View clinical trials related to Chronic Kidney Diseases.
Filter by:It has been shown that excretion of sodium and water through the skin in the form of sweat represents a regulatory mechanism of electrolyte- and fluid balance. Since patients with chronic kidney disease (CKD) exhibit increased skin sodium content, we investigated the feasibility of sweat testing as a novel experimental tool to a more complete assessment of fluid- and sodium homeostasis. In this cross-sectional feasibility study, we applied pilocarpine iontophoresis to induce sweat testing in 58 patients across various stages of CKD including patients after kidney transplantation as well as a healthy control cohort (n=6) to investigate possible effects of CKD and transplantation status on sweat rate and sodium concentration. Due to non-linear relationships, we modeled our data using polynomial regression. Decline of kidney function showed a significant association with lower sweat rates: adj R²= 0.2278, F(2, 61) = 10.29, p = 0.000141. Sweat sodium concentrations were increased in moderate CKD, however this effect was lost in end stage renal disease: adj R² = 0.3701, F(4, 59) = 10.26, p = 2.261e-06. We observed higher sweat weight in males compared to females. Diagnostic sweat analysis represents an innovative and promising noninvasive option for more thorough investigation of sodium- and fluid homeostasis in CKD patients. Lower sweat rates and higher sweat sodium concentrations represent a unique feature of CKD patients with potential therapeutic implications.
The goal of this clinical trial is to exploring the changes in 24-hour urinary protein and renal function in obese patients with kidney disease after the application of sodium glucose cotransporter 2 inhibitors (SGLT2i) and glucagon like peptide-1 receptor agonists (GLP-1RA). Eligible patients were randomly and non-blindly allocated to four groups in a 1:1:1:1 ratio.The first group is the optimized treatment group, and patients in this group maintain the maximum dose/maximum tolerated dose of RAS blocker therapy. The second group is the optimized treatment + SGLT2i group. Participants in this group are titrated to the target dose (10 mg qd) in combination with dapagliflozin on the basis of optimized treatment. The third group is the optimized treatment + GLP-1RA group. Participants in this group will be titrated to the target dose (1mg qw) in combination with semaglutide on the basis of optimized treatment. The last group is the optimized treatment + SGLT2i + GLP-1RA treatment group, that is, based on the optimized treatment, combined with dapagliflozin titrated to the target dose (10 mg qd) and semaglutide titrated to the target dose (1 mg qw).
The purpose of this study is to determine if an educational program emphasizing a whole food plant based diet favorably impacts blood pressure while not significantly increasing blood potassium levels, by comparing a group of patients receiving the educational program with a control group of patients receiving no specific education.
This study investigates the association between post-reperfusion (neohepatic) ALBI scores and post-LT renal outcomes in living-donor LT (LDLT) recipients.
The BRACKETS pilot study is a multicentre, prospective, randomized controlled trial of prophylactic preoperative tranexamic acid (TXA) versus placebo and, using a partial factorial design, of prophylactic preoperative desmopressin versus placebo.
The goal of this study is to test the feasibility study of an internet based education and support program for patients awaiting kidney transplantation. The study is designed as a national pilot randomized controlled trial with a waitlist control group, to test the feasibility, acceptability, and potential effects of the intervention on patients' physical and mental health.
