View clinical trials related to Renal Insufficiency, Chronic.
Filter by:Obesity is associated with glomerular hyperfiltration leading to renal impairment and is a risk factor for the progression of kidney disease.Weight loss can reduce proteinuria and improve eGFR.Intermittent fasting is safe and effective, and in addition to improving body shape and weight in obese patients, it can also improve glucolipid metabolism, reduce proteinuria, improve kidney function and delay the progression of kidney disease.
This is a pilot phase II study to evaluate the safety and efficacy of AND017 in NDD-CKD patients
Chronic kidney disease (CKD) is defined as persistent abnormalities of kidney structure or function for more than 3 months leading to a sustained reduction in glomerular filtration rate (GFR) and/or to the occurrence of kidney damage markers, such as albuminuria. [1] CKD is an emerging global public health problem, having significant morbidity and mortality costs on society. It is considered as an important component of the epidemic of non-communicable diseases in developed, as well as low-income/middle-income countries. [2] In the Kingdom of Saudi Arabia, CKD has been established as a major health issue in recent decades due to the growing incidence and prevalence of end stage kidney disease (ESKD) among the Saudi population. The overall prevalence of CKD was 5.7% in 2010. [3] In 2017, there were around two million cases of CKD and 3818 deaths due to CKD in Saudi Arabia in 2017. [4] A recent study also reported the overall prevalence of CKD stages 3 to 5 was 4.4% among the Saudi population. [5] The major consequences of CKD include disease progression and, subsequently, increased risk of cardiovascular disease.
Determination of the possible causes of chronic kidney disease (CKD) in patients with type 2 diabetes mellitus with an atypical presentations of renal disease for proper management and thus improving renal outcome.
The objectives of this analysis is to determine the incidence of anemia occurring in patients with chronic kidney disease (CKD) in primary care (i.e. prior to any eventual referral to nephrology care). This analysis also evaluates patient characteristics, anemia treatment and associated cardiovascular risk.
It's a pilot study with an open label randomized-controlled design. Estimated number of patients should have been 38, taking in account of a maximal drop out up to 20% of the sample. We enrolled 35 patients, 27 of whom terminated the study as per protocol (14 in the Low protein (LP) group and 13 in the Normo Protein (NP) group). Patients were treated for six months with two different dietary prescriptions: 1. LP group (n=17) was prescribed high calories/low proteins diet (30 Kcal/kg and 0.6-0.7gr/kg respectively). In order to assure prescribed calorie intake, this group was supplemented with commercial protein free products (protein content <2%). 2. NP group (n=18) was prescribed high calories/normal proteins diet (30 kcal/kg and 0.8 gr/kg respectively). The primary hypothesis of the study was that in CKD patients at risk of malnutrition (4 ≤ MIS ≥7) with a persistent spontaneous low protein and calories intake, the prescription of a LP diet was not inferior to NP diet regarding the development of malnutrition (i.e.MIS ≥ 8). We also wanted to test whether in these patients, the prescription of a LP diet was superior to the NP comparator regarding the control of the metabolic complication of chronic kidney diseases (i.e hyperphosphatemia, inflammation and metabolic acidosis), the progression on dyna/sarcopenia, inflammation and possibly on the progression of renal disease itself.
Researchers are looking for a better way to treat people who have chronic kidney disease (CKD), a long-term, progressive decrease in the kidneys' ability to work properly. When CKD happens in people with type 2 diabetes mellitus, a condition characterized by high blood sugar levels, CKD is also referred to as diabetic kidney disease (DKD). FIGARO-BM is an add-on study in which blood draws that were collected in the FIGARO-DKD study are further analyzed. No additional blood draws (also referred to as biological samples) or data will be obtained from the participants, nor will any additional or new study intervention be introduced. No visit or patient contact other than for obtaining the agreement by the patients (also called informed consent) will be required. Inflammation and scarring are both seen as responsible for worsening of chronic kidney disease. There is much information from animal studies that the study treatment finerenone (BAY94-8862) works against inflammation and against scarring (also called fibrosis) in organs such as the kidney. In this exploratory study researchers want to learn more about the study treatment finerenone (BAY94-8862). To find this out, this study will examine substances called biomarkers in blood draws from participants in the FIGARO-DKD study. Biomarkers are used as indicators of biological processes, disease processes or responses to medication. The biomarkers that will be examined stand for inflammation, organ scarring (also called fibrosis), blood vessel function and congestion. The main question of this study is whether there are differences between these biomarkers in the group of participants who received finerenone and the group of participants who received a placebo in the FIGARO-DKD study. A placebo looks like a treatment but does not have any medicine in it. To answer this question, the researchers will compare the levels of these biomarkers between the two groups at different time points after starting the study treatment. Blood samples for this study will be obtained from FIGARO-DKD study sites with a high number of participants who had been treated with finerenone or placebo for at least 24 months. This information will be combined with other information from biomarker examinations already available in the FIGARO-DKD study.
