View clinical trials related to Renal Insufficiency, Chronic.
Filter by:Pediatric chronic kidney disease (CKD) results from health conditions that reduce kidney function for >3 months. It can progress to end-stage kidney disease (ESKD), which requires dialysis or kidney transplant. In adults, CKD is common and caused mainly by hypertension and diabetes. CKD in childhood is rare and caused primarily by congenital anomalies of the genitourinary system and immune-mediated disorders. The best estimate of pediatric CKD prevalence is <1/15,000 pediatric population. Hypertension occurs in 50% of affected children and is a major risk factor for decline in kidney function. Several clinical practice guidelines have offered recommendations for blood pressure (BP) management in pediatric CKD; however, clinical trial and large-scale observational data are limited, leading to a weak evidence base and substantial practice variation. The purpose of PRESERVE is to provide new knowledge to inform shared decision-making regarding BP management for pediatric CKD. We will leverage the Patient-Centered Outcomes Research network (PCORnet®) infrastructure to conduct large-scale observational studies that will address BP management knowledge gaps for pediatric CKD and sub-groups for whom antihypertensive treatment and outcome associations may be different (e.g., cause of kidney disease and proteinuria). The project's specific aims are: Aim 1-Enhance the PCORnet Common Data Model (CDM) for pediatric and rare kidney disease research. We will expand and improve the PCORnet CDM with new pediatric- and kidney-specific variables, study-specific data quality optimization, and linkage with the chronic kidney disease in children (CKiD) cohort study and the US Renal Data System (USRDS). CKiD directly measures kidney function [ie, glomerular filtration rate (GFR)] and includes Ambulatory Blood Pressure Monitoring (ABPM). The USRDS provides complete capture of renal replacement therapy [(RRT) dialysis and transplant], two components of the primary clinical outcome. Aim 2-Describe and examine the effectiveness of consistent BP and urine protein monitoring for preserving kidney function. We will describe the consistency of BP and urine protein monitoring and will contrast clinic BP assessments with ABPM. In longitudinal analyses, we will evaluate the effects of consistent monitoring of BP and urine protein on kidney function decline. Aim 3-Compare the effectiveness of BP medication strategies for preserving kidney function. We will compare the effects of (1) BP levels when treatment was started, (2) choice of first-line therapies, and (3) ongoing BP control on kidney function decline. We will also assess adverse events related to hypertension management. Aim 4-Assess patients' lived experiences related to BP management. We will field a survey that examines patient-centered outcomes by level of BP control and medication management approaches. This Aim will provide information on experiences with BP management from the perspectives of patients, parents, and clinicians that will complement the clinical outcomes studied in Aims 2 and 3.
The aim of the study is to assess the impact of pharmacist led mobile application on adherence and efficacy of medication in chronic kidney disease patients
This study is a virtual, remote, decentralized pragmatic clinical trial comparing the efficacy of medically tailored meals alone or medically tailored meals with remote nutritional counseling compared with usual standard of care in adults with a targeted, nutrition-sensitive chronic medical condition (heart failure, diabetes mellitus, chronic kidney disease).
The overall goal is to enhance vitamin D status in a safe and effective manner. A 3-week randomized comparator-controlled trial among a cohort of adults with CKD (stages 3-5) (n=24) will test the main objective: Evaluate the bioefficacy of D3 in micro- and nanoparticles (4000IUs) in almond milk with the sub-objective of: Explore the effect of D3 in micro- and nanoparticles (4000IUs) in almond milk on inflammation markers CRP, TNF-α and IL-6.
