View clinical trials related to Circulating Tumor DNA.
Filter by:Patients in the Prospective Dutch ColoRectal Cancer cohort (PLCRC) with non-metastatic colon cancer that gave consent for additional blood withdrawals are enrolled in the observational PLCRC-MEDOCC substudy. In this study, blood is collected before surgery, after surgery and during follow-up. Within PLCRC-MEDOCC, patients with stage II colon cancer that are not considered to have an indication for adjuvant chemotherapy, can be included in the MEDOCC-CrEATE subcohort under the condition that they gave informed consent in PLCRC for biobanking of tissue and for future studies (Trial within Cohorts design). Patients included in MEDOCC-CrEATE will be randomized 1:1 to the (A) ctDNA-based treatment group versus (B) the standard of care group. A total of 1320 patients will be randomized. Patients randomized to the ctDNA-based treatment group will have their post-surgery samples analysed directly after informed consent for MEDOCC-CrEATE. All patients with detectable ctDNA will be offered adjuvant chemotherapy (3 months CAPOX). Patients with undetectable ctDNA will receive routine follow-up at the surgical department. The aim of this Trial within Cohorts study is to investigate how many patients with detectable ctDNA after surgery start with adjuvant chemotherapy.
The purpose of this study is to study the performance of MRD monitoring in predicting the efficacy and prognosis of neoadjuvant therapy in patients with rectal cancer, and to explore the value of MRD detection in evaluating the prognosis of patients. In this prospective study, 50 patients with stage II-III rectal cancer who are planing to receive neoadjuvant chemoradiotherapy will be enrolled. The tumor tissue will be collected by colonoscopy before treatment and blood samples will be collected before treatment and during treatment.The whole blood samples will receive MRD detection. The change rate and clearance rate of MRD during treatment will be calculated, and will be associated with imaging efficacy evaluation, pathological efficacy evaluation,and prognosis, to determine the performance of MRD in predicting and judging the efficacy of neoadjuvant chemoradiotherapy and postoperative recurrence of rectal cancer.
Ovarian cancer is one of the most dangerous and leading gynecological cancer, with significant cancer-related mortality among women. However, current detection methods are still limited, with approximately 70% of patients with high-grade serous ovarian cancer often being advanced at the initial diagnosis and more than 80% with intraperitoneal spread. The five-year survival rate for late detection is only 29%; on the contrary, if detected early, the five-year survival rate can reach 92%. Therefore, early diagnosis and detection are essential in diagnosing and treating ovarian cancer. Liquid biopsy has attracted widespread attention because of its non-invasive, real-time, and dynamic characteristics. Cell-free DNA in plasma can identify a small tumor burden well and reflect the clinical cancer information of cells.The role of hypermethylation in developing malignant tumors has received increasing attention. Methylation is one of epigenetics and plays a vital role in the occurrence and development of tumors. According to previous research basis of the researchers, it has been found that CDO1 and HOXA9 genes show hypermethylation in ovarian cancer, and they are considered one of the biomarkers for detection. Therefore, this study will further explore the detection of CDO1 and HOXA9 methylation levels based on cell-free DNA in blood and compared with ovarian pathology results; the application of methylation detection technology in ovarian cancer/precancerous lesions will further explore the application value of non-invasive diagnosis and prognostic follow-up.This study will involve three centers and is expected to enroll more than 1,400 clinical subjects, further examine the consistency of methylation detection kits with the histopathological examination, ROMA index, and Sanger sequencing results, and obtain sensitivity and specificity technical performance parameters.
Ovarian cancer is one of the most dangerous and predominant gynecological cancers, with a high cancer-related mortality rate in women. However, current testing methods are still limited, and if detected early, patients have a five-year survival rate of 92%. Therefore, early diagnosis and detection are crucial for diagnosing and treating ovarian cancer. According to the results of the researchers' previous research, it has been found that CDO1 and HOXA9 genes are hypermethylated in ovarian cancer, and the expression of free DNA methylation in plasma can be used as one of the biomarkers for detection. In a single-center retrospective/prospective study, it has been demonstrated that the detection of CDO1 and HOXA9 methylation levels based on cell-free DNA in blood and comparison with ovarian pathology results can achieve >80% sensitivity and specificity. To further explore the application of methylation detection technology in ovarian cancer, the application value of non-invasive diagnosis and prognosis follow-up will be explored to clarify the clinical application value of DNA methylation for early detection of ovarian cancer in the real world. The investigators will conduct a prospective multi-center cohort study, referred to as the OVAMethy study, which will involve more than ten research centers and is expected to recruit more than 5,000 clinical subjects to test the methylation detection kit and histopathology further, ROMA index and imaging results, and sensitivity and specificity technical performance parameters.
