View clinical trials related to Kidney Diseases.
Filter by:The aim of Patient-Centred Innovations for Persons With Multimorbidity (PACE in MM) study is to reorient the health care system from a single disease focus to a multimorbidity focus; centre on not only disease but also the patient in context; and realign the health care system from separate silos to coordinated collaborations in care. PACE in MM will propose multifaceted innovations in Chronic Disease Prevention and Management (CDPM) that will be grounded in current realities (i.e. Chronic Care Models including Self-Management Programs), that are linked to Primary Care (PC) reform efforts. The study will build on this firm foundation, will design and test promising innovations and will achieve transformation by creating structures to sustain relationships among researchers, decision-makers, practitioners, and patients. The Team will conduct inter-jurisdictional comparisons and is mainly a Quebec (QC) - Ontario (ON) collaboration with participation from 4 other provinces: British Columbia (BC); Manitoba (MB); Nova Scotia (NS); and New Brunswick (NB). The Team's objectives are: 1) to identify factors responsible for success or failure of current CDPM programs linked to the PC reform, by conducting a realist synthesis of their quantitative and qualitative evaluations; 2) to transform consenting CDPM programs identified in Objective 1, by aligning them to promising interventions on patient-centred care for multimorbidity patients, and to test these new innovations' in at least two jurisdictions and compare among jurisdictions; and 3) to foster the scaling-up of innovations informed by Objective 1 and tested/proven in Objective 2, and to conduct research on different approaches to scaling-up. This registration for Clinical Trials only pertains to Objective 2 of the study.
Maraviroc (MVC) is a type of HIV medicine called a CCR5 inhibitor. This study will evaluate the safety and tolerability of MVC in HIV-infected adults receiving a kidney transplant.
Hypertension is a leading risk factor for cardiovascular disease (CVD) globally, accounting for 25-35% of the population-attributable fraction. Sodium (salt) intake is a key determinant of blood pressure, and reducing sodium intake has emerged as an important target for population-based interventions to prevent CVD. However, there is considerable uncertainty about the optimal level of sodium intake that is associated with lowest CV risk, and whether optimal levels differ for different populations and individuals. International and national guidelines recommend low sodium intake (<2.3g/day, or lower) in all persons, and advocate a population-wide approach to reducing sodium. Most of the world's population (~95%) consume between 3 and 6g/day of sodium (mean intake 4.0g/day), which means that most people will require a major change to their diet, to achieve the guideline target (<2g/day). While there is convincing evidence that high sodium intake (>5g/day) is associated with an increased risk of CVD, compared to low or moderate intake, the evidence that low sodium intake (<2.0g/day) is associated with a lower risk of CVD than moderate intake (2.0-5g/day) is inconsistent and inconclusive. The investigators plan to conduct a Phase IIb clinical trial to evaluate the role of low sodium intake (versus moderate) on cardiovascular biomarkers.
The microcirculation is altered in acute kidney injury and chronic kidney disease. The microcirculation is poor in end-stage renal disease patients receiving hemodialysis. Kidney transplant can improve the life quality of these patients. However, surgical stress and inflammatory response may cause microcirculatory dysfunction and intestinal injury. Moreover, the transplanted kidney would suffer from the ischemia and reperfusion injury, and it may result in acute kidney injury. In ischemia and reperfusion injury animal model, dexmedetomidine has been proven to attenuate kidney and intestinal injury. In our previous study of surgical stress and pain stimulation rat model, we found that dexmedetomidine attenuate the intestinal microcirculatory dysfunction. In patients receiving coronary artery bypass graft surgery, dexmedetomidine increases urine output and decreases postoperative serum level of neutrophil gelatinase-associated lipocalin. This study aims to investigate whether perioperative dexmedetomidine infusion may attenuate microcirculatory dysfunction, kidney injury, and intestinal injury for patients undergoing kidney transplant.
This proposal will incorporate statistical models developed by the investigators to predict risk for acute kidney injury into our electronic medical record system, enabling an alert to notify providers of the risk status. Pediatric inpatients will be randomly assigned to be in the intervention group, for whom the notification will be implemented, or in the control group, who will receive usual care (no notification). The investigators believe the notification will increase appropriate screening for acute kidney injury and reduce the severity of acute kidney injury in the intervention group.
The incidence of the diagnosis of renal cell carcinoma has increased during the past two decades because of the detection of small renal tumours that occur incidentally because of increased use of CT-scanning (1,2). Postoperative renal insufficiency was a significant independent predictor of overall and cardiovascular specific survival (3). "Nephron-sparing" surgical techniques are now preferred for small tumor masses and laparoscopic intervention is replacing open surgery at centers that master this technique. This is an area of priority within the Regions of Zaeland and Southern Denmark. The primary endpoint is: The early plasma (5 days) [NT-proBNP] response predicts long-term total renal function and function of the remaining kidney. The second endpoint: Plasma [NT-proBNP] increases acutely after partial nephrectomy and the change reflects the renal mass reduction. Chronic blood pressure change is inversely related to plasma [BNP].
