38 Clinical Trials for Various Conditions
Donor-derived cell-free DNA (dd-cfDNA) has shown promise as an early marker for cellular injury caused by rejection. dd-cfDNA changes may also indicate other injuries that lead to progressive decline in transplant organ function associated with, in the case of kidney transplantation, the presence of interstitial fibrosis (IF) and tubular atrophy (TA) seen in biopsy specimens. Here, we will study the utility of dd-cfDNA to predict rejection in pancreas and pancreas-kidney recipients.
In pediatric kidney transplant patients, rejection, medication toxicity and ischemia cause early and chronic renal allograft injury, which reduces graft lifespan and patient survival. Early detection of injury would facilitate prevention and treatment. The gold standard surveillance biopsy has limitations including delayed discovery of injury. No noninvasive test identifies graft injury before it is clinically apparent. This project's goal is to develop a novel early marker of subclinical graft injury to facilitate prompt recognition and treatment.
Acute rejection after kidney transplantation should ideally be diagnosed prior to immunologic injury in a non-invasive fashion in order to improve long-term graft function. Donor-derived cell-free DNA (ddcfDNA) is a promising method to do so as it is elevated prior to acute rejection and has good predictive performance especially for antibody-mediated and high severity T-cell mediated rejection. Its ability to predict low severity T-cell mediated rejection and future graft function remains equivocal. Regulatory T cells (Tregs) are essential in transplant tolerance by suppressing effector immune responses. Circulating post-transplant highly suppressive HLA-DR+ Tregs were reduced in recipients who developed acute rejection. Preliminary results in a cohort including predominantly low severity T-cell mediated rejection also showed that pre-transplant circulating highly suppressive TNFR2+ Tregs were reduced in and could predict acute rejection. Integrating dd-cfDNA with HLA-DR+TNFR2+ Treg could improve the predictive performance for acute rejection especially of low severity and potentially predict graft function. Plasma dd-cfDNA and HLA-DR+TNFR2+ Tregs will be measured in 150 kidney transplant recipients at scheduled intervals during the first 6 months post-transplant. Predictive accuracy of a model integrating ddcfDNA and HLA-DR+TNFR2+ Treg for acute rejection will be tested using ROC curve analysis and multivariate logistic regression. Predictive accuracy for 1-year graft function will be tested using multivariate linear regression. High predictive performance for acute rejection and graft function using a model integrating dd-cfDNA and HLA-DR+TNFR2+ Treg would help identify kidney transplant recipients at immunologic risk early on and allow personalization of immunosuppression accordingly.
This is a prospective, multicenter, observational study of kidney transplant subjects where blood specimens, intended for dd-cfDNA and other future research purposes, will be drawn after transplant
To evaluate the clinical safety of different doses of MEDI-507 through day 33.
This is a study that will follow transplant patients from Study A3921030 to monitor for long term safety, tolerability and efficacy for 5 additional years, except in Portugal where the study will follow transplant patients through Month 36 posttransplant. Patients will continue their study medications that were previously assigned.
Efficacy and safety of AEB071 in combination with mycophenolate acid sodium, basiliximab and steroids in preventing acute rejection after kidney transplantation.
A new immunosuppressive drug, based on the inhibition of an important enzyme in the immune system called JAK3, is being developed by Pfizer to prevent transplant rejection. In this research study, a JAK3 inhibitor or cyclosporine will be given to new kidney transplant patients for 12 months. Patients will be assigned to one of three treatment groups after receiving a kidney transplant. Two of the treatment groups will receive 2 different dosing regimens of the JAK3 inhibitor that will be taken by mouth. The third treatment group will be a standard-of-care control arm. Patients will continue to take the assigned study medication for 12 months as well as other standard transplant medications such as prednisone.
A new immunosuppressive drug, based on the inhibition of an important enzyme in the immune system called JAK3, is being developed by Pfizer to prevent transplant rejection. In study A3921009, kidney transplant patients were given a JAK inhibitor or tacrolimus for 6 months posttransplant. Patients who completed study A3921009 were offered the opportunity to participate in study A3921021 which will extend the evaluation of safety and efficacy of CP-690,550 versus tacrolimus through 8 years posttransplant. In treatment group 1 (control arm), subjects will continue to receive tacrolimus. In treatment groups 2 and 3, subjects will continue to receive CP-690,550. Per Amendment 4, the tacrolimus comparator arm will be discontinued.
