View clinical trials related to Tumors.
Filter by:Cyclin D-dependent kinases (CDKs) are often activated in human cancer owing to various genetic and epigenetic events. This affects regulatory pathways, and it results in uncontrolled proliferation due to loss of checkpoint integrity. Most tumors show increased activity of CDKs, and this permits escape from senescence during the evolution of malignancy. Among them, cyclin D-CDK4/6-INK4 pathway alterations accelerate G1 progression which provides proliferative and survival advantage to cancer. Therefore, preclinical data demonstrated inhibition of cyclin D-dependent kinase activity have therapeutic benefit. CDK4/6 controls entry into cell cycle progression by regulating Retinoblastoma protein (Rb). The majority of human cancers are known to retain wild-type Rb. In addition, CDK4 amplification and mutations also noted in several tumors. In Rb retained tumors, CDK 4/6 inhibitors reduced Rb phosphorylation and induced G1 arrest. In previous study, CDK4/6 inhibitor showed antitumor activities in Rb-positive breast and colon cancer cell lines. Rapid tumor regression was also noticed in mouse xenograft model. In CDK4 amplified sarcoma cell lines, knockdown of CDK4 inhibited cancer cell proliferation. Cyclin D1 acts with CDK4 and CDK6 to phosphorylate Rb and promote cell-cycle progression, and CDK4/6 inhibitor might be effective for the patients with CCND1/2/3 amplification/mutation or CDK 4/6 amplification. Therefore, basket trial (NCT03310879) is ongoing for the patients with genomic alterations in CCND1, CDKN2A, or CDK4. Amplification/mutation of CCND1/2/3 and CDK4/6 occurs in approximately 15-30% of various solid tumors; sarcoma, GBM, melanoma, gem cell tumor, and gynecologic tumors Regarding the more potent synergistic effect, paclitaxel demonstrated a rationale for promising combination partner with CDK 4/6 inhibitors. In non-small cell lung cancer cell lines, synergistic anti-tumor activities were reported with paclitaxel combination. Corollary, we planned to conduct the phase Ib/II trial of abemaciclib and paclitaxel combination in CDK4/6 pathway activated tumors as one subgroup of multi-arms in ongoing basket trial.
The ProTarget study is a phase II, prospective, non-randomized clinical trial with the primary purpose of investigating the safety and efficacy of commercially available cancer drugs that target specific changes in cancer cell DNA to treat patients with advanced cancer. The primary endpoint is anti-tumor activity or stable disease documented after 16 weeks of experimental drug treatment. The drugs used in the trial have been approved by EMA/FDA for the treatment of certain cancers. Choice of drug is based on whether the patient's cancer cells contain precisely the DNA change (i) targeted by the EMA/FDA-approved drug or (ii) related to sensitivity to the EMA/FDA-approved drug. The trial drug is thus not approved by the EMA/FDA or in Denmark for the treatment of the patient's cancer - it is so-called "off-label use". The secondary purposes are: - To detect side effects in patients treated with commercially available targeted cancer drugs. - Performing biomarker analyzes, including (but not limited to) whole-genome analysis (WGS) on a fresh tumor tissue sample (biopsy) at baseline and progression. - To investigate mechanisms of resistance using recurrent / serial fresh tumor biopsies for WGS and so-called liquid biopsies, which are blood samples in which the cancer cell DNA is analyzed. The secondary endpoints include response duration, progression-free survival, and overall survival.
The purpose of this study was to establish the recommended phase 2 dose (RP2D) of ASP1650 (Safety Lead-in Phase), as well as, evaluate the efficacy of ASP1650 as measured by confirmed objective response rate (ORR) (phase 2) in participants with incurable platinum refractory germ cell tumors. This study also evaluated the following efficacy measures for confirmed objective response rate (ORR); clinical benefit rate (CBR); duration of response (DOR); and progression-free survival (PFS); as well as safety and tolerability; the effect of ASP1650 on changes in serum beta human chorionic gonadotropin (βhCG) and alpha-fetoprotein (AFP); and the pharmacokinetics of ASP1650.
The purpose of this study is to investigate BMS-986226 administered alone or in combination with nivolumab or ipilimumab.
IT141 is a novel nanoparticle formulation of SN-38, the active metabolite of irinotecan, and is intended to deliver more drug to the tumor with reduced toxicity on normal tissues. The study is designed to determine the maximum tolerated dose (MTD) of IT-141, and to investigate pharmacokinetic (PK) parameters and possible pharmacodynamics (PD) relationships. Patients will also be monitored for any response to therapy.
The goal of this study is to establish maximum tolerated doses/recommended phase 2 dose (RP2D) of temozolomide (TMZ) and TAS-102 when these agents are used in combination and to evaluate the safety profile of this drug combination.
