View clinical trials related to Renal Insufficiency, Chronic.
Filter by:This is a multicenter, double-blind, randomized, placebo-controlled study to evaluate the safety and efficacy of oral difelikefalin administered as a 1 mg tablet once daily compared to placebo in reducing the intensity of itch in advanced chronic kidney disease (CKD) patients with moderate-to-severe pruritus. This study is comprised of an Efficacy Assessment Phase and a Long-term Extension Phase. The Efficacy Assessment Phase includes a double-blind 12-week Treatment Period (Treatment Period 1), and the Long-term Extension Phase includes a double-blind Treatment Period (Treatment Period 2) of up to 52 weeks.
Anemia is associated with cardiovascular disease. Iron deficiency is usually induced in chronic kidney disease (CKD). In clinical studies, an inverse association between serum levels of iron and fibroblast growth factor 23 (FGF23), a cardiovascular risk factor, has been demonstrated. In addition, a number of the I.V. iron presentations mostly used to treat anemia show unwanted side effects related to phosphate alterations and increased FGF23. Objectives. The General Objective of this project is to evaluate, through in vivo and in vitro studies, the cardiovascular alterations related to the anemia-induced increase in FGF23 production; as well as the identification of possible molecular targets that may be useful in its prevention and/or palliation. Specific Objectives are: 1) To determine in a population with anemia (due to iron deficiency), with and without CKD, an association between the parameters related to iron metabolism, FGF23 and markers of cardiovascular damage. 2) To evaluate in vivo, in a murine experimental model of anemia, with and without CKD, the effects of the modulation (inhibition) of triggers of iron deficiency (hepcidin) and of the increase in FGF23 (HF1α), on markers of cardiovascular damage. 3) To compare in vivo, in an experimental model of anemia with and without CKD, the effect of different I.V. iron presentations (ferrous sulphate, ferric carboxymaltose and ferric citrate) on FGF23 levels and their cardiovascular impact. 4) To evaluate in vitro, in cardiomyocytes cultures, in the presence of iron deficiency, the direct effect of FGF23 on the induction of cardiac damage. 5) To evaluate in vitro, in osteoblasts cultures, the direct effect of ferrous sulphate, ferric carboxymaltose, ferric citrate and hepcidin. Methodology. The levels of intact and C-terminal FGF23 (FGF23i and FGF23c), the differential expression profile of plasma miRNAS and of proteomic, markers of cardiovascular disease, mineral metabolism, inflammation and oxidative stress and intracellular signalling pathways will be evaluated.
Studies examining musculoskeletal strength, respiratory function and muscle strength, physical activity level and exercise capacity in children with CKD and evaluating the relationships between these parameters have not been found both in the world and in our country. In this study, it is aimed to evaluate skeletal and respiratory muscle strength, respiratory parameters and exercise capacity in children with CKD primarily and compare them with healthy children. Secondly, it is to examine the relationship between endothelial function, arterial stiffness, sarcopenia and physical activity in children with CKD. It is thought that the results to be obtained with the study will support the literature with the prediction that rehabilitation programs for patients in all stages of CKD will be structured and in this way will contribute positively to the management and prognosis of the disease. Hypotheses H0: There is no difference between children with chronic kidney disease and healthy children in terms of skeletal and respiratory muscle strength, respiratory parameters and exercise capacity. H1: There is a difference between children with chronic kidney disease and healthy children in terms of skeletal and respiratory muscle strength, parameters and exercise capacity. H0: There is no relationship between endothelial function, arterial stiffness, sarcopenia and physical activity in children with chronic kidney disease. H1: There is a relationship between endothelial function, arterial stiffness, sarcopenia and physical activity in children with chronic kidney disease.
The current role of the rotational atherectomy is for non-dilatable coronary lesions and for severely calcified lesions that may interfere with optimal stent expansion. Severely calcified coronary lesions are associated with worse outcomes. In this regard, chronic kidney disease is associated with severely calcified coronary arteries. Some evidence suggests that elective rotational atherectomy used by experienced operators can be safe and effective, minimizing time and complications for patients with heavily calcified lesions. However, there is no direct randomized comparison between rotational atherectomy and angioplasty alone in the setting of chronic renal failure and with intravascular ultrasound assessment for detecting severely calcified coronary arteries.
