View clinical trials related to Chemotherapy Effects.
Filter by:Pancreaticoduodenectomy is associated with high perioperative morbidity, with surgical site infection (SSIs) being one of the most common complications. A retrospective study at Hopkins on SSIs in these patients identified the rate of SSIs to be 16.7% and pre-operative bile stent/drain and neoadjuvant chemotherapy were independent predictors of surgical site infection. Patients with these factors having a predicted risk of up to 32%. Another subsequent retrospective study demonstrated that the use of negative pressure wound therapy device was significantly associated with a decrease in the rate of SSIs. The hypothesis of the investigator(s) for the current study is that placement of Prevena Peel & Place Dressing (Negative Pressure Wound Therapy, NPWT) in patients undergoing pancreaticoduodenectomy who are at high risk of SSIs will result in a significant decrease in their SSI rate.
This is a phase III clinical trial to compare the efficacy of docetaxel plus cisplatin versus 5-Fu plus cisplatin in the first line chemotherapy for advanced or metastatic esophageal squamous carcinoma patients.
We would suggest to conduct "VOLUME-2" study, as an extension of the ongoing "VOLUME" study with all subjects already included. After completion of VOLUME study, the study will be directly extend with an "open-label design". All participants, who agreed to pursue, with either "Placebo" or "CG428", will receive CG428 treatment for an additional six-month period. VOLUME-2 study would be ideal and timely by enabling no interruption of product use. The Primary Objective is to observe for a longer period the efficacy of CG428 (12 months : 6months Volume + 6 months Volume-2) in order to better discriminate later or non-responder populations. Secondary Objectives are : - Evaluate how far CG428 can improve hair-pattern (reach a plateau or constant progression) - Evaluate motivation and adherence of subjects - Long term safety
This study evaluates peripheral nervous system function using Multiple Excitability Measures (MEM) to obtain "electrophysiological pain phenotypes"