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 study will evaluate the efficacy, safety, and pharmacokinetics of tobemstomig alone or in combination with tiragolumab compared with atezolizumab in participants with previously untreated, locally advanced or metastatic urothelial cancer (mUC) who are ineligible to receive a platinum containing chemotherapy.
The China PEACE SMARTER trial is a cluster ramdomized trial aiming to assess the effectiveness of village doctor-led tailored health management on risk reduction of high-risk individuals for cardiovascular disease.
The purpose of this study is to evaluate the efficacy and safety of IBI112 in the treatment of participants with moderate to severe plaque-type psoriasis.
This is a single-centre, single-arm and open-label study to investigate the safety and efficacy of JD010 in adult patients with relapsed or refractory B cell hematologic malignancies. JD010 injection is a CD19-targeted chimeric antigen receptor modified natural killer cells (CAR-NK) derived from a healthy donor
This is a monocentric prospective study. This study aims to investigate the prognostic value of the novel melanin-targeted imaging modality 18F-PFPN PET in patients with melanoma and seek independent prognostic factors for progression-free survival (PFS) and overall survival (OS). The patients with clinically highly suspected or confirmed melanoma who underwent 18F-PFPN and 18F-FDG PET scans will be enrolled consecutively. Patients' PET images, clinical characteristics, and follow-up information will be collected for prognostic analyses. This study plans to set the sample size as 100 cases.
Acute myocardial infarction (AMI) is the first cardiovascular cause of death that seriously threatens human health worldwide. Its incidence rate and mortality are increasing year by year and becoming younger. According to statistics, the average age of men and women with AMI for the first time is 65.6 years old and 72 years old respectively, of which 4%~10% AMI occurred before 45 years old. At present, there is no uniform age threshold for young AMI. Generally speaking, AMI with onset age less than 55 years for men and 65 years for women is called early-onset AMI, accounting for 5%~13% of AMI. Compared with elderly patients with AMI, patients with early onset AMI have different risk factors, clinical characteristics and prognosis, such as lower proportion of patients with diabetes and hypertension, more single vessel lesions and rare left main artery involvement, and higher long-term recurrence rate and mortality. Although the progress of preventive measures and treatment methods has reduced the hospitalization rate of elderly AMI patients, the number of young AMI patients in hospital is still rising. Therefore, in-depth analysis of the characteristics of risk factors of early onset AMI and early intervention are of great significance to reduce the risk of onset and improve long-term prognosis. Hyperlipidemia is an independent risk factor for coronary heart disease at all ages, and is more closely related to early onset AMI. It is reported that more than 50% of early onset AMI patients are accompanied by hyperlipidemia. However, at present, the research on the relationship between blood lipids and early onset AMI is limited to the comparison of the level of single lipid component between early onset AMI and different control groups, or the comparative analysis of the relationship between a specific lipid component and the risk of early onset AMI with young healthy people. There is no research to compare the correlation between various lipid components and the risk of early onset AMI. Therefore, this study plans to deeply analyze the correlation between different blood lipid components and their ratios and early onset AMI, and further analyze which blood lipid indicators are most closely related to early onset AMI through large sample clinical research data, taking late onset AMI patients as the control, which should be paid early attention to and strictly managed.
Rare diseases generally refer to diseases whose prevalence rate is lower than 1 / 10 000 and the number of patients is less than 140000. Rare diseases are generally faced with the dilemma of a lack of qualified doctors, difficulty in large-scale screening, and a lack of rapid and effective channels for medical treatment. Studies have shown that 42% of patients say they have been misdiagnosed, and each patient with a rare disease needs to go through an average of eight doctors in seven years to see a corresponding rare disease specialist. More importantly, most rare diseases seriously affect the health and quality of life of patients. The ocular surface malignant tumor is a typical rare disease, and its incidence is less than 1 / 100000. The ocular surface not only affects the patient's appearance, but also damages the visual function, and the malignant tumor may even affect life. These uncommon malignant tumors are often hidden in the common black nevus on the eye surface, which is easy to be ignored and has great potential risks. With the improvement of people's living standards, people start to pay attention to rare diseases. In recent years, the rapid development of digital technology has also provided new opportunities for the prevention and treatment of rare diseases. Our team established the database of rare ophthalmopathy in China in the early stage, which provided a solid foundation for the digitization of precious clinical data. This study intends to develop an intelligent screening system for ocular surface malignant tumors, using the mobile phone for real-world verification and scale screening, and explore it to improve the ability of doctors to diagnose and treat rare diseases. This study is expected to improve the ability to screen malignant tumors on the ocular surface and provide a novel model for the universal screening of rare diseases.
This project is a phase Ib clinical trial study evaluating the efficacy and safety of TQB2618 injection combined with TQB2450 injection in patients with advanced solid tumors, the trial plan to enroll 127 subjects, the trial design is a phase I.b dose exploration and cohort expansion clinical study, aiming to evaluate the safety and efficacy of TQB2618 injection combined with TQB2450 injection in patients with advanced malignant solid tumors, and to evaluate TQB2618 injection, Pharmacokinetic characteristics, receptor occupancy and immunogenicity characteristics of TQB2450 injection; Biomarker studies related to the mechanism of action, safety and/or pathological mechanism of efficacy have dose-limiting toxicity (DLT) in Phase I, recommended dose in Phase II (RP2D), and objective response rate (ORR) in Phase II as the primary endpoints.
In this center, retrospective research methods are used to collect data. Patients who had used Lidocaine Cataplasms at least once were included consecutively. Taking the time when the patient first used Lidocaine Cataplasms as the starting time (the study baseline), collect the demographic characteristics of the patient, the medication scheme of Lidocaine Cataplasms and other information, as well as the medication safety and other information from the first medication to the end of medication or discharge (whichever occurs first).
This study will provide objective evidence for the efficiency and safety of minodronate in the treatment of postmenopausal osteoporosis with low back pain protocol. Furthermore, it will be helpful to evaluate the quantitative relationship between bone metabolic markers (BTM) and bone mineral density (BMD) in patients with osteoporosis under different ages.