A multicenter clinical study comparing event-free survival at 6 months after transplant between Thymoglobulin-treated and Simulect-treated adult kidney transplant patients. Patients received Thymoglobulin or Simulect from Day 0 through Day 4. Day 0 was considered the day of the transplant procedure. Subjects meeting all inclusion and exclusion criteria were eligible to participate in this study. The treatment assignment was random and not chosen by the subject or their physician. Subjects were monitored during treatment with Thymoglobulin and during the transplant hospitalization. Additional subject monitoring occurred up to 12 months after transplant. 278 study subjects were enrolled at 28 transplant centers in the United States and Europe.
This study involves the use of a drug called Thymoglobulin, which is approved in the US to treat kidney transplant rejection and in Canada to treat and to prevent kidney transplant rejection. This study will evaluate the effect of Thymoglobulin and reduced doses of steroids to prevent renal transplant rejection and will provide a basis for future evaluations of Thymoglobulin as an immunosuppressive agent to help prevent renal transplant rejection. Subjects meeting all inclusion and exclusion criteria are eligible to participate in this study. In addition to standard treatment, study participants will receive either Thymoglobulin with rapid discontinuation of steroids or steroids per hospital standards for at least the first 90 days after transplant. The treatment assignment is random and is not chosen by the subject or their physician. Subjects will be monitored during treatment with Thymoglobulin and during the transplant hospitalization. Additional subject monitoring occurs at Months 1, 3, 6 and 12 following the transplant. Approximately 150 study subjects from 15-20 transplant centers in the United States will be enrolled.
Rabbit antithymocyte globulin (rATG) is approved for the treatment of acute rejection following kidney transplantation and is routinely administered as a series of 5-7 consecutive daily doses via central intravenous catheter.Single large-doses of rATG have been shown to have equivalent safety and efficacy profile compared to the standard daily protocol when used as an induction agent but there are no reported experiences of its use for rejection treatment. Plan to study a single-dose rATG infusion compared to standard rATG administration including correlation to length of hospital stay and hospital costs.
Chronic Allograft Nephropathy (CAN)/Interstitial fibrosis and Tubular Atrophy (IFTA) is responsible for most kidney transplant failures. CAN/IFTA on a 3 month kidney biopsy strongly predicts graft survival long term. CAN/IFTA remains a vexing problem for clinicians because current monitoring tools, namely the serum creatinine concentration, are not sensitive to early changes in glomerular filtration rate (GFR) or to histologic damage. Despite advances in prevention of acute rejection (AR), it is still a significant and potentially devastating complication of solid organ transplantation. One strategy to reduce the risk of rejection is to perform kidney biopsies to detect subclinical acute rejection (SCAR) and treat to prevent progression to rejection. There is evidence that treating SCAR can prevent further immune mediated injury to the kidney, a precursor to CAN/IFTA. Kidney biopsies provide better information but are limited due to safety concerns, patient preference and cost issues. Better, early and less invasive markers of CAN/IFTA will allow early intervention as well as improved graft and better patient outcomes. This study seeks to validate specific proteogenomic biomarker panels for AR and CAN/IFTA in a prospective blood, urine and kidney tissue monitoring study of kidney transplant recipients who will be scheduled for standard of care biopsies.
The purpose of the study is to determine the safety and efficacy of two dosing regimens of daclizumab in simultaneous kidney/pancreas transplant recipients.
The purpose of this study is to determine if everolimus combined with reduced exposure CNI (TAC) is efficacious and safe and will support corticosteroid elimination compared to a standard exposure CNI (TAC) + MMF + steroid regimen after paediatric kidney transplantation. An additional purpose of the study is to assess the effect of the combination of EVR and reduced exposure CNI (TAC) on renal function. This study is part of the requirements of the Paediatric Investigational Plan approved by Paediatric Committee at the European Medicines Agency (PDCO/EMA) on September 10, 2010, and is intended to support the indication of everolimus in the prevention of acute rejection in paediatric recipients of a renal transplant.
