendocrine tumors - NETs - of the endocrine pancreas, duodenum, lung or thymus), which threaten the health of these patients. Other malignant tumors such as breast cancer are also more common in patients with MEN1. The clinical manifestations of MEN1 are linked to the location of the adenomas and NETs and their secretory products. Indeed, most NETs produce and secrete numerous peptide hormones (in the case of Insulinomas, Gastrinomas, VIPomas, Glucagonomas or PPomas for example). This causes a specific clinical syndrome, which can be detected in the blood serum. However, most NETs are "non-functional" tumors, which do not have specific secretions. Among general tumor markers, chromogranin A (CgA) is widely used as a biomarker for monitoring NETs. CgA is a secretory protein released into the blood by neuroendocrine cells. However, the performance of CgA as a diagnostic biomarker is too limited to be used for the early identification of NETs, particularly in patients with MEN1. This is why patients with MEN1 undergo regular biological and morphological examinations, at least once a year, to screen for the development of adenomas and NETs. However, CgA or hormone secretions assays, and imaging examinations (MRI, CT scan, or duodenopancratic endoscopic ultrasound (EUS)) are tedious and stressful for patients; in addition, they all have their limitations (poor performance for biological tests; irradiation for CT scan; need for anesthesia for endoscopic ultrasound, etc.). Consequently, there is a need for new markers to identify NETs in this population as early as possible. Progastrin is a pro-hormone that, under physiological conditions, is matured into gastrin in the G cells of the antrum of the stomach. The role of gastrin is to stimulate gastric acid secretion during digestion. It also plays an important role in regulating cell growth in the gastric mucosa. In pathological situations, it has been shown that the GAST gene, which codes for progastrin, is over-expressed in human tumor cells of different origins, leading to the accumulation of progastrin within them. Tumor cells that are unable to mature progastrin into gastrin, either because the maturation enzymes are not expressed or are inhibited, will secrete it. This circulating progastrin is then called hPG80 (to differentiate it from intracellular progastrin) and is detectable in patient blood. hPG80 is a new biomarker for the detection of different types of cancer. It appears to be elevated in the early stages of the disease, potentially more so than other biomarkers such as circulating tumor DNA (ctDNA) or NETest. In addition, hPG80 is easily measured in plasma using the DxPG80.Lab ELISA (Progastrin Manufacturing). The analytical characteristics of this CE-marked in vitro diagnostic test have been published in the Analytical Methods journal. It has been validated in numerous studies of various cancers, including NET patients. In addition, a study conducted by the team at Progastrin Manufacturing (formerly ECS-Progastrin) showed that hPG80 was unequivocally present in the peripheral blood of patients with 11 different types of cancer, with a concentration significantly higher than that found in blood donors considered to be healthy. We therefore hypothesize that hPG80 could also be a biomarker for NETs in MEN1.

NCT ID: NCT06427798 Not yet recruiting - Pheochromocytoma Clinical Trials

Somatostatin-Receptors (SSTR)-Agonist [212Pb]VMT-alpha-NET in Metastatic or Inoperable SSTR+ Gastrointestinal Neuroendocrine Tumor and Pheochromocytoma/Paraganglioma Previously Treated With Systemic Targeted Radioligand Therapy

Start date: June 26, 2024
Phase: Phase 1/Phase 2
Study type: Interventional

Background: Gastrointestinal neuroendocrine tumors (GI NET) are a type of cancer that affects the stomach and intestines; pheochromocytoma/paragangliomas (PPGL) are tumors that grow in or near the adrenal glands. Both of these types of tumor have high levels of a protein called somatostatin receptors (SSTR) on their surfaces. Researchers want to test a treatment that targets SSTR. Objective: To test a drug ([212Pb]VMT-alpha-NET) in people with GI NET or PPGL. The drug has 2 components: a protein to bind to SSTR and a radioactive agent to kill the cancer cells. Eligibility: Adults aged 18 years or older with GI NET or PPGL tumors that have spread and cannot be removed with surgery. Design: Participants will be screened. They will have a physical exam, with imaging scans, blood tests, and tests of their heart function. [212Pb]VMT-alpha-NET is given through a tube attached to a needle inserted into a vein (infusion). Treatment will be given in four 8 week cycles. Participants will receive the drug on the first day of each cycle. They will remain in the clinic at least 4 hours after each infusion and may nee to stay in th hospital for up to 48 hour for monitoring and testing. They will have blood tests every week of each cycle. Some participants will also get a related study drug ([203Pb]VMT-alpha-NET). They will receive this drug a few days before the first 2 cycles. At 4, 24, and 48 hours after each infusion, they will have whole body scans. These scans will show where the study drug went in their body. Follow-up visits will continue for 10 years....

