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Active clinical trials for "Renal Insufficiency"

Results 451-460 of 1903

Study to Assess the Pharmacokinetics and Safety of AZD9977 in Participants With Renal Impairment...

Renal Impairment

This is a single dose, non-randomized, open-label, parallel group study. The study will be conducted in participants with severe renal impairment and compared with matched participants with normal renal function. The duration of the study for an individual participant from Screening to Follow-up will be approximately 5 weeks.

Completed26 enrollment criteria

Pharmacokinetics of Yimitasvir Phosphate Capsule in Subjects With Normal Renal Function and ESRD...

Renal Impairment

This study is to evaluate the single-dose pharmacokinetics (PK) and safety of Yimitasvir phosphate capsule in participants with End-stage renal disease without hemodialysis using matched healthy participants as a control group.

Completed10 enrollment criteria

A Study to Evaluate the Pharmacokinetics and Safety of YHD1119 in Subjects With Renal Impairment...

Healthy VolunteerRenal Impairments

The purpose of this trial is to compare the pharmacokinetic characteristics and safety of YHD1119(Pregabalin SR 75mg) and YHD1119(Pregabalin SR 150mg) in subjects with renal impairment and healthy subjects. YHD1119 is sustained-release (SR) formulation which is made by Yuhan Corporation. Primary endpoints are Cmax and AUClast and secondary endpoints are AUCinf,Tmax, t1/2, CL/F and V/F.

Completed11 enrollment criteria

Study to Evaluate the Pharmacokinetics, Safety, and Pharmacodynamics of INCB000928 in Participants...

Renal ImpairmentHemodialysis

This is a multicenter, open-label parallel-group to evaluate single oral doses of INCB000928 in participants with varying level of renal function or impairment.

Completed50 enrollment criteria

Is Hemodialysis Associated With Cardiac Markers Change?

Renal InsufficiencyChronic

Hemodialysis (HD) triggers recurrent and cumulative ischemic insults to the brain and the heart. Cooled dialysate may have a protective effect on major organs and improve hemodynamic tolerability of dialysis. The aim of the study was to compare HD with cooled dialysate with routine dialysis in terms of hemodynamic stability and levels of high sensitivity Troponin I (hs-TnI) and N-terminal pro b-type natriuretic peptide (NTproBNP) post dialysis

Completed4 enrollment criteria

Auryxia (Ferric Citrate) Therapy for In-Center and Home Dialysis Participants

HyperphosphatemiaAnemia2 more

This study is being conducted to demonstrate the effect of Auryxia, when used as the primary phosphate lowering therapy, on the overall cumulative use of erythropoiesis-stimulating agent and intravenous iron as well as on the laboratory parameters indicative of phosphate and anemia management.

Completed18 enrollment criteria

Everolimus Monotherapy as Immunosuppression After Liver Transplant

Kidney Failure

Tacrolimus is the standard immunosuppressive drug used to prevent organ rejection post liver transplant. One side effect of Tacrolimus is nephrotoxicity. Everolimus does not have the nephrotoxicity side effects of Tacrolimus. Replacement of Tacrolimus by Everolimus may have a reduced incidence of renal dysfunction in liver transplant patients who have near normal kidney function prior to liver transplantation. Other investigators have already shown a benefit in terms of renal function with introduction of Everolimus with reduced-exposure tacrolimus at 1 month after liver transplantation, this benefit has been shown was maintained to 3 years in patients who continued Everolimus therapy with comparable efficacy and no late safety concerns. Investigators in this trial are proposing to advance this approach further by completely eliminating Tacrolimus from patients' immunosuppression protocol. The rationale for this approach is based on a unique induction immunosuppression protocol. Liver transplant patients receive potent induction immunosuppression in the form of rabbit anti thymocyte globulin. Investigators believe that in conjunction with this induction regimen, patients can be maintained on Everolimus monotherapy without the risk of rejection. By completely eliminating Tacrolimus, investigators believe that there may be further benefit in terms of renal function. Additionally, Everolimus is known to induce tolerance in transplant recipients. Tolerant patients do not require immunosuppression to accept transplant organs. The long-term efficacy and safety of Everolimus monotherapy as the maintenance immunosuppression in patients receiving rATG induction is unknown. Primary Aim: Assess the effect of Everolimus monotherapy versus Tacrolimus monotherapy on long term renal function measured by Glomerular Filtration Rate (GFR).

Terminated11 enrollment criteria

A Study to Demonstrate the Safety and Effectiveness of the NIKKISO DBB-EXA ES Hemodialysis Delivery...

DialysisChronic Renal Failure

The study objective is to verify the safety and effectiveness of the DBB-EXA ES Hemodialysis Delivery System to consistently deliver dialysate of the appropriate quality for infusion.

Completed19 enrollment criteria

A Study to Evaluate the Pharmacokinetics (Drug Levels and Metabolism), Safety, and Tolerability...

Renal Failure

A study to evaluate the drug effect, safety, and tolerability of BMS-986259 in participants with different levels of kidney function

Completed12 enrollment criteria

Everolimus Plus Mycophenolic Acid for Kidney Preservation in Liver Transplant Recipients With Impaired...

Kidney Failure

Tacrolimus is the standard immunosuppressive drug used to prevent organ rejection post liver transplant. One side effect of Tacrolimus is nephrotoxicity. Everolimus does not have the nephrotoxicity side effects of Tacrolimus. Replacement of Tacrolimus by Everolimus may have a reduced incidence of renal dysfunction in liver transplant patients who already have chronic kidney disease or peri-operative acute kidney injury. Liver transplant patients receive potent induction immunosuppression in the form of rabbit anti thymocyte globulin. Investigators believe that in conjunction with this induction regimen, patients can be maintained on Everolimus monotherapy without the risk of rejection. Additionally, Everolimus is known to induce tolerance in transplant recipients. Tolerant patients do not require immunosuppression to accept transplant organs. Tacrolimus is a widely used in liver transplant recipients for immunosuppression, however it is associated with nephrotoxicity. Everolimus, on the other hand lacks nephrotoxicity. Whether replacement of tacrolimus by Everolimus preserves kidney function in patients with pre-existing chronic kidney disease or acute kidney injury is not well established. Also, the efficacy and safety of reduced-dose Everolimus with or without Mycophenolate Mofetil in prevention of rejection is unknown. Primary Aim Assess the effect of Everolimus with or without Mycophenolate Mofetil versus Tacrolimus plus Mycophenolate Mofetil therapy on renal function measured by Glomerular Filtration Rate (GFR). Secondary Aims Compare the efficacy of Everolimus plus Mycophenolate Mofetil versus Tacrolimus plus Mycophenolate Mofetil therapy as measured by the following: Biopsy-confirmed acute rejection Hyperlipidemia Proteinuria % regulatory T-cells in circulation NODAT [New Onset Diabetes mellitus After Transplant], hypertension and malignancy Tolerance measured by gene profiling at year 1, 2 and 3

Terminated11 enrollment criteria
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