Contrast-enhanced ultrasound (CEUS) is a promising non-invasive imaging tool that may aid in the early detection of kidney transplant complications, such as delayed graft function (DGF) and acute allograft rejection. The technique uses an intravenous contrast agent to improve organ visualization with standard duplex ultrasound equipment. A number of FDA-approved agents, including Optison, Definity and Lumason are widely used to improve visualization in technically limited echocardiograms, and Lumason was recently approved for contrast-enhanced ultrasound of the liver. The specific aims of this study are to: develop, implement and refine a contrast-enhanced ultrasound protocol using Lumason to safely maximize kidney allograft visualization; determine associations between contrast-enhanced ultrasound and patterns of allograft injury consistent with delayed graft function; and to compare contrast-enhanced ultrasound with duplex ultrasound for differentiating acute rejection from other causes of dysfunction.
The goal of this observational study is to determine phenotypic, transcriptional, and epigenetic underpinnings of renal allograft rejection in renal transplant rejection. The main questions it aims to answer are: * To determine the phenotype, frequency, location, and the inter-cellular interactions between the cells that constitute intra-graft inflammatory infiltrate in acute ejection. * To determine the phenotype, frequency, location, and the inter-cellular interactions between the cells that constitute intra-graft inflammatory infiltrate in recurrent/recalcitrant rejection vs. rejection that resolves with therapy. * To generate a scRNA sequencing (scRNAseq) map of the intra-graft immune cells and the renal parenchymal cells and compare the transcriptional and epigenetic changes within these cells in recurrent/recalcitrant rejection vs. rejection that resolves with therapy. * To determine phenotypic changes associated with chronic rejection. Participants will be asked to provide the following research specimens: * Renal biopsy specimens at the following timepoints: day of transplantation (pre-implantation and post-perfusion); routine protocol biopsies at 3 months and 12 months; and clinically indicated for-cause biopsies at any timepoint from time-0 to 1-yr post-transplantation. The 1st research core will be used for routine histopathological examination and left over tissue from this core will be used for deep phenotyping using multiparameter immunophenotyping, and digital spatial profiling. The second research core will be used for extraction of cells and nuclei for scRNAseq and snATACseq. * Blood samples will be processed to obtain plasma (for cytokine, chemokine and DSA measurements) and PBMC (for deep phenotyping and molecular analyses). For each collection timepoint, up to 75 mL (about 5 tablespoons) will be collected. * Prospective clinical data and outcomes will be collected from participant medical records. * Follow-Up Period: For-cause biopsies from 1-yr to 5-yr post-transplantation (by the transplant nephrologist): no additional cores will be obtained for research from these biopsies. The left-over tissue from the clinically indicated biopsy cores will be analyzed by deep phenotyping and digital spatial profiling. Blood samples will be processed to obtain plasma (for cytokine, chemokine and DSA measurements) and PBMC (for deep phenotyping and molecular analyses).
The objective of the proposed study is to assess whether a blood biomarker can be used to monitor the response to rejection treatment in pediatric kidney transplant recipients with biopsy-proven acute cellular or antibody mediated rejection. The study hypothesizes that blood gene expression profile and donor-derived cell-free DNA biomarkers (omnigraf) can be used to predict acute rejection and monitor its response to treatment.
The purpose of this study is to evaluate the benefits and risks of conversion of existing adolescent kidney allograft recipients aged 12 to less than 18 years of age to a belatacept-based immunosuppressive regimen as compared to continuation of a calcineurin inhibitor-based regimen and their adherence to immunosuppressive medications.
Delayed/slow graft function is the most common complication after kidney transplantation with an incidence over 20% and is the result of ischemia-reperfusion injury. The increased use of marginal kidney grafts to palliate the organ shortage is leading to a continued rise in the incidence of delayed/slow graft function. Delayed/slow graft function, however, is associated with an increased risk of acute rejection and graft failure. There are currently no clinically accepted biomarkers and no specific treatments for delayed/slow graft function. Regulatory T cells are protective in ischemia-reperfusion injury and rejection by suppressing pathologic immune responses. We hypothesize that the pre-transplant measurement of highly suppressive regulatory T cell is an accurate biomarker for delayed/slow graft function and its immunologic consequences. Ultimately, marginal kidney graft allocation could be directed to regulatory T cell-robust recipients and regulatory T cell-directed therapies could decrease marginal kidney graft discards without increasing delayed/slow graft function or impacting outcomes.
The purpose of this study is to evaluate the efficacy, safety and tolerability of dual costimulation blockade with VIB4920 in combination of belatacept in adult male or female recipients of a renal allograft from a deceased, living unrelated or human leukocyte antigen (HLA) non-identical living related donor.
