74 Clinical Trials for Various Conditions
Background: In vivo experiments have documented the ability of ZD6474 to inhibit tumor growth in various preclinical tumor models. Given the pronounced neovasculature associated with malignant gliomas, and abundant published data demonstrating the dependence of glioma growth on the maintenance and proliferation of this neovasculature, ZD6474 represents a potentially promising new therapeutic approach to these otherwise refractory tumors. Thus, we now propose a phase I trial of ZD6474 in patients with recurrent and progressive low-grade gliomas who are on P450-inducing anti-epileptic drugs and a phase II trial for patients with recurrent gliomas not taking P450-inducing anti-epileptic drugs. Objective: Phase I - To establish the maximally tolerated dose of ZD6474 and to obtain preliminary information regarding the spectrum of toxicities of ZD6474, and to obtain pharmacokinetic data to patients taking EIAED. Phase I - To obtain preliminary information regarding potential anti-tumor activity of ZD6474 in patients taking EIAED. Phase II - To establish data regarding the anti-tumor activity of ZD6474 and to collect information regarding the spectrum of toxicities in patients not taking EIAEDs. Eligibility: Patients with histologically proven malignant primary gliomas will be eligible for this protocol. Additionally, patients with progressive low-grade gliomas and patients with infiltrative brain stem gliomas, diagnosed radiographically rather than by biopsy will also be eligible. Design: Phase I - Group B patients will be accrued to the formal dose-escalation phase I trial. Groups of patients with recurrent high-grade gliomas will be accrued to increasingly higher doses of ZD6474 until the MTD is established. Phase II - Patients will be treated at a dose of 300 mg day, every day, on a 4-week cycle.
A randomized controlled trial of a video decision aid in 50 patients with advanced brain cancer.
This research study aims to predict treatment response to anti-angiogenic therapy (Avastin) using advanced magnetic resonance imaging (MRI) and spectroscopy (MRS) for Glioblastoma patients.
This is a phase 1, multi-centre, sequential cohort, open-label, dose-escalation study of the safety, tolerability, and PK of ANG1005 in patients with solid tumors (with or without brain metastases). ANG1005 will be given by IV infusion once every 21 days (1 treatment cycle). Each patient will participate in only 1 dose group and will receive up to 6 cycles of treatment provided there is no evidence of tumor progression, there is recovery to ≤Grade 1 or baseline nonhematologic, ANG1005-related toxicity (except alopecia), the absolute neutrophil count is ≥1.5 x 109/L, and the platelet count is ≥100 x 109/L.
This phase 2 trial evaluates how well pegylated irinotecan (NKTR-102) works in treating patients with non-small cell lung cancer (NSCLC), small cell lung cancer (SCLC), or breast cancer (mBC) that has spread to the brain and does not respond to treatment. Pegylated irinotecan may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
The researchers are doing this study to find out how effective sotorasib is at getting into KRAS G12C+ brain tumors. The researchers will also find out whether sotorasib is a safe and effective treatment for people undergoing surgical resection of KRAS G12C+ metastatic brain tumors, and do tests that show how the body absorbs, distributes, and gets rid of sotorasib.
This study explores whether DESI-MS can be used to identify cancerous vs. noncancerous tissue during brain tumor surgery.
This is a Phase 1, First-in-Human (FIH), open-label, multicenter, dose escalation and dose expansion study to evaluate the safety, tolerability, pharmacokinetics and preliminary anti-tumor activity of ABM-168 in adult patients with RAS or RAF or NF-1 mutated advanced solid tumors as ABM-168 may have a significant effect in inhibiting cell growth.
The purpose of this clinical trial is to learn the safety and effects of the study medicine (PF-07799544) administered as a single agent and in combination with other study medications in people with solid tumors. This study is seeking participants who have an advanced solid tumor for which the available treatments are no longer effective in controlling their cancer. All participants in this study will receive PF-07799544. PF-07799544 comes as a tablet to take by mouth daily (initially 2 times per day, but this could change to once daily or another frequency). Depending on the part of the study, participants may also receive another study medicine. * In the first part of the study, people with melanoma or other solid tumors may also receive encorafenib. Encorafenib comes as a capsule and is taken once per day. * In the second part of the study, people with melanoma or other cancers with abnormalities in a gene called "BRAF" will receive PF-07799544 with other study medicines (for example, PF-07799933). Participants may receive the study medicines for about 2 years. The study team will monitor how each participant is doing with the study treatment during regular visits at the study clinic.