This is a prospective, non-randomized clinical trial that aims to describe the efficacy and toxicity of commercially available, targeted anticancer drugs* prescribed for treatment of patients with advanced cancer with a potentially actionable variant as revealed by a genomic or protein expression test. The study also aims to simplify patient access to approved targeted therapies that are contributed to the program by collaborating pharmaceutical companies and to perform next generation sequencing on tumor biopsies for biomarker analyses. Eligible patients have an advanced solid tumor, multiple myeloma or B cell non-Hodgkin lymphoma for which standard treatment options are no longer available and acceptable performance status and organ function. A genomic or protein expression test must have been performed on the tumor and the results must identify at least one potentially actionable molecular variant as defined in the protocol. Results from the molecular profiling test will be used to determine an appropriate drug(s) from among those available in the protocol. The choice of drug will be supported by a list of potential profiles, a molecular tumor board, a knowledge library and by study coordinators for review and approval of the match. The protocol-specified treatment will be administered to the patient once any drug-specific eligibility criteria are confirmed and a fresh pre-treatment biopsy is performed for future genetic studies. All patients who receive treatment with a drug available in the protocol will be followed for standard efficacy outcomes including tumor response, progression-free and overall survival as well as duration of treatment. In addition, treatment related toxicity will be evaluated.
Tumour biomarkers are substances produced by cancer or by other cells of the body in response to cancer conditions. They are used to help detect, diagnose, manage and predict outcome or recurrence of some types of cancer. Tumour biomarkers can also help doctors choose the most appropriate therapy or judge if treatment is successful. Several tumour biomarkers are already used in the clinic; however, many others do not meet rigorous scientific standards to enter into clinical practice and some solid cancers can be only detected using tissue biopsy, a rather invasive procedure. Likewise, evaluating efficacy of novel therapies during clinical trials relies on adequate and specific laboratory tests. Therefore novel biomarkers and novel methods, to measure them, still represent an un-met clinical need. This study aims to develop innovative, more sensitive and reliable tests for better targets, in order to assess and monitor circulating cancer biomarkers. Easily accessible samples, like blood, will be tested such that invasive tissue biopsies can be avoided. Both healthy individuals and cancer patients will be recruited in this study to establish if a laboratory test is powerful enough to distinguish between individuals that may have cancer or not. Participants' involvement will also support development of novel tests to decide if a novel therapy is efficiently counteracting cancer growth or not. Participants in the study will be asked to donate blood, sputum, urine or other body fluids, depending on the cancer and the assay being developed. After participants give their informed consent, the researchers will isolate cells, soluble factors or nucleic acids from body fluids. Researchers will then use various laboratory techniques to screen cells, soluble factors or nucleic acids for specific markers. This study looks at the effectiveness of using laboratory tests to quantify tumour markers in body fluids and, subsequently, to monitor patients' response to treatments.
Summary 1. Purpose and Objective: The purpose of this study is to test the feasibility of rapid acquisition of point of care 3D ultrasound in obtaining abdominal and/or pelvic images. The study will use a newly developed acquisition method and post-processing technique to create three dimensional image models of the abdomen and/or pelvis. 2. Study activities and population group. The study population will be a convenience sample of patients of any age presenting to the Emergency Department with complaints necessitating a clinical abdominal and/or pelvic imaging. The study intervention includes acquisition of research ultrasound images, which will not be used for clinical care, and comparison of these images with clinically obtained images. Other clinical data such as surgical and pathology reports will also be reviewed. 3.Data analysis and risk/safety issues. This is a pilot study intended to determine feasibility and to refine image reconstruction algorithms. Research images will be compared to clinical images. Comparison of research images with final diagnosis will also occur. The research intervention, an ultrasound exam, has no known safety risks. The only risk to subjects is loss of confidentiality. This study is observational, not interventional, because the experimental ultrasound will be performed in all subjects and will not be used in the clinical care of patients (consequently, will not have the opportunity to affect clinical outcomes). Experimental images will be reviewed after completion of clinical care and will not be provided to the clinicians caring for the subjects. The investigators are not measuring the effect of the ultrasound examination on the subjects' outcomes.
This is a multicenter, open-label, non-randomized Phase 1 study in participants with advanced solid tumors, excluding hepatocellular carcinoma (HCC), that have progressed after treatment with approved therapies, or for which there are no standard therapies available. The study will also include participants with radioiodine-refractory differentiated thyroid cancer (RR-DTC). Its primary intent is to determine the effect of lenvatinib on CYP3A4 activity as well as to assess the safety and activity of lenvatinib in these participants. The study will be conducted in the following 3 phases: Pretreatment Phase, Treatment Phase, and Extension Phase.