NCT ID: NCT06406465 Not yet recruiting - Clinical trials for Carcinoma, Neuroendocrine

A UGT1A1 Genotype-Directed Study of Belinostat Pharmacokinetics and Toxicity

Start date: June 26, 2024
Phase: Phase 2
Study type: Interventional

Background: High-grade neuroendocrine carcinomas (HGNEC) are cancers that develop in different parts of the body, including the digestive tract, genitals, neck, and head. One drug (belinostat), combined with 2 other drugs (etoposide and cisplatin), is approved to treat HGNEC. But some people may have a gene variant that affects how quickly their body gets rid of the drug; these people may do better with different dosages of belinostat. Objective: To test higher or lower doses of belinostat based on gene variants in people with HGNEC. Eligibility: People aged 18 years and older with HGNEC. Design: Participants will be screened. They will have a physical exam with blood tests. Some blood will be used for genetic testing. They will have imaging scans and a test of their heart function. Samples of tumor tissue may be collected. All 3 study drugs (belinostat, etoposide, cisplatin) are given through a tube attached to a needle inserted into a vein. Treatment will be given in 21-day cycles. For cycles 1 through 6: Participants will come to the clinic for the first 4 days. They will be given all 3 drugs. Imaging scans and other tests will be repeated. Each visit will last 4 to 8 hours. After cycle 6: Participants may continue treatment with belinostat alone. They will come to the clinic for the first 3 days of each cycle. They may continue treatment for up to 5 years if the drug is helping them. Participants will have a follow-up visit 30 days after their last dose of belinostat. Then they will receive follow-up visits by phone or email every 3 to 6 months.

NCT ID: NCT06406387 Not yet recruiting - Clinical trials for Pancreatic Neuroendocrine Tumor

ATRX/DAXX in EUS-FNB Specimens of Pan-NETs

FORESEE
Start date: June 1, 2024
Phase:
Study type: Observational

P-NENs are classified as functional (F-) or non-functional (NF-) depending on the presence or absence of a clinical hormonal hypersecretion syndrome. Moreover, the WHO 2017 classification of pNENs distinguishes between well-differentiated pancreatic neuroendocrine tumors (pNETs) and poorly differentiated pancreatic neuroendocrine carcinomas (pNECs). pNETs are then divided according to a grading scheme based on Ki67 index in pNETs-G1 (Ki67 index ≤3%) and pNETs-G2 (Ki67 index between 4% and 20%). pNECs are all G3, with a Ki67 index >20%. Endoscopic ultrasound with fine-needle biopsy (EUS-FNB) demonstrated safe and effective preoperative grading based on the Ki-67 proliferative index. However, downstaging rate is not neglectable, reaching 15% in a recent metanalysis. Moreover, recent whole-exome and whole genome sequencing studies revealed that the mutually exclusive inactivating mutations in death domain-associated protein (DAXX) and/or in α-thalassemia/mental retardation X-linked (ATRX) chromatin remodeling genes are associated with more aggressive disease. In a retrospective study, the investigators recently evaluated the correspondence of DAXX/ATRX expression on 41 EUS-FNB samples with corresponding surgical specimens demonstrating a 95.1% (almost perfect agreement, κ = 0.828; p < 0.001) and 92.7% (substantial agreement, κ = 0.626; p < 0.001) concordance for DAXX and ATRX expression, respectively. This study aims to evaluate the potential clinical/prognostic role of DAXX/ATRX expression as implementation of the currently used Ki67-based grading, evaluated on EUS-FNB samples in a prospective cohort of patients with NF-pNETs

NCT ID: NCT06402695 Recruiting - Clinical trials for Neuroendocrine Tumors

Observational Study on GEP-and Pulm-NET Treated at FPG

ETNA-FPG
Start date: September 15, 2023
Phase:
Study type: Observational

Observational ambispective monocentric study on the clinical, laboratory, pathological and molecular characteristics of patients suffering from gastroenteropancreatic tract and pulmonary neuroendocrine tumors and their prognostic and predictive value.

NCT ID: NCT06398444 Not yet recruiting - Clinical trials for Advanced Neuroendocrine Neoplasm

A Clinical Study to Evaluate the Safety and Efficacy of Lutetium[177Lu] Oxodotreotide Injection in Patients With Advanced Neuroendocrine Neoplasms

Start date: June 1, 2024
Phase: Phase 2/Phase 3
Study type: Interventional

This is a multicenter, single-arm, two-part study designed to evaluate the safety and efficacy of Lutetium [177Lu] Oxyoctreotide Injection in patients with inoperable, locally advanced or metastatic, progressive, advanced somatostatin receptor (SSTR) positive neuroendocrine neoplasms (NEN) other than grade G1/G2 gastroenteropancreatic neuroendocrine tumors (GEP-NET).

NCT ID: NCT06395402 Not yet recruiting - Clinical trials for Neuroendocrine Tumors

177Lu-DOTATATE Modified Delivery Based on Individualized Dosimetry

LUMOD-ID
Start date: May 1, 2024
Phase: Phase 2
Study type: Interventional

The goal of this study is to learn if individualized dosimetry-based prescribing of Lutetium-177 DOTATATE (Lutathera, Novartis Pharmaceuticals) improves treatment outcomes for adults with unresectable neuroendocrine tumors. To investigate this, study participants will: - Undergo Somatostatin Receptor (SSTR) positron emission tomography (PET) imaging, such as a DOTATOC PET/CT scan - Be randomized to receive standard treatment (as per FDA guidelines) or investigational treatment (customized dosing of Lutathera based upon dosimetry) - Undergo blood tests for 4 to 8 weeks after each Lutathera treatment - Complete patient reported outcome questionnaires - Visit the clinic for follow-up about every 8 weeks.