This study will evaluate the efficacy and safety of alectinib in participants with Anaplastic Lymphoma Kinase (ALK)-positive locally advanced or metastatic solid tumors other than lung cancer.
This is an open-label, two-part, phase 1-2 dose-finding study designed to determine the safety, tolerability, PK, PD, and proof-of-concept efficacy of ST101 administered IV in patients with advanced solid tumors. The study consists of two phases: a phase 1 dose escalation/regimen exploration phase and a phase 2 expansion phase.
The purpose of this research study is to develop and test a new communication training to help caregivers communicate more effectively with their loved ones and healthcare professionals about advanced care planning.
4-Demethyl-4-cholesteryloxycarbonylpenclomedine (DM-CHOC-PEN) is a polychlorinated pyridyl cholesterol carbonate that is lipophilic, electrically neural, crosses the blood brain barrier (BBB), ability to localize in intracranial tumor tissue, lacks neurotoxicity and not transported out of the brain via Pgp (p-glycoprotein). DM-CHOC-PEN has completed a Phase I Adolescent and Young Adult (AYA) trial in humans, some of which possessed primary and secondary tumors involving the brain. Complete remissions in both primary (astrocytoma, GBM) and metastatic lung cancers were reported. This Phase II trial is closed for adolescent and young adults (AYA) subjects with advanced cancer - brain involvement is required.
The goal of this clinical research study is to learn if using advanced magnetic resonance imaging (AMRI) will improve the targeting of brain tumor needle biopsies compared to the standard targeting techniques. Researchers also want to learn how the results of the images and biopsies compare to each other to try to improve the way researchers and radiologists use AMRI images. This is an investigational study. The perfusion scan is not FDA approved or commercially available. It is currently only being used in research. There will be no cost to you for the advanced MRI, additional anesthesia, special pathology stains, and/or gene testing for this study. Up to 50 patients will take part in this study. All will be enrolled at MD Anderson.
4-Demethyl-4-cholesteryloxycarbonylpenclomedine (DM-CHOC-PEN) is a polychlorinated pyridyl cholesterol carbonate that is lipophilic, electrically neural, crosses the blood brain barrier (BBB), ability to localize in intracranial tumor tissue, lacks neurotoxicity and not transported out of the brain via Pgp (p-glycoprotein) (1). DM-CHOC-PEN has completed Phase I/II trials in humans with primary and secondary tumors involving the brain with success. Complete remissions in both primary astrocytoma and metastatic lung and leukemia malignancies. This trial is open for adult subjects with advanced cancer - brain involvement is required.
A critical aspect of brain tumor patient management is the radiographic assessment of tumor status, which is used for diagnosis, localization, surgical planning and surveillance. The primary goal is to develop and apply advanced, quantitative magnetic resonance imaging (MRI) techniques that can supplement existing high-resolution anatomic imaging to aid clinical decision-making for patients diagnosed with brain tumors. The studies proposed herein involve the development of advanced imaging methods that are intrinsically sensitive to the biophysical characteristics associated with tumor pathogenesis, as they are more likely to improve tumor characterization and localization and may offer early and more specific indicators of treatment response. These advanced methods include diffusion-weighted imaging (DWI), chemical exchange saturation transfer (CEST), and dynamic susceptibility contrast (DSC) perfusion MRI. A secondary objective of this study is to validate cerebral blood volume (CBV) metrics acquired using a DSC acquisition and post-processing methods by comparison with an intravascular reference standard contrast agent. Validated perfusion imaging techniques will improve the reliability and relevancy of derived CBV metrics across a range of clinical applications, including tumor localization, treatment guidance, therapy response assessment, surgical and biopsy guidance, and multi-site clinical trials of conventional and targeted brain tumor therapies.
