View clinical trials related to Kidney Transplantation.
Filter by:To combat post-transplant weight gain, we seek to expand Stanford Kidney Transplant's multidisciplinary platform to include physical activity monitoring and coaching using the Apple Watch.
Therapeutic drug monitoring (TDM) of immunosuppressive drugs is used to improve the immunosuppressive effect while minimizing the toxicity related to exposition to high serum levels. Although TDM is widely used in clinical practice, a significant number of kidney transplant recipients have acute allograft rejection in the first year after transplantation. To improve the use of immunosuppressive drugs, new approaches of TDM have been developed. Monitoring drug concentrations at lymphocytes of peripheral blood is considering promising because it indicates the availability of the drug directly in the target sites of immunosuppression. The present study intends to establish the concentration profile of tacrolimus in the peripheral blood in parallel with the concentration profile inside T and B lymphocytes of peripheral blood of kidney transplant recipients, and correlates them with the expected pharmacological effects. The pharmacological effects of tacrolimus in calcineurin dependent and calcineurin independent (mitogen-activated protein kinase (MAPK) dependent) activation pathways will be assessed by measuring activated nuclear factor of activated T cells (NFAT) and p38, respectively, by flow cytometry. The expression of interleukin (IL) - 2 and IL-10 by T and B lymphocytes, respectively, will be also used to monitoring the pharmacodynamic effects of tacrolimus.
It was previously suggested an improvement of graft survival in ABO/HLA incompatible kidney transplantation (KT) compared with HLA (human leukocyte antigen) incompatible transplantation. Here, the investigators would analyse clinical, biological and histological results of ABO/HLA incompatible kidney transplant recipients, comparing with ABO or HLA compatible kidney transplantation.
The purpose of this study is to determine if cognitive function improves in patients converted from tacrolimus immediate release (TAC IR) to Envarsus XR® (tacrolimus extended release) using an objective measure of cognition.
Patients who have had a previous allograft failure represent a major problem for transplant centers as they are highly-human leukocyte antigen (HLA) sensitized and unlikely to receive another transplant without significant desensitization. This single center, phase I/II, open label single-arm exploratory study focuses on enrolling twenty patients (ages 15-75) who will begin desensitization therapy to achieve HLA incompatible (HLAi) renal transplantation. Patients who qualify will receive up to 6 doses of clazakizumab 25 mg monthly pre-transplantation. If patients receive an HLAi transplant during the study, the participants will continue to receive another 6 monthly doses of clazakizumab 25 mg, followed by a 6 month protocol biopsy. Patients will continue another 6 doses over 6 months if improvements are seen after the 6th dose of clazakizumab. Patients who develop evidence of persistent allograft dysfunction may have non-protocol biopsies for cause. Patients who receive 12 doses of clazakizumab post-transplant will receive a 12M protocol biopsy.
This is a pilot study to determine if extended release Envarsus at an optimal level is just as effective as more invasive standard therapies for subclinical (mild) AMR (antibody mediated rejection) in kidney transplant patients. Subjects will be randomized to either conversion to Envarsus XR (extended release); or, to a standard of care regimen of plasma exchange/IVIG (intravenous immunoglobulin)/rituximab treatments.
Antibody mediated rejection (ABMR) is a unique, significant and often severe form of allograft rejection. This single center, phase I/II, open label single-arm exploratory study focuses on enrolling ten patients with biopsy proven chronic antibody medicated rejection and/or donor specific antibody present at time of biopsy. Patients who qualify will be receiving clazakizumab (anti-IL6 monoclonal antibody) monthly x six doses. A protocol biopsy will be performed at 6 months and if improvement is seen, patients will continue another six doses for up to 12 months. For those completing 12 doses, there will be a 12 month protocol biopsy. For those who only received six doses, the next and last study visit will be at 12 months from enrollment. Total study duration is 12 months.
Cardiovascular morbidity and mortality is increased in kidney transplant patients. High blood pressure (BP) contributes significantly to this risk and is also associated with shortened allograft survival. Salt reduction lowers BP in the general population and there is emerging data that salt reduction also effectively lowers BP in chronic kidney disease (CKD). Kidney transplant patients, by definition have CKD, but they differ fundamentally from the general CKD population in that they are on medications which can predispose to high blood pressure, their kidneys are denervated, and they often have reasonable excretory kidney function. The proposed study will be an eight-week randomised, controlled trial assessing the effect of intensive dietary salt advice on cardiovascular risk factors in kidney transplant patients. The primary outcome is office BP readings, with the effect on 24-hour ambulatory blood pressure, proteinuria, arterial stiffness and endothelial function being studied as secondary outcomes.
Our primary goal is to investigate any hidden burden upon the grafted kidney from the increase of serum fluoride resulted from sevoflurane, versus isoflurane.
The primary objective of this study is to demonstrate the safety and efficacy of cellular immunotherapy with MDR-101 for induction of functional immune tolerance in recipients of human leukocyte antigen (HLA)-matched, living donor kidney transplants.