View clinical trials related to Solid Tumors.
Filter by:The purpose of the study is to determine whether the combination of Hycamtin (Topotecan) and Temozolomide is effective in the treatment of relapsed and refractory neuroblastoma and other paediatric solid tumors.
Study aimed to assess the reproducibility of PET imaging using AH111585 (18F) Injection. Subjects are evaluable if they undergo 2 administrations of AH111585 (18F) Injection (3 to 8 days apart) and the corresponding PET acquisitions, and tumors demonstrate detectable levels of 18F uptake on PET.
The scientific aim of this study is to evaluate patient comprehension of the 77 newly developed items as well as the extent to which the items correspond to the concepts of interest for each patient reported outcome (PRO). A secondary aim of this study is to evaluate the usability of the technology interface for collecting the PRO data of the PRO-CTCAE system once it has been built to accommodate the learning garnered during the cognitive interviews.
Claudiximab is a monoclonal antibody specific for gastric and gastroesophageal adenocarcinomas. Preclinically, claudiximab was shown to inhibit tumor growth and to kill cancer cells by indirect (complement-dependent cytoxicity, antibody-dependent cellular cytotoxicity) and direct mechanisms (antiproliferative and proapoptotic effects). The aim of this phase I study is to establish safety, toxicity and maximal tolerable dose of a single infusion of claudiximab in patients suffering from relapsing, advanced gastroesophageal and gastric adenocarcinoma
Background & Rationale: About 75% of US population living today will not die of cancer. There has been a recent report of a colony of cancer-resistant mice developed from a single male mouse that unexpectedly survived challenges of lethal cancer cell injections. In these so-called spontaneous regression/complete resistant (SR/CR) mice, cancer cells are killed by rapid infiltration of leukocytes, mainly of innate immunity. This highly effective natural cancer immunity is inherited and mediated entirely by white blood cells. Moreover, this cancer resistance can be transferred to wild type mice through the transfer of various immune cell types including granulocytes. The infusion of white blood cells, particularly cells of innate immunity, is a viable anticancer therapy in humans as well. This proposed trial will test whether white blood cell infusions from healthy unrelated donors can be used to treat cancer. The trial is designed to determine whether responses can be seen in cancer patients after infusion of HLA-mismatched white cells from healthy donors. It is important that the donors and recipients be unrelated and HLA-mismatched to avoid the possibility of transfusion-related Graft vs. Host Disease. The white blood cells from the healthy donors are being collected via apheresis following granulocyte mobilization with dexamethasone and filgrastim. The investigators will refer to the white blood cells as 'granulocytes' because 75-90% of the white blood cells collected through the apheresis will consist of granulocytes. The dose of at least 2x10 to the11th will be given from 4-5 donors at a rate of no more than one donor per day for each recipient. There will only be one infusion per day and no more than 5 infusions per week. Thus, a typical treatment in the study would span 1-2 weeks. After each infusion, the patients will be monitored carefully for possible adverse events. If adverse events occur at any time point during or after individual infusion, the treatment can be stopped until the adverse events can be managed. The daily dose of each infusion is a frequently used level that has a long safety record. The trial will observe the subject's cancer for 3 months after the granulocyte infusions are completed. Response at 90 days will be based on comparison of tumor measurements at baseline. The trial has 3 major endpoints: dose response and tolerance, safety, and efficacy.
Multicenter, open-label, dose-ranging study in two parts: maximum tolerated dose (MTD) segment (the first 28-day course of MP 470) followed by long-term safety segment. MTD segment: follows standard oncology phase-I design; within-patient dose level adjustments prohibited; each patient participates in one of three stages: 1. Accelerated Titration Stage 2. Dose Escalation/De-Escalation Stage 3. Dose Confirmation Stage
Safety study of ABT-263 in Combination with Paclitaxel in Subjects with Solid Tumors.
This is a multi-center, randomized, open-label, phase 1/2 study of continuous weekly paclitaxel and escalating doses of intermittent or continuous OSI-906 in patients with recurrent/relapsed ovarian and other solid tumors.
The purpose of this research study is to find out what side effects the combination of the two study drugs, bevacizumab (Avastin) and CNTO 95 have on the body and to determine the highest dose of CNTO 95 that can be given with bevacizumab that is safe and well tolerated.
This is a Phase 1 open-label study evaluating the safety of navitoclax (ABT-263) when combined with a standard regimen of gemcitabine in approximately 50 subjects with solid tumors and measurable disease.