View clinical trials related to Neuroendocrine Tumors.
Filter by:This is a safety study to determine the phase 1 starting dose of [90]Yttrium-DOTATOC when it is administered intravenously for patients with neuroendocrine tumors that have spread to the liver.
Primary Objective: To assess how an amino acid based medical food (Enterade®) helps maintain the intestine's ability to absorb and retain fluids, leading to a reduction in diarrhea due to Neuroendocrine Tumors (NET) and/or Carcinoid Syndrome. This improvement in the absorption will be assessed in part by evaluating changes in average daily stool frequency from baseline in patients receiving Enterade®. Each subject serves as his or her own control. Secondary Objectives: - To assess subject reported health-related quality of life in subjects before and after compound administration. - To characterize the side effect profile and tolerability of Enterade® as measured by the number of total 8-oz Enterade® bottles consumed throughout the trial, and average drinks per day. - To evaluate changes in serum electrolytes before and after administration of Eenterade®. - To assess intravenous fluid requirement and/or hospitalization for dehydration secondary to diarrhea between control observation period and active Enterade® period. - To evaluate difference in utilization of standard-of-care anti-diarrheal medications between control observation period and Enterade® period. - To compare subjective feeling of bloating and flatulence before and after administration of Enterade®. - To evaluate changes in patient weight before and after administration of Enterade®.
Study to assess the long-term safety of LUTATHERA for the labeled indication (SmPC/USPI).
More than 50% of intestinal NETs are metastatic at the time of diagnosis, the liver being the main affected organ in 50-90% of cases. Initial liver tumor burden and slope of the tumor growth rate are two major prognostic factors in patients with intestinal NETs, followed by tumor grade at pathology. They are used in routine practice by oncologists to adapt patient treatment. Unlike other tumors, most NETs metastases are slow-growing tumors. Previous studies have shown that approximately half of the patients diagnosed with liver metastases showed no progression over a period of 3 to 6 months. The aim of this non randomised retrospective cohort study is to investigate whether the volumetric monitoring of the total tumor burden compared to the RECIST 1.1 criteria (used in routine practice by radiologists) at baseline and early follow-up (3 to 6 months) is more suitable for NETs, making possible to predict the prognosis at the onset of the disease, and also allowing a better adaptation of the treatment. The secondary objectives are to evaluate if the initial volume of the liver tumor is a prognostic factor of time to progression, to correlate the initial liver tumor volume and the number of liver lesions to the blood concentration of Chromogranin A (CgA), the presence of extra-abdominal disease and to correlate the tumor growth rate (TGR) and KI 67 (%) at base-line.
This is an open-label, single-dose, single-arm, single-center imaging study using DOTATATE peptide, labelled with the 64Cu tracer.
The purpose of this study is to determine whether ABI-009 will make advanced, malignant neuroendocrine tumor(s) of the lung, gastrointestinal tract and/or pancreas that cannot be removed by surgery smaller and slow the spread of your cancer in patients who have progressed or been intolerant to everolimus. All eligible participants will receive ABI-009, the study drug.
Midgut neuroendocrine tumours present an increasing incidence and poor survival at 5 years with limited therapeutic options for metastatic, non-operable cases. Lu-177 Dotatate, targeting somatostatin receptors, is an internal vectorized radiotherapy using Lu-177, an ideal radionuclide for peptide radionuclide therapy. In NETTER-1 phase III randomized clinical trial, Lu-177 Dotatate proved its superiority in increasing progression free survival for midgut neuroendocrine tumors. This study hypothesize that finding biomarkers of individual radio sensitivity for this type of internal vectorized therapy would allow treatment personalization. The protocol aim at studying transcript variations induced by this therapy.
Lung neuroendocrine tumor (LNT) represents approximately 20% of all lung cancers. The classification of LNT relies upon morphology. Recently, in the World Health Organization (WHO) classification, Ki-67 rate has been proposed for classi fication. It is, however, known that Ki-67 count has a poor interlaboratory reproducibly. For that reason, our team has looked for a new biomarker. GLUT1 protein a facilitative glucose transporter protein which has ubiquitous expression in mammalian. GLUT1 is overexpressed in many human cancers. But, no study has evaluated the GLUT1 staining as an aid diagnosis in LNT. The team have assessed the GLUT1 immunohistochemical staining in 36 LNT and to assess its diagnostic value.
NET originate in neuroendocrine cells throughout the body. The goal of this study is to assess the safety and efficacy of the combination of everolimus and the intravenous radiolabeled Lu-177 DOTATATE Therapy as a 1st line therapy in unresectable well to moderately differentiated metastatic neuroendocrine tumors of all GI, lung and pancreatic origins. This is a phase 1 - 2 study. The phase 1 part involves finding the maximum tolerating dose (MTD) of Everolimus.
CVM-1118 (TRX-818) is a new small molecule chemical entity being developed as a potential anti-cancer therapeutic by TaiRx, Inc. CVM-1118 is a potent anti-cancer agent in numerous human cancer cell lines. The safety of administrating CVM-1118 on human is evaluated from the phase 1 study. The objectives of the phase 2 study is to further investigate the efficacy of CVM-1118 for patients with advanced neuroendocrine tumors.