To assess: * efficacy of APL-101 as monotherapy for the treatment of NSCLC harboring MET Exon 14 skipping mutations, NSCLC harboring MET amplification, solid tumors harboring MET amplification, solid tumors harboring MET fusion, primary CNS tumors harboring MET alterations, solid tumors harboring wild-type MET with overexpression of HGF and MET * efficacy of APL-101 as an add-on therapy to EGFR inhibitor for the treatment of NSCLC harboring EGFR activating mutations and developed acquired resistance with MET amplification and disease progression after documented CR or PR with 1st line EGFR inhibitors (EGFR-I)
Registry participants with advanced malignancy or myelodysplasia will have a sample of their tumor or tissue analysed for genetic alterations using next generation sequencing (NGS) performed in a lab that has been certified to meet a high quality standard. Treatments and outcomes will be reported to the registry to allow further understanding of how genetic differences can lead to better diagnosis and treatments.
This is a multicenter, open-label, Phase 1/2, dose-escalation and dose expansion study of a CXCR4 inhibitor, USL311, alone and in combination with lomustine in subjects with advanced solid tumors (Phase 1) and subjects with relapsed/recurrent GBM (Phase 2). The study is designed to explore the safety, tolerability, pharmacokinetics, and preliminary efficacy of USL311 alone and in combination with lomustine.
This is an open-label, Phase 1/2 multicenter dose escalation study in pediatric patients with relapsed or refractory extracranial solid tumors (Phase 1), with additional expansion cohorts (Phase 2) in patients with primary brain tumors harboring NTRK1/2/3 or ROS1 gene fusions, and extracranial solid tumors harboring NTRK1/2/3 or ROS1 gene fusions.
This phase I trial studies the side effects and best dose of dasatinib and temsirolimus when given together with cyclophosphamide in treating patients with solid tumors that have spread to other places in the body, have come back, or have not respond to previous treatment. Dasatinib and temsirolimus may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Drugs used in chemotherapy, such as cyclophosphamide, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving dasatinib and temsirolimus together with cyclophosphamide may be a better treatment for advanced solid tumors.
This pilot clinical trial studies the feasibility and effectiveness of a new computer-based communication intervention in supporting distance caregivers of patients with advanced lung or brain cancer. Unlike local caregivers, distance caregivers often receive little, if any, professional support and have limited communication with the oncology team. Using a computer-based communication intervention to allow distance caregivers the opportunity to participate in a physician visit, have questions and concerns addressed, and meet members of the oncology team may help reduce stress.
This phase I dose escalation study will evaluate IGF-Methotrexate conjugate (765IGF-MTX) in patients with advanced, previously treated tumors. 765IGF-MTX is administered as an IV infusion over 1 hour on days 1, 8 and 15 of a 28 day cycle. Treatment continues until disease progression, unacceptable toxicity, or patient refusal. Assessment of response will be confirmed with imaging studies performed at the end of cycle 2 +/- 7 days, and every 2 weeks thereafter.
DM-CHOC-PEN is a polychlorinated pyridine cholesteryl carbonate that has demonstrated antineoplastic activities in human xenograft intracerebrally implanted tumor mouse models, acceptable preclinical toxicities in mouse, rat and dog models; and no behavioral cognitive impairment/neurotoxicities were noted in mouse and rat models. The drug is ready for human use as an soy bean oil/lecithin/glycerin water emulsion, the latter which has been documented - chemically and biologically to be stable and safe. Patients are currently being enrolled and treated with the protocol. Patients with advanced cancer, with or without central nervous system involvement will be eligible for enrollment, providing the required blood and other eligibility requirements are met.
