View clinical trials related to Homeostasis.
Filter by:This is an exploratory controlled before-after study, which involves 112 participants, of whom 28 are with normal weight and 84 are overweight or obese. Twelve weeks of personalized nutritional and lifestyle weight reduction intervention will be conducted in the overweight or obese participants. The objectives of this study are to 1) characterize metabolic homeostasis under resting and exercise conditions, 2) to explore the potential impact factors on metabolic homeostasis, and 3) to investigate whether personalized nutritional and lifestyle weight reduction intervention can improve metabolic health in overweight or obese Chinese individuals and how is it comparable to healthy normal weight Chinese population.
Background and Significance A growing amount of evidence linking transfusion of allogeneic blood products with negative patient outcomes and increased cost continues to drive interest into strategies and technologies that limit patient exposure to this risk. The single largest consumer of this resource continues to be cardiac surgery, with 20% of the world wide use of allogeneic blood products accounted for by this cohort. The lysine analogs tranexamic acid (TXA) has gained wide spread use in cardiac surgery as a blood-sparing agent. Mounted evidence has proved its efficacy and safety in cardiac surgery. However, the optimal dose regimen of TXA and the impact on patients' outcomes remains debated. Study Objectives The primary objective of the study is to analyze the primary efficacy (superiority) and primary safety (non-inferiority) of the two dose regimen of tranexamic acid.. The primary efficacy endpoint includes perioperative allogeneic transfusion rate, and the primary safety endpoint includes the 30-day rate of the composite of perioperative renal dysfunction, myocardial infarction, ischaemic stroke, seizure, deep venous thrombosis, pulmonary embolism and all-cause mortality. The secondary objectives are to demonstrate the efficacy of the two dose regimens in reducing perioperative allogeneic transfusion volume, postoperative bleeding (chest tube drainage), reoperation rate, mechanic ventilation duration, ICU stay, hospital length of stay (LOS), and total hospitalization cost. Study Endpoints The primary endpoints include efficacy and safety. The primary efficacy endpoint includes perioperative allogeneic transfusion rate, and the primary safety endpoint includes the 30-day rate of the composite of perioperative renal dysfunction, myocardial infarction, ischaemic stroke, seizure, deep venous thrombosis, pulmonary embolism, and all-cause mortality. The key secondary endpoints of the study are defined as perioperative allogeneic transfusion volume, postoperative bleeding (chest tube drainage), reoperation rate, mechanic ventilation duration, ICU stay, hospital length of stay (LOS), and total hospitalization cost. Study Population Adult patients aged 18-70 years undergoing elective cardiac surgery with cardiopulmonary bypass are included. Totally 3008 patients will be required for this study (1504 in each of the 2 groups). Study Design The study is a multicenter, randomised, double-blind trial. Cardiac surgery patients with cardiopulmonary bypass will be randomised to Dosage 1 regimen group or Dosage 2 regimen group of tranexamic acid. Study Treatment The dosage regimen is implemented with dose of loading (intravenous infusion in 20 mins), maintenance (throughout the surgery), and pump prime (added into the bypass machine). The Dosage 2 regimen contains an intravenous bolus of 10 mg/kg after anesthetic induction followed by an intravenous maintenance of 2 mg/kg/h throughout the surgery, and a pump prime dose 1 mg/kg. As for the Dosage 1 regimen, the intravenous bolus and the maintenance are 30 mg/kg and 16 mg/kg/h respectively, and a pump prime dose 2 mg/kg. Patients, surgeons and research staff interviewing patients postoperatively will be blind to treatment allocation. Statistical Considerations The study hypothesis is that the Dosage 1 regimen of tranexamic acid is superiority to the Dosage 2 regimen in the primary efficacy endpoint, while at the same time, the Dosage 1 regimen is non-inferiority to the Dosage 2 regimen in the primary safety endpoint in cardiac surgery with cardiopulmonary bypass. The sample size calculation is mainly based on the blood transfusion rate, and 30-day rate of the composite of perioperative renal dysfunction, myocardial infarction, ischaemic stroke, seizure, deep venous thrombosis, pulmonary embolism and all-cause mortality. For the primary efficacy endpoint, a sample size estimate of 1,214 randomized subjects (607 for each group) has 90% power to detect a 12.5% reduction (61.7% vs 70.5% between Dosage 1 regimen and Dosage 2 regimen ), by means of a single-sided α = 0.025 Chi-square test. For the primary safety endpoint, a sample size estimate of 2,698 randomized subjects (1349 for each group) has 90% power to detect a noninferiority margin for the difference of 5%, by means of a single-sided α = 0.025 log rank test. In order to conduct an interim analysis, the sample size in each group is 1504(10% drop-out rate) for the adjusted significance level (from 0.025 to 0.0245 in accordance with α spending function by Lan-DeMets Method). Finally, the investigators decided to enroll 3008 study patients (1:1 ratio) for the OPTIMAL trial.
Despite improvements in management, mortality in severe traumatic brain injury (TBI) remains 25% and only 40% of patients survive without major handicap. Medical/surgical interventions aim to maintain adequate brain perfusion, which is critically dependent on cerebral perfusion pressure (CPP); calculated as the difference between mean arterial pressure (MAP) and intracranial pressure (ICP). Current guidelines aim for a CPP above 50 mmHg, based on population means. However, this 'one size fits all' approach is flawed, because the relation between CPP and brain perfusion varies between individuals. Further, this approach takes no account of autoregulation, a key protective mechanism that maintains cerebral perfusion despite CPP fluctuations. Autoregulation is variably preserved following TBI, and there are large between patient variances in the 'optimal' CPP (CPPopt) at which autoregulation operates best. Individual CPPopt can be retrieved automatically by plotting autoregulation data against the CPP over a certain time window. The investigators have shown that maintenance of CPP close to CPPopt is associated with improved outcomes. These data pose the hypothesis that optimisation of management in individuals may be achieved by using the zone of optimal autoregulation as a basis for defining individualised CPP targets. The investigators propose, together with collaborators in the CPPopt study group (Maastricht, Cambridge, Leuven and Aachen) to set up a pilot (multicenter) feasibility study to develop a protocol for a definitive outcome randomized controlled trial (RCT). This study aims to develop protocols for CPPopt guided critical care, and show that they maintain patients closer to their optimum perfusion levels than standard protocols which keep above a population CPP threshold of 60 mmHg. Hence, the main objective is to offer clinicians monitoring and therapy algorithms that achieve individualized optimal CPPopt targets and potentially improve TBI outcome.
The purpose of this study is to evaluate the effect of dexlansoprazole modified release (MR), once daily (QD), on bone homeostasis.