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Showing 1-20 of 2,776 trials
NCT06144671
Expected to complete 7 to 18 evaluable subjects (patients with advanced solid tumors),3 dose groups.A modified "3+3" dose-escalation design is utilized,This includes both accelerated dose escalation and traditional "3+3" dose escalation.The first dose group is accelerated titration,The first dose group is an accelerated titration of 1 to 6 evaluable subjects;The second and third dose groups are based on the traditional "3+3" dose-escalation principle,The second and third dose groups are based on the traditional "3+3" dose-escalation principle, with 3 to 6 evaluable subjects enrolled respectively.
NCT06132828
This study is to characterize the safety,tolerability, pharmacokinetics(PK),and preliminary anti-tumor activity of DR30206, in subjects with advanced or metastatic solid tumors
NCT04570423
The purpose of this study is to evaluate the safety and pharmacokinetics of eflapegrastim in pediatric participants with solid tumors or lymphoma and treated with myelosuppressive chemotherapy.
NCT06926283
This is a phase I, open-label, first-in-human clinical study designed to evaluate the safety, tolerability, MTD, DLT, RP2D, the PK characteristics, preliminary anti-tumor activity, the immunogenicity of DXC008 in patients with prostate cancer and other solid tumors such as Ewing sarcoma.
NCT07177937
This is a phase I, open-label, first-in-human clinical study designed to evaluate the safety, tolerability, MTD, DLT, RP2D, the PK characteristics, preliminary anti-tumor activity, the immunogenicity of DXC014 in patients with Advanced Solid Tumors.
NCT02423057
Background: \- Genes are made up of DNA and are the instruction book for cells. When people have cancer, some of the genes that might have slowed the growth of tumor cells were turned off. Researchers think a drug called TdCyd might help to turn these genes back on. This may slow the growth of tumors in people with cancer. Objectives: \- To test the safety of TdCyd and to find out how it works. Also, to find out the dose of the drug that can be safely given to humans. Eligibility: \- Adults 18 years and older who have advanced cancer that has progressed after standard treatment, or for which no effective therapy exists. Design: * Participants will take TdCyd by mouth. The drug is given in 21-day cycles. TdCyd is taken once a day during week 1 for 5 days. Then for 2 days participants do not take the drug. Then they take it for 5 days during week 2. No TdCyd is taken during week 3. * Participants will keep a diary of their study drug doses. * Participants will have tests about every 3 weeks to see how the study drugs are affecting their body. They will have blood and urine tests, a medical history, and physical exams. They may have computed tomography (CT) scans to measure their tumors. They may have an electrocardiogram, which measures the heart electrical activity. * If participants develop any side effects, they may be asked to visit more often. * Participants will stay in the study as long as they are tolerating TdCyd and their tumors are either stable or getting better. One month after stopping the drug, they will have a follow-up phone call.
NCT05605496
This study is a multicenter, open-label, proof-of-concept study aiming to assess the clinical and biological impact of NP137 when added to standard PD-1/PD-L1 blockade therapy in 3 independent cohorts of advanced or metastatic solid tumors with various sensitivity to anti-PD-1/PD-L1: * Cohort 1 \[Stable Disease\]: Patients with a radiological documentation of SD according to RECIST V1.1 criteria following at least 12 weeks under standard anti PD-1/PD-L1 therapy. Note: This treatment arm closed on 27/09/2024 due to non-feasibility. * Cohort 2 \[primary refractory\]: Patients with documented radiological PD or short-term SD (\< 6months) according to RECIST V1.1 but with clinical benefit under PD-1/PD-L1 standard therapy. * Cohort 3 \[secondary refractory\]: Patients with documented radiological PD following an initial Objective Response or long-term SD (i.e. ≥6 months) according to RECIST V1.1, with clinical benefit under standard PD-1/PD-L1.
NCT01875601
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).
