View clinical trials related to Chronic Kidney Disease Stage 2.
Filter by:Leveraging a unique combination of synchronized web and mobile applications, this 3 year SBIR Phase II project will fully develop and pilot test My Kidney Guru-a program that will offer pediatric patients with CKD developmentally appropriate, interactive, and engaging instruction and practice opportunities to build knowledge and skills to manage CKD.
Used multi-year health examination member profile by multi-algorithms technology, to find comprehensive key hazard factors or important high-risk group components for metabolic syndrome and chronic kidney disease or more common chronic diseases.
The clinical utility trial is designed to evaluate how the results of KidneyIntelX test / platform impacts on the clinical management of type 2 diabetes patients identified as increased risk for rapid kidney function decline within 5-years.
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 current trial is designed to evaluate how the results of KidneyIntelX test / platform impacts on the clinical management of type 2 diabetes patients identified as increased risk for rapid kidney function decline within 5-years.
Aim: By application of wearable devices and health management platform to build self-management model in CKD patients and analyze the cost of healthcare. Material and Methods: The investigators plan to recruit 60 CKD patients as trial subjects. The intervention group is composed of 30 participants, and the control group 30 participants. The intervention group received intervention with wearable devices and health management platform for 90 days. Patients record diet diary by a smartphone application, and their exercise-related data are collected by wearable devices. Then, all the collected information will be upload to health management platform. The investigators also create a LINE group to encourage exercise in the experimental group. The investigators compare the scores of self-management sheet and physical and laboratory examinations before and after the intervention. The investigators also analyze the cost of healthcare within 180 days.
There are many controversies about the role of N-Acetyl Cystein in preventing of contrast nephropathy. These contradictory results may be due to different criteria for patients' selection, different end points, different type and dose of N-Acetyl Cystein administration and finally different prophylactic measures other than N-Acetyl Cystein. The investigators try to enroll a double blind double dummy study with a good power to compare the effect of this drug both in the form of oral and intravenous against the placebo in preventing the contrast nephropathy in the patients whom undergo coronary angiography/angioplasty.
Vitamin D Supplement in patients with CKD stage 1 and 2 may change osteoprotegin expression so as to produce beneficial effects of cardiovascular、bone metabolism and CKD progression.