View clinical trials related to Chronic Kidney Disease stage3.
Filter by:Sodium-glucose cotransporter 2 (SGLT2) inhibitors are the newest class of orally drugs for the treatment of type 2 diabetes. These drugs decrease plasma glucose levels by inhibiting its reabsorption in the proximal tubules of the kidney. They have an attractive clinical efficacy profile, including glycemic control, weight loss, and lowering blood pressure. SGLT2 inhibitors have also been reported to reduce the risk of severe adverse cardiovascular events and progression of diabetic kidney disease. SGLT2 is expressed in the kidney, while its expression in other tissues is most likely negligible or absent. SGLT2 dilates the supply vessels to the glomerulus thereby promoting hyperfiltration. In animal models SGLT2 has been shown to reduce the excretion of macular dense adenosine, which may contribute to the excessive glomerular filtration rate as a result of vasodilation of the afferent vessels. Adenosine, unlike other vascular regions, increases the tension in the walls of the vessels supplying blood to the glomerulus. The role of adenosine in humans in this regard is poorly defined, although treatment with empagliflozin has recently been shown to increase the urinary excretion of adenosine in type 1 diabetic patients with controlled hyperglycemia. Our working hypothesis is that the SGLT2 inhibitor empagliflozin may reduce the hyperfiltration of residual nephrons by increasing adenosine production, which affects the contraction of the afferent arterioles, and this effect occurs in various types of nephropathy. In addition, it has been described that SGLT2 inhibitors may affect individual parameters of calcium-phosphate metabolism, leading to changes in bone mineral density and an increase in bone resorption marker SGLT2 inhibitors also stimulate renal, proximal phosphate reabsorption. Increased phosphate reabsorption triggers the secretion of fibroblast growth factor 23 (FGF23). FGF23 inhibits the production of 1,25-dihydroxyvitamin D (the biologically active form of vitamin D), which reduces the absorption of calcium from the gastrointestinal tract, thereby stimulating the secretion of parathyroid hormone (PTH). In the conducted studies, it was found that SGLT2 inhibitors increase the concentration of serum phosphorus, FGF23 in the plasma and PTH in the plasma, while lowering the level of 1,25-dihydroxyvitamin D.
Normal-protein and low-AGE through raw or rare proteins diet versus normal-protein and high-AGE diet in stage IIIa-b renal failure patients
Aim: By application of wearable devices and health management platform to build self-management model in CKD patients and analyze the cost of healthcare. Material and Methods: The investigators plan to recruit 60 CKD patients as trial subjects. The intervention group is composed of 30 participants, and the control group 30 participants. The intervention group received intervention with wearable devices and health management platform for 90 days. Patients record diet diary by a smartphone application, and their exercise-related data are collected by wearable devices. Then, all the collected information will be upload to health management platform. The investigators also create a LINE group to encourage exercise in the experimental group. The investigators compare the scores of self-management sheet and physical and laboratory examinations before and after the intervention. The investigators also analyze the cost of healthcare within 180 days.
A 12-week, prospective, multicenter, open-label pilot randomized controlled trial (RCT) will be carried out to determine the feasibility, acceptability and potential clinical efficacy of a newly developed mobile diet app among CKD populations at different stages in Malaysia. Participants will be randomly assigned into either (i) intervention group (mobile diet app) or (ii) control group (dietary counseling using conventional pamphlet).
The study aims to explore the ability of Oral activated charcoal to adsorb uremic toxins limiting the progression of chronic kidney disease and delaying the need for hemodialysis in patients with CKD stages III and IV. To compare its effect with the effect of dry seeds as absorbents of uremic toxins
RDN-CKD Study is a prospective, randomized (1:1, central randomization), double-blind (unblinded interventionalist and blinded study team at each center), sham controlled, multicenter feasibility study. The purpose of the RDN-CKD Study is to demonstrate that renal denervation (RDN) effectively reduces 24-h ambulatory BP in 80 patients with chronic kidney disease (CKD) stage 3a or 3b.
The evolution of chronic kidney disease (CKD) causes a systemic upheaval on the body and a deep fatigue is very often described by patients (50-70% of the patients) even before the start of dialysis (pre-dialysis). This fatigue has many origins, and one of them probably stems from a deterioration of neuromuscular abilities. Very few studies have examined the physiological aspects of neuromuscular fatigue in pre-dialysis patients, and shedding light on potential deficits at this level would allow safe and efficient implementation of adapted physical activity programs. Our study aims to characterize the pathophysiology of neuromuscular capabilities in chronic advanced renal failure in pre-dialysis patients.
