There are about 36818 clinical studies being (or have been) conducted in China. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
This is a phase 1, open-label, single-arm, first-in-human study to evaluate the safety, tolerability, pharmacokinetics (PK) and anti-tumor activity of SY-4835 administered orally in patients with advanced solid tumors.
This study is a single-center, single-arm, open-label clinical study. All patients with advanced and unresectable biliary tract tumors will be treated with the combination of tisleizumab, lenvatinib and XELOX regimen (oxaliplatin plus capecitabine) until disease progression , unacceptable toxicity, death or the patient meets any other discontinuation criteria described in the protocol, whichever occurs first. Subjects can receive up to 8 cycles of the XELOX regimen. For subjects who are intolerant to XELOX regimen or have stable disease or objective response after complete 8 cycles of XELOX regimen, treatment with tisleizumab and lenvatinib will be continued until tumor progression or for a maximum of 2 years. Patients will be closely monitored for safety and tolerability throughout the study.
Most ovarian cancer will relapse after standard therapy. Patients with recurrent ovarian cancer are resistant to platinum. Due to the high heterogeneity between ovarian cancer, individual precise therapy is of great importance. The study will establish ovarian cancer organoids, whose original tissues from the patients with advanced or recurrent ovarian cancer, their tumors cannot be excised completely. The organoids will be identified at the histopathological level and gene level for evaluating the consistency with the original tumor tissue. The drug's sensitivity and specificity are detected through the organoids model. Compared with the clinical efficiency of the actual drug regimen, the efficacy of the organoid drug screening model can be assessed. The aim is to construct a precise drug screening platform for advanced and recurrent ovarian cancer patients and innovate drug research and development.
This is a updated trial of NCT04188860 as a multi-center study. For recurrent or persistent advanced cervical cancer patients, the first-line chemotherapy was based on platinum. However, if they were refractory to platinum-based chemotherapy, there were no other more effective medications or treatment. The marketing of anti-PD-1 antibody has provided an opportunity of curative management. This single arm, open, phase II trial would recruit 122 eligible patients. A combination of anti-PD-1 antibody camrelizumab and albumin-bound paclitaxel would be given for all patients. The primary end is overall response rate (ORR). The second ends include progression-free survival, overall survival, disease control rate, remission duration, and adverse events. A molecular testing, mainly consisting of genomic analysis, will be carried in the oncologic tissues.
Based on the previous study of NCT04651738, we performed this trial to further confirm the accuracy of host DNA CDO1 and CELF4 methylation for endometrial cancer screening. This study would provide profound basis for the approval of assay kit of DNA methylation in China for endometrial screening. Four hospitals, including Peking Union Medical College Hospital, would enroll eligible patients in this study. The cervical cytology of 3 ml will be collected for the detection of DNA CDO1 and CELF4 methylation, and the results will compared with the endometrial histological pathology, which is achieved after collection of cervical cytology, by surgeries including hysteroscopy, dilation and curettage, total hysterectomy and others. The methylation testing would be double-blinded in operators and analysts. The study will enroll at least 7150 patients.
The objective of this study was to explore whether the combination with umbilical cord blood (UCB) is associated with superior disease-free survival (DFS) in the setting of haploidentical donors (HID) transplantation.
Severe Community-acquired pneumonia (SCAP) is a leading global infectious cause of intensive care unit (ICU) admission (approximately 20%-30%), and the primary reason of mortality and morbidity in immunocompromised patients. There is a global increase of patients with distinct immunocompromised conditions due to the advance of cancer treatment, increasing biologics, and immunosuppressants for autoimmune diseases and growing organ transplant recipients, and it has been estimated that patients with immunocompromised conditions account for approximately 35% of all intensive care unit (ICU) admissions. Immunocompromised patients with SCAP have more factors to complicate with sepsis, respiratory failure, acute respiratory distress syndrome, and the mortality rate can be up to 50%. With the aim to apply early accurate antimicrobial therapy to improve clinical prognosis of SCAP patients with immunocompromised conditions, timely identification of pathogen is particularly important. Conventional microbiological diagnostic methods such as standard microbiologic cultures, microscopy, polymerase chain reaction (PCR), respiratory virus multiplex PCR, as well as pathogen-specific antigens and antibody assays, are currently commonly used to detect pathogens, although they have various limitations. However, conventional antimicrobial therapy depends on the results of conventional diagnostic methods, which may delay timely accurate antimicrobial therapy at the initial stage, and the mortality of immunocompromised patients with SCAP may be increased. Metagenomic next-generation sequencing (mNGS), which can determine pathogens more quickly (usually within 24h) and accurately comparing with conventional diagnostic methods by analyzing cell-free nucleic acid fragments of pathogens using appropriate lower respiratory tract (LRT) specimen, is increasingly used in severe respiratory infectious disease, especially among immunocompromised patients. This study aims to determine whether mNGS (using LRT specimen) guided antimicrobial treatment improves clinical prognosis of SCAP patients with immunocompromised conditions when compared with conventional antimicrobial treatment.
Based on the previous study of NCT03961191 and NCT03960879, we performed this trial to further confirm the accuracy of host DNA PAX1 and JAM3 methylation for cervical cancer screening. This study would provide profound basis for the approval of assay kit of DNA methylation in China for cervical screening. Three hospitals, including Peking Union Medical College Hospital, would enroll eligible patients in this study. The cervical cytology of 3 ml will be collected for the detection of DNA PAX1 and JAM3 methylation, and the results will compared with the cervical histological pathology, which is achieved after collection of cervical cytology, by surgeries including loop electrosurgical excision procedure, cervical conization, total hysterectomy and others. The methylation testing would be double-blinded in operators and analysts. The retrospective and prospective parts will enroll at least 120 patients and at least 339 patients, respectively.
Based on the previous study of NCT04651738, we performed this trial to further confirm the accuracy of host DNA CDO1 and CELF4 methylation for endometrial cancer screening in a multi-center cohort. Thirteen hospitals, including Peking Union Medical College Hospital, would enroll eligible patients in this study. The cervical cytology of 3 ml will be collected for the detection of DNA CDO1 and CELF4 methylation, and the results will compared with the endometrial histological pathology, which is achieved after collection of cervical cytology, by surgeries including hysteroscopy, dilation and curettage, total hysterectomy and others. The methylation testing would be double-blinded in operators and analysts. The study will enroll at least 10,000 patients.
This is a phase 2, single center clinical trial. to evaluating the efficacy and safety of Zanubrutinib in combination with R-CHOP in newly diagnosed diffuse large B-cell lymphoma with specific gene abnormality.