View clinical trials related to Renal Insufficiency, Chronic.
Filter by:Bovine Early Access, Compatibility, and Hemostasis (BEACH) Trial Study is to evaluate the Safety and Effectiveness of Early Access in Patients Who Require an Arteriovenous Conduit for Hemodialysis using the Artegraft® Collagen Vascular Graft™. The objective of the BEACH Trial is to demonstrate that early access of Artegraft is associated with acceptable rates of successful early access, and acceptable rates of a composite of adverse events, to support a modification of existing device labeling stating that Artegraft is capable of cannulation within 72 hours post implantation.
Strategies to stop AKI-AKD-CKD continuum - Policy is one of the collaborative projects, Strategies to stop AKI-AKD-CKD continuum, Epidemiology, Immunology, Repair, Artificial intelligence, and Policy (EIRAP). It is aimed to study effective interventional strategies that lower the incidence of CKD among patients with AKD. The intensified AKD care to reduce CKD (ISACC trial) is a prospective, open-labeled, randomized controlled trial is designed to evaluate the efficacy of multidisciplinary team care (MDT) model and acute kidney disease (AKD) clinic visits
Glomerular hyperfiltration is a major risk factor for accelerated glomerular filtration rate (GFR) decline and renal and cardiovascular events despite optimized conservative therapy with blood pressure and blood glucose (in diabetics) lowering medications and inhibitors of the Renin Angiotensin System (RAS) such as Angiotensin Converting Enzyme (ACE) inhibitors and/or Angiotensin Receptor Blockers (ARBs). Progressive GFR decline initiated and sustained by glomerular hyperfiltration in subjects with diabetes, unhealthy obesity, hypertension and other risk factors, is paralleled by progressive glomerulosclerosis and loss of functioning nephrons. The inhibition of the sodium-glucose cotransporter 2 (SGLT2) in the proximal tubular segments of the nephrons appears to be an ideal, specific intervention to inhibit the tubulo-glomerular feedback and ameliorate glomerular hyperfiltration in subjects with absolute or relative hyperfiltration associated with unhealthy obesity or proteinuric chronic kidney disease (CKD). Indeed, by reducing tubular sodium reabsorption, SGLT2 inhibitors may enhance sodium chloride delivery to the macula densa, restore pre-glomerular resistances and therefore limit glomerular hyperperfusion and consequent hyperfiltration. Moreover, because of its natriuretic effects, SGLT2 inhibition therapy might reduce the sodium overload and volume expansion which, along with secondary hypertension, may further contribute to kidney hyperperfusion and glomerular hyperfiltration in obesity and CKD.
A Clinical Study Comparatively Evaluating the Pharmacokinetics, Pharmacodynamics and Safety of Intravenous Administration of HSK3486 Injectable Emulsion in Patients with Chronic Renal Impairment and Subjects with Normal Renal Functions
End-stage renal disease (ESRD) is a growing global health problem, strictly connected with progressive ageing population and longer survival of patients living on renal replacement therapy. The majority of ESRD patients is on hemodialysis (HD) treatment. A successful HD procedure requires a functional vascular access (VA) to provide safe and long-lasting way to connect patient circulation to the artificial kidney. To date, VA dysfunction is the major cause of morbidity and hospitalisation in HD patients, and the major limitation of HD treatment. The current recommendation for VA is the native artero-venous fistula (AVF), surgically created in the forearm, but is still affected by high non-maturation and early failure rates. The most common cause of AVF early-failure is vascular stenosis due to neointimal hyperplasia (NH). Despite the exact mechanisms underlying stenosis development remain tentative, there is general consensus that hemodynamic conditions play a key role in the formation of NH. Previous computational fluid dynamics (CFD) investigations inside patient-specific AVF models conducted by our group revealed transitional laminar-to-turbulent flow in the juxta-anastomotic vein. Various vascular access devices have been designed to incorporate features to regularize the hemodynamics and favour spiral flow development in the venous segment of the AVF. The VasQ external support device (Laminate Medical Technologies, Israel) is a novel Nitinol implant, externally surrounding and supporting the vein and "hugging" the artery near the junction site, without being in contact with the blood flow. VasQ attempts at constraining and shaping geometrical parameters of the AVF, as well as reinforcing the vulnerable perianastomotic vein against high pressure, wall tension and flow levels. A prospective single-centre study demonstrated the safety of the VasQ external support device, but the effect of its use on hemodynamic conditions and the advantages in terms of flow regularization in patient-specific AVFs still need to be investigated. A detailed analysis of the local blood flow field in patient-specific AVFs can be obtained coupling non contrast-enhanced MRI (NCE-MRI) and high-resolution CFD simulations, using a NCE-MRI protocol recently optimized by our group. Our MRI sequence has the advantage of providing high-quality images in a short acquisition time of 5-10 minutes compared to other MRI protocols that require more than 45 minutes for a single acquisition. Combined with high-resolution CFD, our MRI-to-CFD pipeline allowed us to characterize morphological and hemodynamic changes in the AVF of one patient at two timepoints, immediately after AVF surgery and at AVF maturation. Therefore, it seems to be a promising approach to perform morphological and hemodynamic analysis also in AVF created using the VasQ device and can be used to elucidate the effects of VasQ device on hemodynamic conditions, as compared to hemodynamic conditions present in AVFs created using conventional surgery without the use of any device.