Among Veterans, the prevalence of chronic kidney disease (CKD) is reported to be as high as 47.3% and a third higher than the general population. Muscle wasting and dysfunction have been identified as primary consequences of CKD. Disease-induced reductions in lean tissue adversely affect muscle fatigability. Consequently, muscle fatigability may serve as a potential limiting factor that contributes to activity limitations. However, there is a lack of evidence informing our understanding of muscle fatigability in patients with CKD. Dialysis treatment is a major factor contributing to the high financial costs of CKD care. Thus, in addition to potential health and quality of life benefits, treatments capable of maintaining kidney function or delaying the onset of dialysis treatment would provide substantial socio-economic benefit. Both lean body mass and muscle fatigability may be improved through strength training. Eccentric-overload (i.e. muscle lengthening) progressive resistance exercise (PRE) has been shown to be safe and effective for a variety of chronic conditions. Eccentric PRE using portable flywheel technology may provide a clinically viable treatment option to combat muscle impairments in CKD given the cost effectiveness and minimal space requirements for this mode of exercise. The purpose of this study is to assess feasibility of the eccentric-overload PRE regimen for Veterans with CKD stage 3 & 4 predialysis using a prospective single-arm pre-test post-test intervention design. The primary aim of the project is to determine the effects of eccentric-overload PRE on muscle fatigability in Veterans with CKD Stages 3 & 4 predialysis. Feasibility of the regimen will be determined by the time needed to complete the 4-exercise regimen and the perceived exertion levels reported by the study participants.
The regimen using grazoprevir plus elbasvir treatment is promising in Japan, because it may safely be used for the elderly patients with renal dysfunction. Grazoprevir and elbasvir are metabolized in the liver and do not require dose-adjustment for patients with renal dysfunction. However, no data related to efficacy and safety of the grazoprevir plus elbasvir treatment for Japanese elderly patients with renal dysfunction (eGFR<60 mL/min/1.73m2) have been reported. Therefore, physicians are at a loss whether or not to treat the patients with renal dysfunction due to no evidence. The aim of this study is to investigate the improvement of serum endostatin level of Japanese patients with CKD stage 3 after grazoprevir (NS3/4A protease inhibitor) plus elbasvir (NS5A replication complex inhibitor) treatment by a prospective, multicenter cohort study.
This study will be a prospective, clinical pilot study in CKD patients to show whether Empagliflozin in addition to ACEi treatment significantly increases Ang 1-7 levels compared to ACEi treatment alone. Null and alternative hypotheses: H0: Empagliflozin in addition to ACEi treatment does not increase Ang 1-7 levels more than ACEi treatment alone. H1: Empagliflozin in addition to ACEi treatment significantly increases Ang 1-7 levels compared to ACEi treatment alone Methodology: Two groups of 24 chronic kidney disease (CKD) patients, respectively, with and without type 2 diabetes will be randomized into the study medication or placebo group. The number of patients per treatment arms is n = 12. Included and consented patients will be subjected to an initial 2-week run-in period for conversion of current RAS blocking medications to ACEi therapy with enalapril or ramipril and respective dose titration to 10 mg enalapril 2 x daily and 10 mg ramipril 1 x daily. Additional antihypertensive medication will be standardized as feasible, with the primary goal of keeping blood pressure as recommended by KDIGO. Following the 2-week run-in phase, all study patients will be subjected to blood collection including the first RAS quantification (RAS Fingerprint) and assessment of HDL composition, as well as urinary analysis and bioimpedance fluid status assessment (BCM measurement). Subsequently, patients will be randomized to either receive empagliflozin (at a dose of 10 mg daily) or placebo. Subsequently, biweekly study visits including electrolyte and glucose (plasma and urine) monitoring as well as BCM measurement will take place. After 12 weeks of study medication intake, a concluding study visit will be scheduled for final RAS quantification (RAS Fingerprint) and HDL analyses as well as final blood and urinary analysis and BCM measurement. Initially, blood and urine will be collected at the clinical visit as part of the routine blood obtainment (no additional effort on patients). From these routine measurements we will be able to extract information regarding the patient's current CKD stage as well as other relevant laboratory parameters (e.g. HbA1c, UACR, etc.). Furthermore, we will document the patient's current medication and significant comorbidities. Primary analysis variable/endpoint: The difference of Ang 1-7 increase from baseline between a 3-month treatment with empagliflozin on top of ACEi treatment compared to ACEi treatment alone Most important secondary analysis variables/endpoints: 1. Simultaneous quantitative changes of multiple RAS effector angiotensin levels determined by mass-spectrometry 2. Recurrence of Ang II levels determined by mass-spectrometry 3. HDL parameters (protein composition of HDL) 4. Renal parameters (albuminuria reduction measured by urinary albumin-creatinine ratio (UACR), renal function (estimated glomerular filtration rate (GFR), serum-creatinine) 5. Urinary electrolyte levels 6. Urinary glucose levels 7. Urinary RAS metabolites (angiotensinogen, ACE and ACE2 levels, ACE2 activity) 8. Blood pressure determined by ambulatory blood pressure measurements 9. Body volume determined by bioimpedance fluid status assessment (BCM measurement) 10. OCR and ECAR in PBMCs determined by Seahorse Flux Analyzer 11. Assessment of reduction of salt sensitivity by using salt sensitivity test with empagliflozin