View clinical trials related to Neoplasms.
Filter by:This randomized pilot clinical trial studies the effects of meditation-based breathing training on patients' control of their breathing patterns and breathing-related movement, as well as on their psychological distress and treatment experience during radiation therapy. Meditation-based breathing training may decrease breathing-related movement and the amount of stress by improving breathing patterns in patients with abdominal or lung cancer undergoing radiation therapy.
The primary objective of the trial is to determine the maximum tolerated doses (MTD) of BI 860585 alone and in combination with exemestane or paclitaxel. To determine the MTDs, patients are entered sequentially into escalating dose cohorts. Secondary objectives are objective response and disease control according to RECIST criteria version 1.1
The purpose of this study Part A is to determine the safety, tolerability and the pharmacokinetics of BAY1143572 in subjects with advanced malignancies, which are either refractory to or ineligible for treatment with standard agents. The purpose of this study Part B is: Determine the safety, tolerability, pharmacokinetics (PK) and maximum tolerated dose (MTDG-CSF) of BAY1143572 with concurrent administration of the granulocyte colony-stimulating factors (G-CSF) in an intermittent and continuous dosing schedule in subjects with advanced malignancies.
This is a phase I, open-label, multicentre study of MEDI4736 administered intravenously with a standard 3+3 dose-escalation phase to evaluate safety, tolerability, and pharmacokinetics in patients with advanced solid tumor followed by an expansion phase in patients with advanced solid tumors.
The purpose of this study is to assess the safety of combination treatment of GSK2256098 and trametinib in mesothelioma subjects and subjects with other selected tumor types. Also, the study will identify a maximum tolerated combination dose of GSK2256098 and trametinib. This study is a Phase I, open-label, dose-escalation study to determine maximal tolerated dose (MTD) and the recommended Phase 2 dose (RP2D) and regimens for oral MEK inhibitor trametinib (once daily [OD]dosing) and the oral FAK inhibitor GSK2256098 (twice daily [BID] dosing). The synergy of the combination was observed over a wide range of concentrations and results in several-fold reduction in compound concentration to achieve equivalent biological responses compared to either single agent. The dose and schedule of dosing may be modified based on emerging safety, pharmacokinetic (PK), and pharmacodynamic (PD) data. The study will be conducted in two parts; Part 1 Dose Escalation to determine the MTD and RP2D and Part 2 Expansion Cohort to further evaluate the safety and tolerability of trametinib and GSK2256098 at the RP2D and determine clinical activity. Additionally, in Part 1 Dose Escalation, additional subjects with malignant pleural mesothelioma (MPM) will be recruited at doses that are considered tolerable in order to assess PD in MPM subjects at each dose (the Pharmacodynamic Cohort). The Expansion Cohort will be limited to subjects with MPM who have progressed or are intolerant to first-line therapy.
The purpose of this study is to determine discordant HER2/neu status of primary breast tumor and metastatic breast cancer cells at regional lymph nodes in node positive breast cancer patients.
The purpose of this study is to improve care delivered to patients with serious illness by enhancing communication among patients, families, and clinicians in the outpatient setting. We are testing a new way to help patients share their preferences for talking about end-of-life care with their clinicians and families. To do this we created a simple, short feedback form. The form is designed to help clinicians understand what patients would like to talk about. The goal of this research study is to show that using a feedback form is possible and can be helpful for patients and their families.
This multicenter prospective study will evaluate the safety and efficacy of Avastin (bevacizumab) in routine clinical practice in patients with advanced/metastatic epithelial ovarian cancer, fallopian tube cancer or primary peritoneal cancer. Data will be collected from eligible patients until death, withdrawal of consent, loss to follow-up, or study closure.
Solitary pulmonary nodule has become a major challenge in respiratory clinical practice. According to published guidelines, their management often requires close CT follow up, PET CT and invasive procedures to obtain a definite histology. In this context, innovative endoscopic techniques refered as navigational bronchoscopy have proved to be efficient, for the localization and sampling of peripheral lung nodules. However, these techniques are unable to differentiate malignant lesions from benign ones, in-vivo, in real time. Confocal endo-microscopy (CELLVIZIO) of the distal lung - also refered as distal lung probe based confocal laser endo-microscopy or alveolar lung endo-microscopy - allows in-vivo imaging of the distal lung structures in real time. This prospective trial we will assess confocal endoscopy as a tool to localize the peripheral lung nodules and to differentiate benign from tumoral lesions. Objective(s) 1. To demonstrate that confocal endo-microscopy is not inferior to navigational endoscopy for the localisation of peripheral lung nodule 2. To demonstrate that confocal endoscopy can differentiate benign from malignant tumors Experimental design: Multicentric prospective controlled trial, conducted in three academic centers, specialized in interventional bronchoscopy, equipped with both navigational bronchoscopy and probe based confocal endo-microscopy. Subjects with peripheral lung nodule requiring navigational bronchoscopy will be explored using both Confocal endoscopy AND navigational bronchoscopy. Confocal probe will be inserted in the same catheter as used for the navigational bronchoscopy and confocal images will be recorded before sampling. An ancillary study using topical methylene blue as in situ will be conducted at the Rouen University Center. An ancillary protocol includes the use of in situ methylene blue deposition and 660 confocal endo-microscopy analysis.
Background: Glioblastoma is the most common and most aggressive type of malignant brain tumor. The drug pazopanib is used to treat people with a type of kidney cancer. Topotecan is used to treat lung cancer. Both topotecan and pazopanib have individually been used to treat patients with glioblastoma and some anti-tumor activity has been found. Researchers want to see if these two drugs together may be able to help people with glioblastoma. Objectives: To learn if pazopanib with topotecan can help control glioblastoma. Also, to study the safety of this drug combination. Eligibility: Adults at least 18 years old whose glioblastoma has returned after treatment. Design: Participants will be screened with: Medical history Physical exam Blood and urine tests Brain computed tomography (CT) or magnetic resonance imaging (MRI) For these, participants lay in a machine that takes pictures. Chest CT scan or x-ray Heart electrocardiogram (EKG) A questionnaire about quality of life Participants will be assigned to a study group. Participants will take the study drugs for 28-day cycles for up to 1 year. They will take capsules of topotecan by mouth once every day. They will take tablets of pazopanib by mouth once every day. Participants will write in a diary the times they take the study drugs. Participants will have several study visits during each cycle. These may include Blood pressure measurement Blood and urine tests EKG Physical exam and/or neurological exam Brain MRI or CT scan to check the status of the disease A symptom questionnaire At the end of treatment, participants will have a physical exam. They may have blood drawn. Participants will have follow-up calls once every 3 months to check.