NCT07489378
Background: All childhood cancers are rare, but some are called very rare. Very rare cancers are diagnosed in 2 or fewer out of 1 million people each year. Researchers want to gather data so they can learn more about these very rare cancers. They hope to use the data to develop future treatments. Objective: To gather data for a registry of very rare cancers found in children, teens, and young adults. Eligibility: People aged 1 month to 39 years newly diagnosed (within the past year) with a very rare cancer. Design: Participation will be by phone or email. No clinic visits are required. Researchers will look at the participant s medical records. They will ask for samples of tumor tissue that were already removed. They will use the samples for genetic testing. The results of these tests will be sent to the participant s own doctors. Some participants will be asked for saliva or cheek swab samples. They will receive a kit in the mail. They will spit into a tube or swab the inside of their cheek. They will mail the sample back to the lab. Participants will fill out questionnaires once a year for 5 years. They will answer questions about: Family history, such as other cancers in the family and their income, work, and education. Demographics, such as their gender, nationality, ethnicity, education, and work history. Symptoms and treatment for their cancer. This may include level of pain, and emotional and physical well-being. Participants data will be added to a secure database for other researchers. Their data will be anonymous.
NCT07181681
This study is a first-in-human (FIH), Phase 1a/1b study of BG-C0902, a fully humanized anti-epidermal growth factor receptor (EGFR) and anti-mesenchymal-epithelial transition (MET) antibody, conjugated via an enzymatically cleavable linker to a topoisomerase 1 (TOPO1) inhibitor payload. The study aims to assess the safety, tolerability, pharmacokinetics (PK), pharmacodynamics, and preliminary antitumor activity of BG-C0902 in participants with advanced solid tumors. The study will be conducted in 2 phases: Phase 1a (dose escalation and safety expansion) and Phase 1b (dose expansion).
NCT05919264
The goal of this clinical trial is to determine if FOG-001 is safe and effective in participants with locally advanced or metastatic solid tumors.
NCT07545486
Advancements in systemic antineoplastic therapies have led to improved overall survival rates for many solid tumors. However, metastatic disease remains a significant challenge and remains the leading cause of mortality for these patients. Additionally, there is a high attrition rate after first-line standard treatment across various tumor types, with studies indicating that 20-70% of patients may be unable to undergo second-line therapy, depending on the tumor type. This highlights an urgent need to enhance outcomes from the first line of treatment. Although first-line therapy often represents the best available option, most patients experience relapse and disease progression despite an initial tumor response. This is attributed to both intrinsic and acquired resistance arising from the heterogeneity of primary tumors and metastases. To address this issue, metastasis-directed therapy (MDT) has been explored as a way to reduce tumor burden and mitigate the risk of resistance due to therapeutic selective pressure. MDT offers a promising opportunity to improve first-line treatment outcomes, but more precise patient selection criteria are needed to maximize therapeutic benefit and minimize the potential toxicity of ablative therapies. Indeed, despites its efficacy, fatal complication may occur so do grade 3 to 4 toxicities. Toxicity depends of the local ablative therapy (LAT) planned but as it will never be none, oncologists have to propose invasive treatment to patient that may benefit the most. Based on the published data, the investigators propose a pragmatic, selective approach centered on sensitivity to systemic therapy. The investigators aim to evaluate the benefit of local ablative therapy (LAT) in patients who demonstrate non-progressive disease after three months of first-line standard of care. Given the importance of this question across cancer subtypes, the investigators will employ a prospective database to enroll patients with various solid tumor type, excluding the ones for which the impact of LAT has already been explored or may be difficult to achieve. Outcomes of this strategy will be evaluated compared to outcomes from pivotal studies defining optimal standard first line therapy (OST) . Several analyses will be performed to better characterize the population for whom a multimodal approach may significantly improve their survival. The first one will aim to compare the median duration of response (mDOR) of the population treated with LAT compared to the mDOR reported by the pivotal study(ies) of each OST. This study will serve as a proof of concept, supporting chemosensitivity as a viable selection factor for multimodal treatment in a broad range of cancer types. Primary objective: Improvement of the duration of response (DOR) after completion of LAT compared to DOR reported in pivotal study that evaluated first line OST. Secondary objectives: * Evaluation of the safety of the addition of LAT. * Evaluation of overall progression free survival (PFS) and PFS at 1 year. * Evaluation of overall survival from OST start and from the time of LAT completion. * Documentation of acceptance and compliance to LAT decision by the institutional expert committee
NCT06607185
The main purpose of the study is to assess whether the study drug, LY4066434, is safe and tolerable when administered to participants with locally advanced or metastatic solid tumors with certain KRAS mutations. LY4066434 will be given alone or in combination with other treatments. The study will have 2 parts: monotherapy dose escalation and dose optimization. The study is expected to last up to approximately 5 years.
