View clinical trials related to Renal Disease.
Filter by:Chronic kidney disease (CKD) is a common global public health problem and the average incidence of end-stage renal disease in developing countries is 150 per million population, which is lower than that in the developed world
The purpose of this proof-of-concept controlled-feeding study is to evaluate the impact of plant-rich diets, with and without high-potassium fruits and vegetables, on phosphorus and potassium homeostasis in hemodialysis (HD) patients.
Kidney Disease subjects will be recruited to take part of a mindfulness-based stress reduction intervention for 8-10 sessions. All subjects will complete a baseline interview, one follow-up at 3 months and the close out interview at 5 months.
The radiation exposure resulting from medical imaging is a topic of some concern. Nuclear medicine provides potentially life-saving information regarding physiological processes, and is of particular value in children where the rapid and unequivocal diagnosis of pathological concerns is essential for the health of these patients. The overall objective of this investigation is to optimize pediatric patient absorbed dose by keeping it as low as possible while maintaining excellent diagnostic quality of nuclear medicine images. This is particularly important since children are at increased risk due to the enhanced radiosensitivity of their tissues and the longer time-period over which radiation effects may manifest. Current dosimetric estimations in children are based on either animal biokinetic or pharmacokinetic data from adults due to paucity of data that exists for children. This situation will be improved through the following specific aims: - Collect image-based pharmacokinetic (PK) data from patient volunteers in different age groups scheduled for routine nuclear medicine studies for Tc-99m mercaptoacetyltriglycine (MAG3), a radiopharmaceutical commonly used in pediatric nuclear medicine - Pool and analyze the data for different age groups for each radiopharmaceuticals and - Generate biokinetic models to be used in subsequent dosimetric models for the optimization of pediatric nuclear medicine procedures. Since inadequate pharmacokinetic data currently exist in these patients, the investigators will use the data acquired in this study to establish PK models applicable to different age categories. Data on the pharmacokinetics of agents used in pediatric nuclear medicine are almost completely lacking. Internationally adopted dose coefficients (mSv/MBq) for pediatric nuclear medicine make age-dependent adjustments only for patient size and anatomical differences, while time-dependent kinetics from adult PK models are assumed due to the lack of kinetic data for children. The data obtained from this study will make it possible for the first time to determine how the PK in pediatric patients differs from adults. This will be done for Tc-99m MAG3, a radiopharmaceutical commonly used for pediatric nuclear medicine imaging. The overall hope is that results will allow the molecular imaging community to implement pediatric dose-reduction approaches that substantially improve upon current guidelines pointing to future technological advances that could yield even greater dose-reduction while simultaneously improving diagnostic image quality.
The radiation exposure resulting from medical imaging is a topic of some concern. Nuclear medicine provides potentially life-saving information regarding physiological processes, and is of particular value in children where the rapid and unequivocal diagnosis of pathological concerns is essential for the health of these patients. The overall objective of this investigation is to optimize pediatric patient absorbed dose by keeping it as low as possible while maintaining excellent diagnostic quality of nuclear medicine images. This is particularly important since children are at increased risk due to the enhanced radiosensitivity of their tissues and the longer time-period over which radiation effects may manifest. Current dosimetric estimations in children are based on either animal biokinetic or pharmacokinetic data from adults due to paucity of data that exists for children. This situation will be improved through the following specific aims: - Collect image-based pharmacokinetic (PK) data from patient volunteers in different age groups scheduled for routine nuclear medicine studies for 4 radiopharmaceuticals commonly used in pediatric nuclear medicine - Pool and analyze the data for different age groups for each radiopharmaceuticals and - Generate biokinetic models to be used in subsequent dosimetric models for the optimization of pediatric nuclear medicine procedures. Since inadequate pharmacokinetic data currently exist in these patients, the investigators will use the data acquired in this study to establish PK models applicable to different age categories. Data on the pharmacokinetics of agents used in pediatric nuclear medicine are almost completely lacking. Internationally adopted dose coefficients (mSv/MBq) for pediatric nuclear medicine make age-dependent adjustments only for patient size and anatomical differences, while time-dependent kinetics from adult PK models are assumed due to the lack of kinetic data for children. The data obtained from this study will make it possible for the first time to determine how the PK in pediatric patients differs from adults. This will be done for Tc-99m dimethylsuccinic acid (DMSA), a radiopharmaceutical commonly used for pediatric nuclear medicine imaging. The overall hope is that results will allow the molecular imaging community to implement pediatric dose-reduction approaches that substantially improve upon current guidelines pointing to future technological advances that could yield even greater dose-reduction while simultaneously improving diagnostic image quality.