The aim of the Check@Home consortium is to set up a roadmap and infrastructure for a program to early detect atrial fibrillation and chronic kidney disease in the general population. This will be a population-based screening with a phased implementation and an iterative design in four regions in the Netherlands (Breda, Utrecht, Arnhem, Eindhoven). In total, a random sample of 160,000 people (aged 50-75 years) will be invited to participate in the study and another random sample of 160,000 people with the same characteristics will be included in the control group in which no screening will be offered. The overall screening program will consist of three phases: a home-based testing phase, diagnostic screening phase, and a treatment phase: - Phase 1: Subjects will be invited for a home-based screening that includes home-based testing; urine collection for detection of elevated albuminuria, and a heart rhythm measurement using a smartphone app for detection of atrial fibrillation. - Phase 2: Depending on the results on these home-based tests, subjects will be invited for further screening in a diagnostic screening facility. During this visit, physical data will be collected (height, weight, waist circumference, blood pressure, heart rhythm), blood will be drawn, and urine will be collected for the assessment of parameters that are indicative of a cardiovascular disease, chronic kidney disease, type 2 diabetes or their risk factors. Participants will receive a questionnaire that include questions on demographics, educational level, disease history, medication use, health literacy, and quality of life. - Phase 3: Based on the results of the diagnostic screening, participants may be referred to their general practitioner for appropriate treatment (lifestyle advice/medication) according to the prevailing guidelines. The primary study outcomes are: Overall effectiveness of population based screening on atrial fibrillation and chronic kidney disease in subjects aged 50-75 years, based on: - Participation rate of different screening strategies and phases; - Yield of the screening (number of subjects with (newly) diagnosed disease and risk factors); - Effectiveness of the atrial fibrillation screening, compared with standard care, based on the incidence of ischemic stroke); - Effectiveness of the albuminuria screening, compared with standard care, based on the incidence of kidney failure events and Major Adverse Cardiovascular Events (MACE).
The overall objective of this study is to investigate Fabry-associated renal organ involvement by using a novel magnetic resonance imaging (MRI) approach, focusing on changes in renal oxygen levels by blood oxygenation-level dependent (BOLD) imaging. Furthermore, to correlate renal oxygenation to the phenotypic presentation of patients with Fabry-associated nephropathy regarding circulating and imaging-derived biomarkers of kidney inflammation, fibrosis and injury as compared with healthy age- and sex-matched controls. The study will achieve this by: 1) Using a non-invasive, contrast-free MRI protocol focusing on parameters of oxygenation, inflammation, fibrosis, and injury in the kidney. 2) Using an extensive, in-depth biomarker blood panel to investigate the pathological pathways associated with Fabry disease and Fabry-associated nephropathy.
Chronic kidney disease (CKD) is a major health problem, with steadily increasing incidence and prevalence and the threat of a true "epidemic". Converging evidence suggests a high prevalence of genetic etiology in rare kidney diseases and the list of new disease-causing genes is constantly updated. Recent advances in next-generation sequencing (NGS) technologies have prompted a significant improvement in the diagnosis of rare kidney diseases. Notwithstanding this, NGS generates high numbers of information that need to be properly analysed by the joint efforts of geneticists, nephrologists and bioinformatics in order to integrate clinical and genetic information in a personalized manner. In addition, in selected cases, the contribution of researchers proves essential for the development of experimental models of the disease to study and understand the pathogenic features and propose a personalized therapeutic approach. Such an innovative, integrated diagnostic paradigm is currently available in few centers all over the world and cannot be easily translated in daily clinical practice. The aim of the study is to set-up an integrated diagnostic algorithm to extend the newest personalized diagnostic and treatment strategies for rare kidney diseases to all patients in the Tuscany region, under 40 years of age with kidney disease. This algorithm will be based on a constant cross-talk between participating centers and a dedicated multidisciplinary team. Diagnostic and therapeutic performances will be validated at European level.
Chronic kidney disease (CKD) affects about 10% of the world population, with high morbidity and mortality. Genetic kidney diseases are increasingly recognized across all age groups and represent over 20% of all the causes of CKD. Accurate diagnosis allows necessary and unnecessary diagnostic procedures to be defined, avoids unnecessary treatments, improves prognosis prediction, identifies other family members for genetic counseling, and defines risks for living donor kidney transplantation. The research group coordinated by the Principal Investigator has recently developed an algorithm for the genetic diagnosis in pediatric and adult patients with CKD. The application of this personalized diagnostic algorithm on a local study led to a global diagnostic yield of 70%, suggesting that this strategy has the potential to substantially improve the diagnostic approach to patients with rare kidney disorders. The aim of this study is to validate and implement these results by extending its application in a multicentric study involving nephrology units that are referral centers for rare kidney diseases at national level.