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This clinical trial compares minimal residual disease (MRD) testing with the Haystack blood test (assay) to the Signatera® assay for the early detection of the cancer returning (cancer recurrence) in patients with stage II-IV colorectal cancer (CRC) that can be removed by surgery (resectable). MRD testing looks for evidence of remaining tumor following treatment that is only apparent using highly sensitive techniques. There are few effective tools available outside of imaging to identify CRC patients with MRD who may be at the highest risk for cancer recurrence after surgery. Early detection of CRC recurrence after surgery is important, as it may increase the chance of curative (ability to cure) outcomes for patients with cancer recurrence. Currently, the Signatera assay is used to monitor whether CRC recurs after surgery, however it is not a very sensitive test. Early work with the Haystack assay suggests it may be more sensitive than the Signatera assay, which may be more effective for the early detection of cancer recurrence in patients with resectable stage II-IV CRC.
The purpose of this study is to determine how circulating tumor DNA (ctDNA), a sign of minimal residual disease (MRD), is detectable after surgery in patients with early HR+/HER2- breast cancer that has spread to 1-3 lymph nodes. Researchers aim to understand if ctDNA detection can identify patients at higher risk of recurrence and guide better treatment decisions. A key aspect is the inclusion of a dedicated cohort of African American/Black women, a group underrepresented in molecular residual disease (MRD) research despite experiencing more aggressive breast cancers. This study will correlate ctDNA results with treatment patterns (radiotherapy, systemic therapy) and outcomes (recurrence-free and overall survival) in both non-African American and African American participants.
This early phase I trial tests the safety, side effects and how well medication combinations of dasatinib, quercetin, fisetin and temozolomide work in treating patients with glioma for which the patient has received treatment in the past (previously treated) and for tumor cells that remain after attempts to treat the tumor have been made (residual disease). Dasatinib is in a class of medications called tyrosine kinase inhibitors. It works by blocking the action of an abnormal protein that signals tumor cells to multiply, which may help keep tumor cells from growing. Quercetin and fisetin are compounds found in plants. They have antioxidant and anti-inflammatory properties and help remove senescent cells, older or damaged cells that have stopped dividing but don't die off as they should and build up in tissues over time. Senescent cells may cause inflammation or damage to nearby healthy cells. Temozolomide is in a class of medications called alkylating agents. It works by damaging the cell's deoxyribonucleic acid (DNA) and may kill tumor cells and slow down or stop tumor growth. Giving medication combinations of dasatinib, quercetin, fisetin and temozolomide may be safe, tolerable and/or effective in treating patients with previously treated glioma with residual disease.
This is an open-label, multi-site, Phase II randomized trial with response-adaptive design for newly diagnosed multiple myeloma (NDMM) participants who have had prior induction therapy. The primary objective of this study is to compare the rates of achieving undetectable measurable residual disease (MRD) in the bone marrow with elranatamab and daratumumab employed as post-induction consolidation and maintenance treatment (Arm A) versus autologous stem cell transplant (ASCT) followed by lenalidomide and daratumumab treatment (Arm B).
The purpose of this study is to determine if a blood test called circulating tumor DNA (ctDNA) can be used to predict how well patients will respond to treatment and if there is any cancer left after surgery. The investigators will also study if a drug called pembrolizumab can help prevent the cancer from coming back in patients who are ctDNA-positive or who have evidence of cancer after treatment and surgery.
This study will test the ability of a personalized blood test to determine which head and neck cancer patients will have a recurrence after treatment.
This study aims to establish an exosome-based liquid biopsy signature to detect molecular residual disease (MRD) in stage II-III colorectal cancer (CRC) patients. Identifying patients with MRD after surgery is crucial for selecting appropriate candidates for adjuvant chemotherapy (ACT), allowing for more personalized treatment approaches and potentially improving patient outcomes.
This is a phase 1 clinical trial to evaluate the safety, feasibility and immunogenicity of a personalized cancer vaccine strategy in patients with solid tumors and molecular residual disease. The hypothesis of the trial is that synthetic long peptide personalized cancer vaccines will be safe and capable of generating measurable neoantigen-specific T-cell responses enabling ctDNA clearance. The personalized cancer vaccines are composed of synthetic long peptides corresponding to prioritized cancer neoantigens and will be co-administered with poly-ICLC.
This study evaluates an individualized approach combining highly active maintenance treatment with elranatamab with peripheral blood-based clonotypic measurable residual disease (MRD) testing in patients with newly diagnosed multiple myeloma. The overall goal is to generate efficacy data for a personalized maintenance approach using bone marrow-based MRD testing (clonoSEQ) to guide post-autologous hematopoietic cell transplant (AHCT) maintenance with elranatamab for this patient population.
The EXActDNA-003 study will prospectively enroll participants who are planning to undergo chemotherapy for high-risk, early breast cancer, who are willing to provide tissue and blood specimens for circulating tumor DNA (ctDNA) analysis. Participants will be followed for up to 5.5 years.