Three kidney diseases that affect both children and adults are minimal change disease (MCD), focal segmental glomerulosclerosis (FSGS) and membranous nephropathy (MN). These diseases are characterized by proteinuria (protein in the urine) and in the cases of FSGS and membranous nephropathy, a tendency to progressive scarring of the glomerulus (the filtering units of the kidneys) that leads to end-stage kidney disease. Several therapies are available for these diseases, but these therapies do not provide lasting reduction in proteinuria for many subjects. In the current study, carried out at the NIH Clinical Center, we are testing a new therapy, ManNAc. ManNAc is a naturally occurring uncharged sugar that cells use to produce negatively charged sialic acid. Kidney cells attach sugars such as sialic acids to proteins and lipids (resulting in glycans), and these assist in cell function. Mouse models of the inherited muscle disease GNE myopathy, which is due to sialic acid deficiency on muscle glycans, responded favorably to oral ManNAc therapy and a clinical trial of ManNAc is ongoing in GNE myopathy subjects. There is evidence that some subjects with MCD, FSGS or MN do not put enough sialic acids on glomerular proteins and so ManNAc therapy may increase sialic acid production and sialylation of glomerular proteins in these subjects. For the present study, we will recruit 12 subjects who have MCD, FSGS or MN. Each subject will stay at the NIH Clinical Center for 11 days to receive oral ManNAc. The primary purposes of the study are to determine: 1) the safety of ManNAc in subject s with kidney disease; and 2) the ManNAc and sialic acid metabolism related to ManNAc in subjects with kidney disease. Concentrations of ManNAc and sialic acid will be measured in plasma at various times before and after dosing. If this study suggests that ManNAc is safe in subject with kidney disease, the results will be used to plan a longer-term study to determine whether it is effective at reducing proteinuria....
People with failed kidneys need an artificial kidney machine (called dialysis) to remove toxins and extra fluid from the body. Most patients receive dialysis treatments at a hospital three times a week. During treatment, a patient's blood pressure may drop, causing dizziness and muscle cramping. Repeated drops in blood pressure can also injure the heart and brain. Over time, this can lead to heart attacks, strokes, and sometimes death due to cardiovascular causes. New research shows that cooling the temperature of the dialysis fluid (called dialysate) can reduce heart and brain injury. In most hospitals, all patients' dialysate temperature is set at 36.5 ºC (to match body temperature). In a study of 73 patients, we showed that reducing the dialysate temperature by 0.5 ºC below body temperature protected the heart and brain from injury [1,2]. We now want to test this simple, safe, low-cost intervention in a large study with ~7500 dialysis patients in Ontario. We can lower the dialysate temperature on dialysis machines in Ontario at no added cost. This intervention has the potential to reduce many hospitalizations and deaths in Ontario, and relieve suffering in patients with kidney failure.
Background: Patients with chronic kidney disease on hemodialysis may have reduced diffusion capacity, lung function and gas exchange due to mechanical and hemodynamic changes in the respiratory system, and decreased respiratory muscle strength resulting from uremic myopathy. The inspiratory muscle training (IMT) appears as an instrument to improve the inspiratory muscle strength, with positive effects on functional capacity and quality of life of kidney patients, however, the effects of IMT were not addressed in the specific variables of the respiratory system and to date there are no studies on the use of daily training in this population. Objective: To evaluate the effectiveness of daily inspiratory muscle training on respiratory muscle strength, chest wall volume, diaphragm thickness and mobility of end-stage renal disease patients. Methods: A randomized controlled clinical trial to be developed in Cardiopulmonary Physical Therapy Laboratory of the Universidade Federal de Pernambuco (UFPE) during the period from November 2015 to December 2016. The sample is composed of 24 individuals aged 18 and 65, having CKD, to perform hemodialysis for at least twelve months and provide inspiratory muscle weakness. Patients will be divided into two groups, the training group will be IMT with POWER-breathe®, load of 50% of MIP, duration of three sets of 30 inspirations, frequency of two sessions per day, 7 days a week for 8 weeks, since the sham group will be subjected to the same procedure (duration and frequency), but without load. Participants will be assessed before and after intervention through a global assessment form, questionnaire Kidney Disease Quality of Life Instrument Short Form - KDQOL-SF, diaphragmatic ultrasound, opto-electronic plethysmography, spirometry, manometer and six-minute walk test.
Thirty complete maxillary denture wearers were recruited after obtaining informed consent. One investigator measured the Shore D hardness of the commercially available RDLs using a Vesmeter®. The salivary flow rates and pH values and the occlusal force were measured for all patients before initiation of the study. T-tests and Pearson's correlation coefficients were used for statistical analyses. A p-value of <0.05 was considered statistically significant.