Haemodialysis is a renal replacement therapy that can be introduced to patients with end-stage renal disease (ESRD) to help them maintain a good healthy life. The patient's blood is pumped through a dialysis machine to remove excess fluid, salt and waste, then it is pumped back into the patient's circulation system. In order to carry out haemodialysis, vascular access (VA) is required to connect the patient to the dialysis machine. Patients have only three options of vascular access: arteriovenous fistula (AVF), an anastomosis between a native vein and an artery; arteriovenous graft (AVG), a connection between a synthetic tube and native blood vessels; and (3) central line, a cuffed catheter placed in a large neck vein. Arteriovenous fistulas are the preferred method for VA because of their longevity and causing the least number of complications. Although there are a number of factors that may increase the probability of AVF failure rate such as age and gender of the patient, poor native vessel structure, medications and the level of surgical experience, 30-40% of new AVFs fail to mature for unknown reasons. For an AVF to become functionally mature postoperative, remodelling and dilation of the native artery and vein are essential to accommodate significantly increased blood flow. However, pre-existing diseases in patients with ESRD such as arterial stiffness and endothelial dysfunction may impair AVF and preclude dialysis. It has been asserted that the lack of AVF success is attributable to insufficient arterial dilation because of poor arterial wall elasticity. The study aims to investigate the role of arterial stiffness and endothelial dysfunction in predicting AVF outcome using novel non-invasive ultrasound applications: 2D shear wave elastography and 2D strain speckle tracking will be employed to assess arterial stiffness, while an intraoperative flow-mediated dilation (FMD) technique will be used to evaluate endothelial dysfunction.
This is a data collection study to compare diagnostic methods of a prototype of a home monitoring device against laboratory testing in the hospital.
Chronic kidney disease (CKD) is associated with a pro-oxidative and pro-inflammatory state, and this is thought to contribute to a decrease in vascular function leading to greater cardiovascular disease (CVD) risk. Curcumin supplementation has been shown to reduce oxidative stress and improve endothelial function at rest in healthy older humans, although the magnitude of this effect remains unknown during exercise in CKD. The primary aim of this proposal is to determine whether exercising blood flow and vasoconstrictor responsiveness are improved as a result of acute oral supplementation with curcumin in patients with CKD. We hypothesize that: 1) acute curcumin supplementation will increase steady state exercise blood flow, and 2) reduce vasoconstriction induced by an acute sympathetic stimulus (cold pressor test) CKD.
