View clinical trials related to Chronic Kidney Diseases.
Filter by:Introduction: Chronic Renal Failure affects a large part of the world population, being characterized by irreversible renal tissue damage, resulting in systemic disturbances that negatively affect the patient's life. The most commonly used treatment is hemodialysis, which also has certain deleterious effects, so it is necessary to look for therapies that minimize these complications. Objective: To analyze the influence of physical exercise during hemodialysis on the autonomic heart rate modulation, quality of life and physical functional ability in individuals with Chronic Renal Failure at Hospital das Clínicas Gaspar Vianna. Method: The intervention consists on performing aerobic exercise during hemodialysis. For the evaluation will be applied the KDQOL-SF ™ 1.3 questionnaire, for quality of life; 6-Minute Walk Test for physical functional ability; and cardiofrequencimeter for the autonomic heart rate modulation. Data will be stored in Microsoft Excel® spreadsheets, it will also be used for making graphs and tables. Statistical analysis will be performed in the Bioestat 5.3® program and the choice of tests will depend on the distribution and homogeneity of the data.
Background: Patient with stage 3 or 4 chronic kidney disease (CKD) usually has normal level of serum phosphate, due to increased serum fibroblast growth factor-23 (FGF23) level that resulted in increased phosphate urine excretion. On the other hand, serum FGF23 elevation was related to CKD progression, vascular calcification, cardiomegaly, and mortality. This double blind, randomized controlled trial study was conducted to evaluate effectiveness and safety of calcium carbonate administration in stage 3 or 4 CKD patients with normophosphatemia. Hypothesis: Calcium carbonate administration is effective and safe in chronic kidney disease (CKD) with normophosphatemia.
The optimal management of mineral and bone disorders associated to chronic kidney disease (CKD-MBD) is a daily challenge for nephrologists. Its consequences may be immediate (biological abnormalities such as hypocalcemia, hyperphosphatemia, hyperparathyroidism, etc.) or delayed (fractures, renal osteodystrophy, vascular calcifications, increased morbi-mortality and growth retardation in the youngest patients). CKD-MBD is defined by the association of one or more of the following abnormalities: 1/ disturbances in calcium, phosphate, PTH or vitamin D metabolism, 2/ bone and growth abnormalities, and 3/ calcifications of vessels or soft tissues . Three main bone characteristics can be modified by CKD, namely turnover, mineralization and volume. They should therefore be carefully assessed to distinguish between the different sub-types of renal osteodystrophy, as defined in the 2006 K-DIGO guidelines on the TMV classification . The primary bone lesion in pediatric CKD, at least in pediatric patients reaching end-stage renal disease without any previous management, is the high-turnover/hyperparathyroidism, because of high circulating PTH levels with low 1-25 vitamin D levels. Conversely, low turnover (or adynamic bone) may be observed in dialysis children receiving too much calcium and/or vitamin D analogs. All these lesions are deleterious on the long-term, increasing both the risk of growth retardation, fractures and vascular calcifications . In order to better understand the complex pathophysiology of renal osteodystrophy, biomarkers of bone and phosphate/calcium metabolism may be used, but their interpretation may be challenging in the context of CKD. The gold standard remains bone biopsy at the iliac crest with histomorphometry, but it is rarely performed in Europe . The research team of this study has developed and validated a unique non-invasive technique to differentiate circulating human monocytes into mature and functional osteoclasts, using only 15 mL of total blood (instead of conventional techniques they used to use, with 200 to 250 mL of total blood). They propose to use this innovative tool in the specific setting of CKD. The current management of CKD-MBD consists mainly of correcting native vitamin D deficiency, decreasing phosphate levels (using nutritional management and phosphate-binders), and decreasing PTH levels (using active vitamin D, calcimimetics such as cinacalcet and etelcalcetide, and/or surgical parathyroidectomy) . Active vitamin D analogs and calcimimetics are cornerstone of this management. The first working hypothesis is the following: when CKD progresses and glomerular filtration rate (GFR) decreases, 1-25-D is able to inhibit osteoclastic differentiation, however to a lesser extent to what is observed in healthy controls with normal renal function. The second working hypothesis is therefore the following: etecalcetide could be an inhibitor of osteoclastic resorption and a stimulator of osteoblastogenesis. When CKD worsens and GFR decreases, etelcalcetide inhibits osteoclastic differentiation, however to a lesser extent to what is observed in subjects with normal renal function. Aims In Vitro 1. Effects of 1-25-D and etecalcetide on human osteoclastogenesis and osteoclastic resorption (in cells obtained from CKD patients at different stages of CKD) 2. Effects of 1-25-D and etecalcetide on murine osteoblastogenesis and mineralization
Good communication among patients, their families and loved ones, and their medical care providers is important when figuring out how to treat chronic diseases like kidney disease. A lot of people may not know all of their choices for how to treat kidney disease, and this can lead to rushed decisions or even a sense that there weren't any choices to make. In this study, the investigators are trying to find out if a decision-aid program on a computer can help people with kidney disease have more confidence in their decisions and have better agreement about their decisions with their families and loved ones. The DART study will be conducted at four sites in different areas of the country: Boston, Massachusetts; Portland, Maine; Chicago, Illinois; and San Diego, California. The study will enroll a total of 400 people with kidney disease at these four sites.