BACKGROUND: * Despite progress, some children and young adults with solid tumors still experience poor survival. * Activated NK cells potently kill autologous pediatric solid tumors, and clinical grade procedures are available to generate large numbers of activated NK cells for adoptive cell therapy. OBJECTIVES: * Primary objectives are: 1) to assess the feasibility of harvesting and expanding activated NK cells to meet escalating dose goals in Cohort A, 2) to assess the toxicity of infusing escalating doses of activated NK cells following lymphodepleting chemotherapy without rhIL15 (cohort A), and 3) to assess the toxicity of infusing NK activated cells with escalating doses of rhIL15 (cohort B) in pediatric patients with refractory malignant solid tumors. * Secondary objectives are: 1) to identify biologically active doses of activated autologous NK cells plus or minus rhIL15 by monitoring changes in NK cell number, phenotype and function, 2) to assess pharmacokinetics and immunogenicity of rhIL15 in a pediatric population, and 3) assess antitumor effects and changes in FDG-PET following administration of activated NK cells to lymphopenic hosts plus or minus rhIL15. 4) to evaluate saftey and efficacy of subsequent cycles of autologous NK cell infusions in patients in cohort A who received benefit from the first NK cell infusion. ELIGIBILITY: * Patients in Cohort A: 2-29 years with with refractory pediatric malignant solid tumors, Patients in Cohort B: 2-25 years with refractory pediatric malignant solid tumors. * Adequate performance status and organ function, recovered from toxic effects of prior therapy, no requirement for systemic corticosteroids and no history of allogeneic stem cell transplantation. DESIGN: * All patients receive pre-NK lymphodepleting chemotherapy with cyclophosphamide. * Cohort A receives escalating doses of activated autologous NK cells to identify feasibility of generating cells and tolerability, and potentially identify an MTD. * A1: 1x10(6) NK cells/kg * A2: 1 x 10(7) NK cells/kg * A3: 1 x 10(8) NK cells/kg * If feasibility and acceptable toxicity is demonstrated for all doses in Cohort A, patients enrolled on cohort B will receive activated autologous NK cells plus escalating doses of rhIL15 using the following schema: * B1: 1 x 10(7) NK cells/kg + rhIL15 0.25 mcg/kg/d IV x 10 * B2: 1 x 10(7) NK cells/kg + rhIL15 0.5 mcg/kg/d IV x 10 * B3: 1 x 10(7) NK cells/kg + rhIL15 1 mcg/kg/d IV x 10 * B4: 1 x 10(7) NK cells/kg + rhIL15 2 mcg/kg/d IV x 10 * Three patients will be enrolled at each dose level, with the dose level expanded to 6 if dose-limiting toxicity occurs. An expanded group of 12 patients will be treated at the highest tolerable dose level. DLT toxicity monitoring will continue for 21 days after the NK infusion, or 14 days after the last rhIL15 dose in Cohort B (whichever is later).
The goals of this study are to: 1. To improve upon and develop new innovative magnetic resonance imaging techniques that refine image quality and enhance performance. Improvements in these areas will have positive implications for medical diagnosis and treatment. 2. To correlate MRI images with underlying disease pathophysiology in order to ensure that imaging accurately reflects the disease process.
The purpose of this clinical trial is to determine the effects good or bad of combining BEZ235 along with Everolimus to determine if it is a safe treatment for patients with advanced cancers of different types.
This clinical trial is studying how well giving cilengitide together with sunitinib malate works in treating patients with advanced solid tumors or glioblastoma multiforme. Cilengitide and sunitinib malate may stop the growth of tumor cells by blocking blood flow to the tumor. Giving cilengitide together with sunitinib malate may kill more tumor cells. Studying samples of blood in the laboratory from patients receiving cilengitide and sunitinib malate may help doctors understand the effect of these drugs on biomarkers.
DM-CHOC-PEN is a polychlorinated pyridine cholesteryl carbonate that has demonstrated antineoplastic activities in human xenograft intracerebrally implanted tumor mouse models, acceptable preclinical toxicities in mouse, rat and dog models; and no behavioral cognitive impairment/neurotoxicities were noted in mouse and rat models. The drug is ready for human use as an soy bean oil/lecithin/glycerin water emulsion, the latter which has been documented - chemically and biologically to be stable and safe. Patients are currently being enrolled and treated with the protocol. Patients with advanced cancer, with or without central nervous system involvement will be eligible for enrollment, providing the required blood and other eligibility requirements are met.
RATIONALE: Drugs used in chemotherapy, temozolomide, work in different ways to stop the growth of tumor cells, either by killing the cells or stopping them from dividing. Bortezomib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Giving temozolomide together with bortezomib may kill more tumor cells. PURPOSE: To determine the best dose of bortezomib and temozolomide and to see how well they work in treating patients with advanced refractory solid tumors or melanoma.