This study aimed to evaluate the correlation between the point of care blood analysis obtained from skin puncture blood and conventional blood analysis obtained from venous and arterial blood.
In this study, patients undergoing live donor kidney transplantation will be allocated to the control group or remote ischemic preconditioning group (RIPC). RIPC is the utilization of short periods of ischemia to provide protection of the myocardium or other organ (i.e. kidney) from a subsequent ischemic event. Before allograft implantation, RIPC will be accomplished in the treatment group donor and control group donor by inducing intermittent extremity ischemia through intermittent inflation of an extremity tourniquet three times for five-minute intervals with five minutes of deflation between inflation periods. The monitored clinical end points will include total urine output following kidney reperfusion over five days, plasma creatinine declination over five days, initiation of dialysis, and development of graft injury. Magnitude of graft injury is the primary endpoint and will be measured using biochemical markers, such as, plasma and urinary concentration of neutrophil gelatinase associated lipocalin (NGAL), interleukin-18 (IL-18), and kidney injury molecule-1 (KIM-1). The sample size calculation is based on a projected difference of NGAL levels between the two study arms. Hall et al reported a mean NGAL level of 49 mg/mL (SD = 37 mg/mL) for a group of patients that had immediate graph function and a mean NGAL level of 248 mg/mL in a group of patients with slow graft function. (which Hall reference is this) Based on these data, a conservative estimate of a mean difference between study groups will be considered 35 mg/mL NGAL. Using these assumptions, an alpha level of 0.05 and 80% power, a sample size of n= 19 per study group will be calculated. By rejecting our null hypothesis, RIPC may serve as a safe, cost-effective protective strategy to prevent allograft injury in the clinical setting of live donor kidney transplantation.
The Prevention of Renal and Vascular Endstage Disease Intervention Trial (PREVEND IT) was designed to determine whether intervention with the angiotensin-converting enzyme (ACE) inhibitor fosinopril and/or the hydroxymethylglutaryl coenzyme A reductase inhibitor pravastatin reduced cardiovascular and renal events in nonhypertensive, nonhypercholesterolemic subjects with microalbuminuria.
Chronic kidney disease (CKD) affects between 5-10% of the world's population, equating to ~740 million people worldwide. End stage renal disease (ESRD) is the result of a progressive loss of kidney function where the patient requires dialysis to replace the typical functions of the kidney. The quality of life of these individuals can be poor as a result of various complications associated with CKD (e.g. heart disease, diabetes, muscle wastage, decreased fitness). In an attempt to combat reduced physical fitness, many studies have applied long term exercise programmes. However, the body's response to exercise in people with CKD is not well understood and a set of guidelines that informs safe and effective exercise prescription is lacking.
Taken together the results from CHARISMA and PEGASUS-TIMI54, it appears that physicians may consider extending beyond 1 year or reinitiating treatment with clopidogrel 75 mg od or ticagrelor 60mg bid in patients with a prior MI and features of high ischemic and low bleeding risk. Comparative clinical or pharmacodynamic studies, however, between clopidogrel 75 mg od and ticagrelor 60 mg bid in the chronic phase of stable post MI patients have not been performed. In a platelet substudy of PEGASUS-TIMI 54, 180 patients who had received >4 weeks of study medication had platelet reactivity assessment. Ticagrelor 60mg bid achieved high levels of peak and trough platelet inhibition in nearly all patients, with similar consistency of effect compared to 90mg bid. Platelet reactivity (PRU) was significantly reduced with ticagrelor 60mg bid compared to placebo. In light of this, we believe that a dedicated pharmacodynamic study of ticagrelor 60 bid mg vs clopidogrel 75 mg od in a PEGASUS-like population would be informative for the practicing clinician, thus setting the rationale for conducting this specifically designed investigation. This is a prospective, randomized, single blind, single center, crossover study. Eligible patients undergoing P2Y12 receptor antagonist therapy before screening will undergo a 14-day minimum washout period before randomization. Following screening/washout period (visit 1), patients will be randomized (visit 2, time 0) in 1:1 fashion to either clopidogrel 75 mg od or ticagrelor 60 mg bid. Following 14±2 days (visit 3) patients will receive alternate treatment for additional 14 days (visit 4). Platelet reactivity assessment will be performed with the VerifyNow P2Y12 reaction assay at time 0, prior to first study drug dose. At visit 3 platelet function will be assessed at 2-4 hours post dose and prior to crossover. At visit 4 also platelet function will be assessed at 2-4 hours post study drug post dose. All patients will receive concomitant aspirin (100 mg/d) and standard secondary prevention medication. The primary endpoint is the platelet reactivity measured in P2Y12 reaction units (PRU) at the end of the 2 study periods (pre-crossover and post-crossover).