This observational study is assessing the effects that arterial stiffness may have on patients with heart failure (HF) and chronic kidney disease (CKD). Arterial stiffness will be measured by assessing pulse wave velocity (PWV). Carotid- Femoral PWV is the gold standard in measuring arterial stiffness non- invasively. Many studies have shown increasing PWV is a predictor of cardiovascular events, but the significance of increasing PWV as a surrogate marker for the potential worsening (decompensation) of HF or CKD has not been explored. This study aims to investigate patients with HF and CKD by assessing PWV while in a decompensated state and again when in a stable condition after 4 weeks of discharge to investigate a link between decompensation and rise of arterial stiffness. The research team aim to recruit 120 patients in this study with 40 patients in each of the 3 groups- heart failure with reduced ejection fraction (HFrEF), heart failure with preserved ejection fraction (HFpEF) and acute kidney injury (AKI). All AKI patients would have had known CKD (stages 3a, 3b or 4). The study participants will be initially recruited in hospital while admitted in an acute state and tests including bloods, ECG, echocardiography and PWV will be performed. The tests (excluding echocardiography) will be repeated 4 weeks after discharge. There is no intervention in this study. The study seeks to improve the understanding of the role of the vasculature in the development of acute HF in the two common types- HFrEF and HFpEF. As CKD is a common comorbidity in heart failure patients we felt that a study of the behaviour of arterial stiffness in this cohort will add to this understanding. If arterial stiffness is found to be an important component of the HF syndrome therapeutic interest could be focused at managing arterial stiffness with novel therapy.
The best treatment of Chronic Kidney Disease (CKD) is facilitated by early detection, when the progression of the disease can be slowed down or stopped. Early treatment focuses on diet, exercise, lifestyle changes, treating risk factors (diabetes, hypertension, etc.) and administration of medications supporting kidney functions. However, once the glomerular filtration rate dropped below 15 ml/min/1.73m2, treatment with dialysis or a kidney transplant is required. Dialysis treatments come with a huge lifestyle management and economic burden to the patients as well as the healthcare systems. The challenges may be facilitated by usage of mobile applications that help the patients/caregivers and multidisciplinary team to manage the complexity of Peritoneal Dialysis (PD) treatment. Even though several mobile applications currently exist, they focus on certain limited aspects of health monitoring like diet or vitals and medical adherence like medication reminders. An application which would take a comprehensive all-in-one solution approach targeted towards managing kidney health is needed. The platform developed by AWAK Technologies consists of a Admin Portal, web-based Clinic Portal and a Patient Mobile Application. The App would allow patients/caregivers to enter treatment data related to their dialysis therapy, medication, symptoms and vital monitoring. It also allows them to communicate with their healthcare team via messaging and teleconsult. The study aims to evaluate the feasibility of using this mHealth platform in the clinical setting. Additionally, the clinical investigation seeks to obtain data for further development of the mHealth platform that will better fulfil the needs of patients and healthcare professionals.
In this observational study, data from the recent past of patients with type 2 diabetes mellitus and chronic kidney disease will be studied. Type 2 diabetes mellitus (T2DM) is a condition in which the body does not make enough of a hormone called insulin or does not use insulin well. This results in high blood sugar levels. About half of people with T2DM also have a condition called chronic kidney disease (CKD). In people with CKD, the kidneys' ability to work as how it should decreases over time. In this study, researchers want to learn more about the CKD in T2DM patients in Alberta, Canada. This will help them to know the chances to improve the care of these patients. The researchers will look at the health information from adult men and women in Alberta who were diagnosed with T2DM before 2018 and visited a doctor to have check-ups in 2018. They will find out about how many of these people had CKD and how severe their CKD was. The researchers will collect data about the age and gender of these patients, how long they had T2DM and if they had other related medical problems. The researchers will also learn how these patients were treated based on their kidney condition and how much money was spent on these treatments. This study will collect information from the health records of about 270,000 patients with T2DM who were living in Alberta, Canada. This information will come from the Alberta Kidney Disease Network (AKDN) database. Besides this data collection, no further tests or examinations are planned in this study.