NCT07387068
The purpose of this trial is to learn about the safety and effectiveness of the antibody GEN1079 in participants with certain types of cancer. The trial has multiple parts. The first part of the trial tests different doses of GEN1079 to find out if it is safe and determine what are the best doses to use. The second and third parts continue to test the safety of and whether GEN1079 works in additional participants with specific cancer types and at doses chosen based on results from the previous parts of the trial. For each participant, the trial will last approximately 33 to 67 weeks but this may vary for each person. This includes up to 21 days for screening prior to receiving trial treatment, approximately 6 to 12 weeks of treatment (the duration of treatment may vary for each participant), and approximately 24 to 52 weeks of follow up after trial treatment ends (the duration of follow up may vary for each participant). During the screening, tumor tissue either collected prior to this trial or freshly collected during screening will be provided by all participants. Participation in the trial will require visits to the site, with more frequent visits at the start of treatment and then less frequent visits afterwards. At site visits, there will be various tests (such as blood draws) and procedures (such as recording of heart activity, computed tomography \[CT\] scans) to monitor whether the treatment is safe and effective. All participants will receive active drug; no one will be given placebo.
NCT07243470
This clinical trial is a 2-phase trial designed to evaluate the safety of tarlatamab in combination with a fixed dose of metronomic temozolomide in adolescents and adults with CNS tumors (stratified into two age-based cohorts), and to assess the clinical activity of this therapeutic strategy in three parallel, histology-defined cohorts (IDH-mutant glioma, other gliomas, and other CNS tumors). A pre-screening to detect DLL3 expression by IHC on archival tumor sample must be performed before the therapeutic part. Only patients with DLL3 positive tumor on IHC can be enrolled in the therapeutic part. This pre-screening must be optimally performed during the ongoing treatment line i.e. before documented progression to not delay treatment starts at time of progression. Tumor samples (surgery or biopsy specimen) will be sent to a central lab for IHC testing.
NCT07544472
In the literature, assessment questionnaires related to dyspnea measure beliefs about breathing-related symptoms but do not directly measure breath awareness. For this purpose, the Breath Vigilance Questionnaire (BVQ) is a subjective questionnaire developed from the Pain Awareness Questionnaire that directly measures breath-specific awareness and includes questions evaluating the interaction between conscious monitoring and control of breathing and anxiety. The questionnaire, consisting of 6 questions, was developed on healthy individuals and its validity and reliability were established. It uses a 5-point Likert scale from 1 (never) to 5 (always), with scores ranging from 6 to 30, and higher scores indicate higher breath awareness . The reliability and validity of the Turkish version of the Breath Vigilance Questionnaire will assist researchers in assessing dysfunctional breathing and developing treatment strategies by evaluating breath awareness. Therefore, the study aimed to investigate the validity and reliability of the Turkish version.
NCT06257264
This study is a first-in-human (FIH), Phase 1a/1b study of BG-68501, a cyclin-dependent kinase-2 inhibitor (CDK2i), to assess the safety, tolerability, pharmacokinetics (PK), pharmacodynamics, and preliminary antitumor activity of BG-68501 in participants with advanced, nonresectable, or metastatic solid tumors as monotherapy and in combination with fulvestrant with or without BGB-43395, a selective CDK4 inhibitor, in adults with hormone receptor positive (HR+)/human epidermal growth factor receptor 2 negative (HER2-) breast cancer (BC). The study will also identify a recommended dose for expansion (RDFE) for BG-68501 as monotherapy and in combination for subsequent disease directed studies. The study will be conducted in 2 parts: Part 1 (dose escalation and safety expansion, including evaluation of food effect) and Part 2 (dose expansion).
NCT07542561
The goal of this clinical trial is to learn whether an artificial intelligence-assisted internet-based mindfulness intervention for emotional distress (iMIED) can prevent or reduce anxiety and depressive symptoms in adults with subclinical emotional distress. The main questions it aims to answer are: Can iMIED reduce anxiety symptoms, as measured by the Generalized Anxiety Disorder-7 (GAD-7)? Can iMIED reduce depressive symptoms, as measured by the Patient Health Questionnaire-9 (PHQ-9)? Researchers will compare participants receiving iMIED plus access to usual mental health resources with participants receiving usual mental health resources alone to see whether iMIED leads to greater improvement in emotional distress over time. Participants will: complete online screening and baseline assessments; be randomly assigned to either the iMIED intervention group or the control group; if assigned to the intervention group, complete a 49-day AI-assisted online mindfulness self-help program using a WeChat mini-program and AI support tool; complete follow-up online questionnaires during the intervention and at 3, 6, 12, 18, and 24 months after the intervention; report information on mental health symptoms, quality of life, healthcare use, sleep, stress, resilience, and life satisfaction.