The objective of this study is to determine whether cell-free DNA (cf-DNA) measurement can be used as a biomarker for successful treatment of an acute rejection (AR) episode after kidney transplantation. A fall in donor cf-DNA level may be a biomarker for successful AR treatment. The goal is to do an exploratory study to determine, in recipients with biopsy-proven AR, whether persistence or elevated levels of donor cf-DNA are associated with ongoing inflammation at the time of exit biopsy; and whether fall in donor cf-DNA level is associated with successful AR treatment. Measurement of cf-DNA has recently been started for kidney transplant recipients. There will be two groups of patients eligible for this study: 1. those who have had sequential measurement of cf-DNA prior to graft dysfunction leading to a biopsy, and 2. those who have not had previous measurement of cf-DNA
There is a need to develop blood and/or urine tests that will help to detect early signs of rejection in people who have had kidney transplant. Researchers will examine blood, urine, and tissue samples and try to identify genetic markers for certain conditions like rejection, response to therapy, and scarring of the kidney. By studying gene patterns, researchers hope to be able to diagnose these conditions earlier and improve kidney survival.
This study will evaluate the efficacy and safety of LCP-Tacro (tacrolimus) Tablets administered once-a-day compared to Prograf (tacrolimus) Capsules twice-a-day as immunosuppression for the prevention of organ rejection in newly transplanted adult kidney transplant recipients. Patients will be treated for a 12 month study period followed by a 12 month, blinded extension treatment period To show that LCP-Tacro Tablets are clinically similar to Prograf Capsules in the prevention of acute rejection.
Hyperparathyroidism (HPT) is common in people with a kidney transplant. Patients with HPT often have high parathyroid hormone (PTH) levels and may have large parathyroid glands in the neck. Patients with HPT can develop bone disease (osteodystrophy). This bone disease can cause bone pain, fractures, and poor formation of red blood cells. Other problems from HPT may include increases in blood levels of calcium (hypercalcemia) and low blood levels of phosphorus (hypophosphatemia). The high calcium levels may cause calcium to deposit in body tissues. Calcium deposits can cause arthritis (joint pain and swelling), muscle inflammation, itching, gangrene (death of soft tissue), heart and lung problems or kidney transplant dysfunction (worsening of kidney transplant function). The purpose of this study is to evaluate the effects of cinacalcet (Sensipar/Mimpara) on high calcium levels in the blood in patients with HPT after a kidney transplant.
The hypothesis of this study is that lymphocyte depletion by Campath-1H and rituximab will obviate the need for long-term calcineurin inhibitors in renal transplantation. Most successful strategies to date have relied on the use of either tacrolimus or cyclosporine for an indefinite period of time. However, the advantage of a long term, calcineurin inhibitor free regimen may include improved renal allograft function, a lower incidence of hypertension, diabetes, and less drug related side effects. This is a non-randomized open-label pilot trial in 30 adult renal transplant patients. Subjects will receive 2 doses of Campath-1H (30mg given on Day 0 and Day 1) and a single dose of Rituximab (375mg/m2) on Day 0, given intra-operative. Subjects will take maintenance doses of prednisone and enteric coated mycophenolate sodium (Myfortic™). Subject will also be given cyclosporine (Neoral®) therapy for approximately 2 weeks (10-20 days).
The primary objective of the study is to evaluate that 3 immunosuppressant regimens will have comparable kidney function results in kidney transplant patients.
To investigate the progression of the immunological response in living-donor kidney transplant recipients treated with a standard immunosuppressive regimen. Clinical, immunological, and health-economic data collected during this Reference Group Trial will be used to corroborate historical renal transplantation statistics and generate reference ranges for future clinical studies that will test immunoregulatory cell therapy as an adjunct immunosuppressive treatment in renal transplantation.
This study was designed to assess the evolution of renal function and to collect efficacy, safety, and tolerability data of everolimus in co-exposure with reduced CNI in paediatric liver transplant recipients.
The objective of this study is to evaluate the safety and efficacy of conversion from tacrolimus to sirolimus early after kidney transplantation in patients with delayed graft function (DGF)and slow graft function (SGF) in improving graft function and delaying chronic allograft nephropathy. The investigators hypothesize that conversion from tacrolimus to sirolimus in renal transplant recipients with DGF/SGF in early months after surgery will improve graft function and decrease the progression of graft fibrosis.