This project will develop and test a model intervention for Advance Care Planning (ACP) for patients with advanced chronic kidney disease (CKD) cared for in nephrology clinics that have the capacity to consult with or refer to palliative care. Specifically, we will compare the effectiveness of having a trained ACP coach meet in person with patients to discuss their goals and preferences vs. providing patients with a packet of material to review on their own and then discuss with their nephrologist at their initiation. Hypothesis: In patients aged 55 or older with stage 3-5 Chronic Kidney Disease cared for in a CKD outpatient clinic, an advance care planning process that involves in-person meetings with a trained ACP coach will be more effective than providing patients with printed educational materials alone.
Many studies have been conducted to identify therapeutic strategies to modulate inflammation and oxidative stress, complications that contribute to the increased morbidity and cardiovascular mortality in patients with chronic kidney disease (CKD). Among several non-pharmacological strategies, the use of bioactive compounds has emerged as a potential approach to reduce these complications in CKD patients. In this context, turmeric/curcumin may have positive consequences in terms of cardiovascular and nephroprotection because of its antibacterial, antiviral, anti-inflammatory and anti-oxidative effects. The aim of this study is the role of curcumin as a nutritional strategy to reduce cardiovascular risk factors as inflammation and oxidative stress in CKD patients.
This study examines whether a safety-net primary care CKD registry directed at the entire primary care team can enhance the delivery of guideline concordant CKD care, including BP control, ACEi/ARB use and albuminuria quantification.
This study will test the effectiveness of mailed, smartphone urinalysis kits to improve albuminuria screening compliance and detection of albuminuria.
The investigators are studying the feasibility, acceptability, and outcomes of an intervention called Enhanced Dialysis Education (EDU) Intervention. CKD-EDU is a palliative care-based dialysis decision-making intervention that involves educating patients and caregivers about dialysis and engaging them in shared decision-making. Half of the enrolled patients will receive CKD-EDU and the other half will receive Usual Care.
Arterial calcifications (AC) are constant lesions in patients with Chronic Kidney Diseases (CKD). Renal transplantation would reduce their progression compared to dialysis. AC pathophysiology is a complex and finely regulated process that involves many local and systemic factors, both pro- and anti-calcification. The progression of the CKD is accompanied by an increase in phosphate levels as the renal excretion capacity of inorganic phosphates (Pi) decreases while their digestive absorption remains unchanged. Hyperphosphatremia is a well-identified calcifying factor contributing to ACs in the CKD. On the other hand, pyrophosphate (PPi) is an anti-calcifying factor from the hydrolysis of extracellular ATP by ectonucleotidases. While there are many factors that may contribute to a protective effect against AC progression of renal transplantation, no study has been yet analysed the role of PPi. Plasma concentration of PPi is decreased in dialysis patients compared to non-kidney failure patients. The main objective of this monocentric, prospective and interventional pilot study will be to compare the progression of CA and [PPi]pl between a group of renal transplant patients over the past 24 months and a group of dialysis patients over the same period of time. The secondary objectives will be to compare the progression of ACs and the ratio[PPi]pl/[Pi]pl between transplanted and dialysis patients. Transplanted patients will be included within 24 (±3) months of transplant. Dialysis patients will be included at 24 (±3) months of the CT scan performed during the pre-transplant check-up. At inclusion, all patients will benefit from a CT scan without injection and a plasma dose of PPi, Pi and other factors involved in controlling calcification.