View clinical trials related to Hemodialysis Complication.
Filter by:This proposal will measure the effects of mannitol administration versus placebo in hypotensive-prone, adult, maintenance hemodialysis patients with respect to changes in patient symptoms and blood pressure stability.
The arteriovenous fistula (AVF) is the preferred vascular access for hemodialysis(HD), and fistula-first is the general recommendation for all HD patients. But in clinical practice in China, quite a few patients start HD before AVF maturation due to various situations. Whether HD initiation with mature AVF will influence the patency and complications is controversial. This study is aim to compare the AVF patency in incident HD patients with mature or immature AVF on HD initiation, and to compare other clinical outcomes, including abandonment without use, infection, and other AVF complications occurrence.
Not all dialysis patients tolerate heparin anticoagulation. Heparin should be avoided in patients at high risk of bleeding. Strategies include saline infusion, citrate-containing dialysate, regional citrate anticoagulation and heparin-coated membranes. We recently studied the combination of a heparin-coated membrane and citrate-containing dialysate, with a success rate of 94% . Although this combination resulted in low rates of clotting, heparin-coated membranes are not ubiquitously available. The quest for easy to perform, safe and affordable heparin-free dialysis is on. Asymmetric cellulose triacetate (ATA) dialyzers have a low degree of platelet contact activation and might be an alternative to heparin-coated dialyzers. This is a phase II pilot study in maintenance dialysis patients. Study design is a two-arm open-label cross-over study. In Arm 1, patients were dialyzed using a 1.9 m2 ATA membrane (Solaceaâ„¢-19H, Nipro Corp., Japan) in combination with citrate (1 mM) containing dialysate. In Arm 2, patients were dialyzed with the same 1.9 m2 ATA membrane, in combination with high volume predilution hemodiafiltration. The primary endpoint was the success rate to complete 4 hours of hemodialysis without preterm clotting.
This study aims to optimize the dosing of cefazolin, ceftazidime, and ciprofloxacin for patients on high-flux hemodialysis. For each antibiotic 20 participants will be enrolled and three blood samples will be collected from each participant. Antibiotic levels will be measured in each blood sample. This data will be used to develop population-pharmacokinetic models for each antibiotic. Finally, Monte Carlo simulations will be used to develop evidence-based dosing recommendations.
This study carried out in the HD unit of a large-scale training and research hospital, and at a dialysis center associated with this hospital located in Ankara, Turkey. Participants will be randomized to one of two study arms. Arm 1: Intervention group Arm 2: Control group Hypothesis 1. The HD patients in the 8-week intervention of BRT combined with music therapy will report lower fatigue scores than those in the control group. Hypothesis 2. The HD patients in the 8-week intervention of BRT combined with music therapy will perceive lower anxiety and depression than those in the control group.
Data on regional citrate anticoagulation in patients with acute kidney injury (AKI) treated by hybrid or extended dialysis are scarce and heterogeneous. The path batch system (Genius®) or the proportion hemodialysis machines are well suited equipments to perform extended dialysis. However, clotting of the system might occur with relatively high frequency, especially in critically ill patients with high risk of clotting or in those with contraindication to the use of heparin. The aims of this study are: 1) to test and to validate a new protocol using citrate to perform regional anticoagulation in AKI patients admitted to the intensive care unit (ICU) and treated by extended dialysis, using a control group (use of heparin or intermittent saline flush) as comparison in the Heart Institute of the university medical complex "Clinics Hospital Medical School at São Paulo" (Hospital das Clínicas da Faculdade de Medicina do Estado de São Paulo) and at the Cancer Institute of the São Paulo State; 2) to evaluate the anticoagulation in these procedures with citrate and compare with the control group using heparin or saline flush, so the primary end point would be the rates of system clotting; 3) to study the calcium mass transfer in these procedures and its impact on bone metabolism in these patients. The inclusion criteria are all AKI patients admitted in these places and candidates to renal replacement therapy using the extended dialysis, age above 18 years. The exclusion criteria are acute liver failure, hemorrhagic stroke, platelets level below 20,000/mm3, and active bleeding needing transfusional support (two or more red cell packs in 24 hours).
This feasibility study tests if patients find incremental HD acceptable, whether they tolerate the treatment as planned and to evaluate its safety. Over a period of 18-months, 20 participants will be recruited in to the study who are about to start HD therapy for ESRD. The participants will start HD incrementally (incremental HD group) reaching full dose HD over a period of approximately 15 weeks. The outcomes will be compared to a cohort of 40 matched patients who previously started HD in the conventional manner (historical controls, conventional HD group). All patients will be followed-up for 6 months after first dialysis. Participants will be reviewed regularly during this time, and will undergo laboratory and bed-site monitoring tests. Acceptability and tolerance will be tested by documenting the numbers and percentages of patients who agree to participate and continue in the study. Patients who decline the invitation to join the study will be given the opportunity to express their reasons for declining to go on incremental HD (they will not play further part in the study). The safety of incremental HD will be tested by comparing the rates of pre-defined safety events in the incremental HD vs. conventional HD groups. The impact of incremental HD on patients' residual renal function will be monitored using serial 24-hour urine collections, bio-impedance testing will be conducted to estimate changes in fluid load, measurements of quality-of-life will be undertaken by using patient KDQOL-SF v1.3 questionnaires. These tests will be repeated at regular intervals. Blood tests for estimation of residual renal function and markers of renal anemia, bone disease and cardiac load will be performed at regular intervals and will be compared between the two groups (incremental HD vs. conventional HD groups). These measurements will help in the evaluation of impact of incremental HD on patients' health and well-being. The completion rates of these tests will provide important information about whether they should be included in a future larger trial of incremental HD. Participants undergoing incremental HD will be invited to take part in semi-structured interviews aimed at exploring patients' experiences of receiving incremental HD and their participation in the study. Data from this study will be used to test if it is feasible to use deaths (or a combination of deaths and cardiovascular events) as the main outcome measure in a future definitive trial on incremental HD. The data should enable a sample-size calculation for a future full-scale trial.
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.
In this retrospective study, the serum levels of Bisphenol A (BPA) and three BPA analogs, namely, bisphenol B (BPB), bisphenol S (BPS), and bisphenol F (BPF), in patients with CKD, patients on dialysis therapy and healthy control were investigated to find out if BPA and BPA analogs accumulates in patients with chronic kidney disease (CKD), and if hemodialysis filters contribute to bisphenol burden in patients on hemodialysis (HD).
Protein-energy wasting (PEW), a hypercatabolic state characterized by loss of muscle mass and fuel reserves, is highly prevalent in hemodialysis patients. Nutritional status and body composition are closely linked to morbidity, mortality and quality of life. Lean tissue mass (LTM) appears to be the best read-out for the association between nutritional status and outcomes. Intradialytic parenteral nutrition (IDPN) is occasionally used with the aim to reduce loss of LTM, but its efficacy has not been established. The goal of this study is to study the effect of IDPN on changes in LTM in hemodialysis patients.