View clinical trials related to Acute Kidney Injury.
Filter by:The primary objective is to safely determine if the investigators can identify the severity of Acute Kidney Injury (AKI) early in the course of the disease. Once enrolled the investigators will draw blood and urine for novel and standard biomarkers. The investigators are attempting to determine if these biomarkers can forecast the course of AKI (need for dialysis, death and renal recovery). The investigators seek to determine how well physicians caring for those with AKI can predict the clinical course compared to these novel biomarkers of AKI and if there is an association between clinical course and 3 year patient outcomes.
This is a pilot, explorative, study to test the feasibility and safety of systemic infusion of donor ex-vivo expanded Mesenchymal Stem Cells to repair the kidney and improve function in patients with solid organ cancers who develop acute renal failure after chemotherapy with cisplatin.
Critically ill patients with acute kidney injury (AKI) are at high risk of bleeding on account of coagulopathy, platelet dysfunction, frequent liver dysfunction and invasive procedures.In patients at high risk of bleeding, anticoagulation restricted to the circuit (regional anticoagulation) has been advocated as the method of choice.However, citrate anticoagulation may have many metabolic consequences, such as metabolic alkalosis due to citrate metabolism into bicarbonate, and in patients with liver disease, metabolic acidosis and hypocalcemia may occur.Implementation of citrate-based regional anticoagulation with frequent monitoring of acid-base and electolytes is also more challenging for the nurses and does not eliminate the need of a low-dose systemic anticoagulation for thromboses prophylaxis in most of the patients. Citrate-based regional anticoagulation is therefore mainly advocated only for patients at high-risk of bleeding. The investigators plan to implement an open-label randomized control trial assessing the effectiveness of citrate-based regional anticoagulation in critically ill patients with AKI and with a special emphasis on the safety profile of this treatment in patients with severe liver failure.
Remote Ischemic Preconditioning (RIPC) is a treatment that may be associated with improved outcomes after cardiac surgery. It can be elicited noninvasively by using a tourniquet to elicit transient ischemia over a lower extremity. It is thought to promote anti-inflammatory and cell survival pathways, and thus protect remote organs against future ischemic injury. We hypothesize that compared to sham treatment, RIPC will be associated with decreased post-operative acute kidney, myocardial, and lung injury.
In patients with sepsis and AKI, increasing the intensity of renal replacement therapy from 50 mL/kg/h (HVHF) to 85 mL/kg/h (EHVHF)will increase the survival at 28 days and 90 days.
Children with congenital heart defects often need cardiac surgery with cardiopulmonary bypass (the "heart-lung machine"). Approximately 35 to 50% of these children will have "acute kidney injury," or damage to the kidneys, after the procedure. We currently have few medications to prevent this kidney injury. The hypothesis of this study is that giving aminophylline after heart surgery can decrease the acute kidney injury.
In patients presenting with the acute respiratory distress syndrome (ARDS), mechanical ventilation with low tidal volume (6 ml/kg predicted body weight) is the current gold standard for supportive care. However, despite a relative low tidal volume, approximatively one third of patients will experienced tidal hyperinflation, a phenomenon known to induce pulmonary and systemic inflammatory response. A further reduction of the tidal volume to 4 ml/kg (PBW) will prevent pulmonary area from tidal hyperinflation. As a result, hypercarbia and respiratory acidosis are commonly observed with such very low tidal ventilation. Extra corporeal CO2 removal is one of a mean to normalize arterial CO2 tension. Patients with ARDS also frequently develop acute renal failure which may required Renal Replacement Therapy. Some data suggests that starting early the RRT may favor outcome. The investigators hypothesized that a strategy combining ECCOR and RRT early in the course of patients presenting ARDS and acute renal failure will allow the tidal volume to be further reduced, providing lung protection, while avoiding the arterial CO2 tension to be increased. For this purpose, the investigators sought to evaluate the safety and efficacy of adding a membranel oxygenator within an hemofiltration circuit, either upstream or downstream of the hemofilter.
This is a two-staged study of a single dose of 200 mg of bosutinib given to subjects with renal impairment and matching healthy volunteers. In Stage 1, only subjects with severe renal impairment and subjects with normal renal function will be enrolled. Subjects with mild and moderate renal impairment will be enrolled in Stage 2 if the results from Stage 1 suggest a substantial difference in PK profiles between subjects with severe renal impairment and subjects with normal renal function.
The purpose of this study is to compare the feasibility, safety and efficacy of hemodialysis with unfractionated heparin compared to hemodialysis with Citrasate in Critically Ill Patients.
The mortality of acute renal failure (ARF) remains to be high (around 60-70%) despite manifold improvements in ICU care. At present, it is not clear if the method chosen for renal replacement therapy, i.e. intermittent haemodialysis (IHD) or continuous haemofiltration (CVVH), might impact on the outcome of these patients. For this purpose, a prospective randomised clinical study of the effect of continuous versus intermittent renal replacement therapy on the mortality and outcome of acute renal failure will be performed.