With the aging population, a high prevalence of obesity, systemic arterial hypertension and diabetes mellitus, we are facing an increased incidence of elderly patients with chronic kidney disease (CKD) initiating renal replacement therapy. The correct diagnosis of CKD, the prognosis of the elderly patient with CKD, mainly comparing initiated dialysis vs. remaining in conservative treatment, the nutritional prognostic markers (sarcopenia), cardiovascular, mineral and bone metabolism, geriatric syndromes and sleep disorders are still debatable. Elderly patients are usually excluded from clinical trials and the scientific evidence is either scarce or based on retrospective data. Thus, the present study is a prospective cohort to evaluate the long-term evolution of patients ≥ 70 years with stage 4 or 5 CKD. The main outcomes are mortality and dialysis as a combined event. These endpoints will be correlated with independent parameters: Klotho, FGF23, nutrition and sleep quality. Confounders variables are cognition, depression, demographic, clinical and laboratory parameters, and daytime somnolence. Patients will be followed at the nephrology outpatient clinic of the Hospital das Clinicas, Universidade de Sao Paulo. The sample size was calculated to be 200 subjects. The summary methodology will include a broad geriatric assessment, cognition test, fragility, Charlson comorbidity scores, biochemical measurements of urea, creatinine, alkaline phosphatase, parathyroid hormone, calcium, phosphorus, vitamin D, vitamin B12, folic acid, thyroid hormones, hepatitis virus, serum albumin, albumin/creatinine ratio, protein/creatinine ratio, 24-h urinary protein, Epworth Sleepiness Scale, Pittsburgh questionnaire, segmental electric bioimpedance, and nutritional evaluation by 24h dietary interview.
Hemodynamic trends will be assessed using the device, in 100 dialysis sessions in 30 patients, who are prone to develop hypotensive episode during dialysis. Sitting blood pressures will be measured immediately prior to each hemodynamic measurement: before initiation of dialysis, every each hour and in the beginning of hypotension episode, just before the end and 10 min after the end of the treatment. Gender, age, height, weight, electrode location and blood pressure data will be entered into the device. The device will measure and calculate hemodynamic parameters on each heart beat during 60 s and provides the averaged parameters. Technology for hemodynamic measurements: The device (NICaS, NI Medical) is a noninvasive regional bioimpedance cardiac measurement and analysis system (FDA 510k clearance no. K080941, 12 June 2009). The US Food and Drug Administration indication for use of the device states 'NICaS is intended to monitor and display hemodynamic parameters in males and females with known or suspected cardiac disorders needing cardiac assessment'. SV will be measured by applying an alternating electrical current of 1.4mA at 30 kHz frequency through the patient's body via two pairs of tetrapolar sensors, one pair placed on the wrist of the nonaccess arm above the radial pulse and the other pair on the contralateral ankle above the posterior tibial pulse (Figure 1). Figure 1 : Sensor location SV is calculated by Frinerman's formula: SV¼(dR/R) - q - (L2/Ri) - (ab)/b - KW - HF [2-4], where dR is the impedance change in the arterial system as a result of intraarterial expansion during systole, R is basal resistance, q is blood electrical resistance, L is the patient's height, Ri is basal resistance corrected for gender and age, KWis the correction of weight according to ideal values, HF is a hydration factor that takes into account the ratio between R and body mass index (BMI), which is correlated to body water volume, ab is the electrocardiogram (ECG) R-R wave interval and b is the diastolic time interval. SV is automatically calculated every 20 s and is the average of three measurements obtained consecutively during 60 s of monitoring. The SV index is calculated as SV/body surface area using the Du Bois formula [11]. Heart rate is calculated from a one channel ECG and cardiac (output) index¼SV index - heart rate/1000. Using an oscillometric method, sitting systolic and diastolic blood pressure measurements were made automatically by the dialysis machine. Mean arterial pressure [2 - (diastolicsystolic)/3], cardiac power index [CPI; mean arterial pressure (MAP) -cardiac index - 0.0022 w/m2; normal range 0.45-0.85w/m2] [12, 13] and total peripheral resistance (MAP/ cardiac index - 80 dyn - s/cm5 - m2; normal range 1600-3000 dyn - s/cm5- m2) [13] will be calculated. As the device measures pulsatile flow and is blinded to constant flow, fluid removal during dialysis has no impact on measurement accuracy. This was recently validated by correlating SV to ECG measurements during hemodialysis treatments. Good correlation was maintained during treatment. Further, NICaS performance immunity to fluid reduction was demonstrated by the maintenance of correlation to ECG results throughout dialysis treatments [9]. The results are drawn on hemodynamic graphs showing the MAP (y-axis) as a function of cardiac index (x-axis); curves of total peripheral resistance index (TPRI) and CPI are displayed. Ranges for the normal population are depicted by a dotted octagon.