NCT07360314
The purpose of this first-in-human (FIH) study is to evaluate the safety, tolerability, Pharmacokinetics (PK), and preliminary clinical activity of M7437 in participants with locally advanced or metastatic solid tumors with known Ly6E expression, including non-small cell lung cancer (NSCLC), triple-negative breast cancer (TNBC), epithelial ovarian carcinoma (EOC), squamous cell carcinoma of the head and neck (SCCHN), pancreatic ductal adenocarcinoma (PDAC), and gastric cancer (GC).
NCT05537740
Researchers are looking for a better way to treat people who have advanced solid tumors. Advanced solid tumors are solid cancers that may have spread to nearby tissue, lymph nodes and/or to distant parts of the body and that are unlikely to be cured or controlled with currently available treatments. A new therapy available for advanced solid cancers is immunotherapy with PD-1/PD-L1 inhibitors. This drug class stimulates immune cells to kill cancer cells by blocking a protein called PD-1. Although PD-1/PD-L1 inhibitors have shown benefits in treatment of cancer, only a subset of patients benefit from the initial therapy, while in others the cancer comes back. One reason could be that the ability of the patients' immune systems to kill cancer cells is weakened by so-called regulatory T cells which have a suppressive effect on the immune system. The study treatment BAY3375968 is an antibody that binds to a protein called CCR8 which is located on the surface of regulatory T cells. This leads to a reduction in regulatory T cells and further inhibits their immune suppressive activity, so that the immune response against cancer can be strengthened as observed in animal models. Animal studies also showed that BAY3375968 may add more anti-cancer effect to immunotherapy with PD-1/PD-L1 inhibitors when used in combination. All of these previous observations need to be confirmed in humans. The main aims of this study are to find for BAY3375968 alone and in combination with pembrolizumab (a PD-1 inhibitor): * how safe it is * the degree to which overt medical problems caused by the treatment(s) can be tolerated * the highest amount of BAY3375968 that can be given alone or in combination with pembrolizumab. * how it moves into, through, and out of the body. To do this, researchers will collect and analyze data about: * the number and severity of participants' medical problems after taking their treatments * the best dose of BAY3375968 that can be given * the highest level in the blood (Cmax) and the total level (AUC) of BAY3375968. Doctors keep track of all medical problems (also called adverse events) that participants have during the study, even if they do not think that they might be related to the study treatment. The researchers will also study the activity of BAY3375968 alone and in combination with pembrolizumab against the cancer. The study will have 2 parts. Part 1 (dose escalation) focuses on tumor types that respond to immunotherapy. It will help to find the best dose for BAY3375968 alone and in combination with pembrolizumab that can be given in part 2. For this, the participants will receive one specific dose of several increasing BAY3375968 doses tested in part 1. Dose escalation of BAY3375968 alone will be done prior to the dose escalation of the combination with a fixed dose of pembrolizumab. The participants of part 2 (dose expansion), will receive the best dose of BAY3375968 alone or in combination with pembrolizumab found in part 1. This part of the study focuses on certain cancer types of the lung, breast, head and neck cancer, gastric cancer and melanoma. The total duration of the study will be approximately 4 years and 7 months. Each participant in the study will visit the study site twice before starting their treatment. Once the treatment starts, the frequency of visits is 5 times per week in the first treatment week and 1 to 3 times per month in later treatment periods. Another visit will be scheduled for the participants within 30 days after the last treatment in the study. During the study, the study team will: * take blood and urine samples * do physical and vital signs examinations * examine heart health using ECG and Echocardiogram * check the tumor status and if the participants' cancer has grown and/or spread using imaging techniques * take tumor samples * ask questions about the impact of the disease on the participants' general well-being and activities of daily life. About 90 days after the participants receive their last treatment and discontinued the study, the doctors will check the participants' health. In case a new anticancer therapy has been started, medical problems will be recorded via a phone call. The study team will continue to check the participants' cancer status about every 12 weeks until their cancer gets worse, the start of a new anti-cancer therapy, or withdrawal of consent. In addition, every 6 months for up to 24 months after the last participant left the study the study team will check the participants' survival and subsequent anticancer treatment by phone until the end of this study.