This is a prospective multicenter cohort study, was designed to explore the prognostic value of ctDNA as a biomarker of disease response and recurrence or death in patients undergoing curative-intent surgical resection of Colorectal cancer liver metastasis.
Rectal cancer still remains one of the most popular tumors, however, distance metastasis still remains as high as 30% and the long-term survival outcomes are still unsatisfying. The recent conception of total neoadjuvant therapy and immune therapy is becoming popular and the oncologic effects are encouraging, especially in terms of circulating tumor DNA (ctDNA), the prognostic value of ctDNA has been demonstrated by our prior study. This study will carry out accurate ctDNA-guided neoadjuvant therapy on the basis of previous studies of the research group, and give appropriate treatment plans and treatment intensity to patients with different disease degrees. At the same time, combined with the latest progress in clinical diagnosis and treatment, the potential beneficiaries of immunotherapy were screened scientifically, and the combined immunotherapy was implemented accordingly.
Lung cancer is currently the world's largest malignant tumor for cancer-related deaths with non-small cell lung cancer (NSCLC) accounting for 80%-85%. Epidermal growth factor receptor tyrosine kinase inhibitors (EGFR-TKIs), especially the 3rd-generation EGFR-TKIs have demonstrated strong antitumor effects in EGFR-positive patients. However, approximately 20% of EGFR-positive were primarily resistant to 3rd generation EGFR-TKIs, i.e., clinical non-response or disease progression in the short term. This study aimed to clarify the molecular indicators that predict the benefits of 3-rd EGFR-TKIs as first-line therapy in NSCLCpatients with EGFR-positive. Further, to clarify their primary drug resistance mechanisms, which is of great significance for the treatment and clinical decision-making of NSCLC disease.
The IDEA study classified stage III colon cancer into low-risk (T1-3/N1) and high-risk patients (T4 or N2) according to TNM stage. The results showed that for some low-risk patients, chemotherapy could be reduced without survival loss. In recent years, circulating tumor DNA had achieved encouraging results in monitoring recurrence and metastasis after surgery, and has potential clinical application value. Postoperative ctDNA is also considered as a marker of increased risk of recurrence for stage I-III colon cancer and can provide predictive information for decision making on adjuvant treatment. The results of GERCOR-PRODIGE, concomitant study of IDEA-FRANCE, showed that in the high-risk group, the patients with ctDNA positive and receiving adjuvant chemotherapy for 6 months had similar prognosis as the patients with ctDNA negative and receiving chemotherapy for 3 months; in the low-risk group, the patients with ctDNA positive but receiving chemotherapy for 3 months had worst prognosis, and the prognosis of patients with ctDNA negative chemotherapy for 3 months and 6 months and ctDNA positive chemotherapy for 6 months were similar. This indicates that risk stratification can be further performed according to the results of ctDNA after clinical pathological staging. Pathological staging is still an important decision-making factor for chemotherapy. It is not reliable to the chemotherapy decision making just based on ctDNA and abandoning clinical staging. Therefore, a prospective, multicenter, open-label, randomized controlled clinical trial was designed aimed to investigate circulating tumor DNA guided adjuvant chemotherapy for colon cancer. In this study, all the patients are divided into high-risk group and low-risk group according to the postoperative pathology. Patients in each group were randomized to different treatment schedule according to the results of ctDNA.
The clinical diagnosis and treatment of small pulmonary nodules (suspected to be lung metastases) in advanced colorectal cancer patients remain controversy. Previous studies have shown that tumor-informed circulating tumor DNA (ctDNA) blood testing can sensitively detect residual cancer. Postoperative ctDNA in colorectal cancer patients is a valuable biomarker to identify minimal residual disease (MRD) after radical resection, which is possibly useful in redefining the risk group of patients and guiding postoperative treatment. This study aimed to explore the clinical value of therapeutic strategies based on tumor-informed ctDNA test in advanved colorectal cancer patients with small pulmonary nodules.
Cohort study to assess the impact of ctDNA detection in the follow-up and management of patients with hepatocellular carcinoma treated by TACE