Background: Emerging data favors aortic blood pressure (BP) over brachial cuff BP in predicting CV and renal complications, as this BP directly impacts the heart, brain and kidneys. In parallel, central BP measuring devices have been developed that are more accurate towards aortic BP and easy to use without training. In no other condition than advanced chronic kidney disease (CKD) is BP control as important, since undertreatment is associated with adverse CV events and progression towards end-stage kidney disease (ESKD), while overtreatment similarly leads to adverse CV events and injurious falls but also acute kidney injury which can precipitate ESKD. To this day, standard BP management relies on brachial cuff BP, which is an imprecise surrogate marker of aortic BP, more so in the advanced CKD population. Considering that these patients have a high risk of CV morbidity and mortality and is a group where brachial BP may be the least reliable, it can be beneficial to manage hypertension in this population using central BP measurements. With the development of affordable and easy to use central BP devices, routine use of central BP in hypertension would now become a reality. However, the superiority of central BP to traditional brachial cuff BP in regard to clinical outcomes will first need to be demonstrated. Objectives: To demonstrate that targeting central BP in advanced CKD patients as opposed to brachial cuff BP is feasible and results in lower arterial stiffness after 12 months of follow-up. Methods: The CENTRAL-CKD trial is an investigator-initiated prospective parallel-group 1:1 randomized double-blinded multicenter pragmatic pilot trial. Patients with CKD stages 4 and 5 (n=116) will be randomized to either a central systolic BP target < 130 mmHg (intervention) or brachial systolic BP target < 130 mmHg (standard care). Central and brachial BP will be concomitantly measured, with treating physicians, patients and investigators blinded towards allocation. As this trial is of a pragmatic design, all other aspects of BP and CKD management, including anti-hypertensive treatment-related decisions, diastolic BP targets, and clinical and laboratory follow-ups will be at the discretion of the attending Nephrologist. The primary outcomes include feasibility of large-scale trial using prespecified criteria and aortic stiffness (carotid-femoral pulse wave velocity) at 12 months. Other cardiovascular, renal, quality of life and safety outcomes will be evaluated. Importance: CENTRAL-CKD is designed as a pilot trial aimed at providing the framework and justification to proceed to a large-scale trial with adequate power to detect the impact of the proposed intervention on clinically important outcomes.
To date, little knowledge exists related to the use of hemodialysis (HD) in infants and has been limited to mainly single center studies. The CARPEDIEM (CArdio-Renal PEdiatric Dialysis Emergency Machine) device, which can be used to provide hemodialysis in infants, has been launched in the United States. This study/registry is designed to obtain data on critically ill infants who require HD using the CARPEDIEM device to understand the indications for initiation, best practice in prescribing and performing treatment, expected treatment course, and outcomes of a dedicated infant continuous renal replacement therapy (CRRT) machine.
Micro and nanoplastics (MNPLs) effects on human heath is still preliminary. Chronic kidney disease (CKD) participants, specially does patients submitted to hemodialysis, are a population high exposed to plastics. The objective of our research is to be able to detect MNPLs on biological fluids of hemodialysis patients as well as their potential genotoxic and immunological damage.
The study is a- 2-arm randomized controlled trial among patients presenting for kidney transplant evaluation at a single transplant center to compare the effects of a patient-based self-learning and outreach intervention about living-donor kidney transplantation (KidneyTIME) versus usual care for living-donor kidney transplant knowledge, concerns, readiness, access behaviors, and living-donor inquiries over 12 months follow-up. Following consent and baseline assessment, participants were randomized, stratified by self-reported race, with equal allocation to 2 treatment arms: the KidneyTIME intervention and usual care.
Periodic leg movement disorder is defined as periodic episodes of repetitive limb movements during sleep that mainly occur in the lower limb, including the hips, knees and toes and sometimes affects the upper limb. It may be accompanied by frequent nocturnal arousals, and if so, this sleep disturbance may cause excessive daytime sleepiness. Chronic kidney disease patients are at risk of periodic leg movements and common causes are iron deficiency, anemia, raised serum calcium and central and peripheral nervous system disorders.
The purpose of this study is to test the safety of the compound sulforaphane that boosts the activity of antioxidant genes in the body to combat oxidative stress. Oxidative stress has been shown experimentally to play a role in kidney disease. This drug has been tested in patients with breast cancer who have normal kidney function, but has never been tested in patients with kidney disease. In this study, the investigators will establish a safe dose for patients with chronic kidney disease based on blood levels achieved in patients with normal kidney function.