Chronic kidney disease (CKD) has become a global public health priority over the past few decades, affecting 10-12% of the adult population and has received increasing attention. Sarcopenia describes a generalizes degenerative skeletal muscle disorder involving the loss of muscle mass, muscle function and/or physical performance. Indeed, Sarcopenia is a condition with many causes and it can be considered "primary sarcopenia" when no other cause is evident but ageing. While in the clinical practice, it also occurs in patients with chronic diseases, such as chronic kidney disease, which can be considered "secondary sarcopenia". Notably, the occurrence of sarcopenia in CKD patients is not only related with ageing, the accumulation of uremic toxins, inflammation, insulin resistance, malnutrition and oxidative stress also contribute to the muscle depletion. Moreover, sarcopenia increased risk of falls and fractures, impaired ability to perform activities of daily living, disabilities, loss of independence and increased risk of death. Hence, it is of great significance to prevent the occurrence and development of sarcopenia in patients with CKD. The purposes of this project were to investigate the prevalence of sarcopenia, further explore the risk factors for sarcopenia and detect the relationship between sarcopenia and outcomes in CKD patients.
This is a pilot, crossover trial in which the investigator will determine if retiming of one anti-hypertensive medication from morning to evening can effectuate normal blood pressure dipping patterns in children and adolescents with chronic kidney disease.
The purpose of this study is to evaluate the efficacy of plant-protein diets for 12 weeks in patients with advanced chronic kidney disease.
This is an observational study in people with chronic kidney disease (CKD) and type 2 diabetes (T2D) who will be receiving finerenone. Kidneys filter extra water and waste out of the blood and make urine. CKD is a long-term, progressive, decrease in the kidneys' ability to filter the blood properly. In people with T2D, the body does not make enough of a hormone called insulin, or does not use insulin well enough, resulting in high blood sugar levels that can cause damage to the kidneys. As a result, CKD can occur as a complication of T2D. Finerenone works by blocking certain proteins, called mineralocorticoid receptors. An increased stimulation of these proteins is thought to damage the kidneys and the heart. By lowering their stimulation, finerenone reduces the risk of kidney disease progressively getting worse. Finerenone is available and approved for doctors to prescribe to people with CKD and T2D. Since it has only recently become available for these patients, there is a need for more information about the use of finerenone in the real-world setting. The main purpose of the study is to learn more about treatment patterns in people with CKD and T2D who just started or will start finerenone treatment as decided and prescribed by their doctor as part of their routine medical care. To answer this question, the researchers will collect data on: - Clinical characteristics (e.g., history of CKD and T2D, blood pressure, heart health) of the participants - Reasons for starting finerenone - Reasons for stopping finerenone early - How long participants have been taking finerenone (planned by their doctor compared to actual time it was taken) - Dosing of finerenone - Other medications used while taking finerenone The researchers will also collect data on medical problems (called adverse events) that the participants may have during the study. All adverse events are collected, even if they might not be related to the study treatment. Hyperkalemia, a medical term used to describe a potassium level in the blood that is higher than normal, is of special interest when finerenone is combined with some medications commonly taken to control blood pressure. Researchers want to know how often higher potassium levels occur, and when it leads to: - Stopping finerenone treatment too early - Dialysis (a medical procedure to filter the blood of extra water and waste) - Care in a hospital All data will come from medical records or from interviews study doctors will have with the participants during visits that take place during routine medical care. Participants in the US will be invited to provide voluntary blood and urine samples that could be analyzed later to better understand possible changes in protein or nucleic acid levels over time. Each participant will be in the study for 12 months. This time participating in the study may be shorter if their finerenone treatment is stopped early or the study comes to an end as planned in September 2027.
This is an open-label, randomised study in participants with chronic kidney disease (CKD) treated for hyperkalaemia (HK) whilst in hospital. The study will compare SZC to standard of care (SoC) with the goal of determining: - If continued use of SZC maintains normokalaemia (NK) better than SoC after participant discharge from the hospital. - If continued use of SZC after discharge will reduce HK related healthcare resource utilisation compared to SoC.
This is a multi-center, open label, cross-over clinical study. A total of 15 subjects will be enrolled to use the IDA for every peritoneal dialysis exchange for 14 days. To participate in the study, the subjects must have current CKD5 and have been treated with PD for at least 3 months. The subjects will undergo a single peritoneal dialysis exchange procedure at the PD clinic, under supervision of the medical staff and instructed about its operation. Further exchanges will be performed by the subjects themselves at home. The study includes three periods: First period (Observational): 14-day Observational Period. Eligible subjects who sign informed consent will continue with their regular CAPD treatment while performing measurement and recording of dialysate in/out time. Second period (Interventional): 14-day interventional period, where subjects will perform dialysis exchanges using the IDA according to the below visit schedule. Third period (Follow up): 14-day follow up period, during which the study staff will call the subject once weekly to inquire about device-related SAEs and any changes to concomitant medications.