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NCT07335471
Background and Purpose: This clinical study aims to explore and validate two innovative treatment strategies to address two major challenges faced by patients on maintenance hemodialysis (uremia): the high incidence of cardiovascular and cerebrovascular complications and the common occurrence of ultrafiltration intolerance/refractory intradialytic hypotension. Study Design: The research consists of two main parts, employing a prospective, interventional design. Hemoperfusion (HP) for Cardiovascular/Cerebrovascular Complications: The investigators plan to enroll approximately 200 uremic patients on dialysis at the study center. Initially, a detailed survey of their existing cardiovascular health status and related risk factors will be conducted. Subsequently, a standardized hemoperfusion treatment platform will be established and evaluated, observing its effects on removing relevant toxins and improving biochemical markers. Finally, a subset of patients who have already developed such complications will be invited to participate in a comparative study. They will be randomly assigned to receive either conventional dialysis or conventional dialysis combined with intensified hemoperfusion therapy to systematically assess the efficacy and safety of the combined regimen. Continuous High-Glucose Infusion for Ultrafiltration Intolerance: For patients suffering from severe ultrafiltration intolerance and refractory hypotension during glucose-free dialysis that does not respond to standard therapies (36 patients have been enrolled), an interventional study was conducted. Patients received a continuous infusion of 50% glucose solution during dialysis, supplemented by glucose boluses as needed. The study primarily observed whether this protocol could safely extend dialysis duration, increase ultrafiltration volume, and improve dialysis adequacy and related symptoms. Participants: The study will be conducted at the Blood Purification Center of Suzhou Hospital. The main participants are adults aged 18 or older, diagnosed with uremia and receiving maintenance hemodialysis. For the cardiovascular/cerebrovascular part, patients must meet specific inclusion criteria; for the ultrafiltration intolerance part, patients must be diagnosed with refractory intradialytic hypotension unresponsive to standard therapy. Study Procedures: All participants will provide informed consent before joining the study. The study will collect patient medical history, conduct physical examinations, blood tests, and questionnaires according to the protocol. Patients receiving hemoperfusion or high-glucose infusion interventions will undergo close monitoring of vital signs and efficacy evaluations before and after treatment. Some participants may be scheduled for regular follow-up to understand their long-term outcomes. Potential Benefits and Risks: Participants may benefit directly from the study, for example: through the new treatment strategies, they may achieve better control of cardiovascular risks, reduce discomfort associated with hypotension (such as dizziness and cramping), and increase ultrafiltration volume and adequacy per session, potentially improving quality of life and long-term health outcomes. The risks involved are primarily routine medical risks associated with hemoperfusion or intravenous glucose infusion, such as bleeding or infection at the puncture site, blood glucose fluctuations, etc. All procedures will be performed by experienced medical staff under strict supervision to maximize patient safety. Social Significance: The results of this study are expected to provide clinicians with new, evidence-based treatment options for managing the complex and challenging complications in uremic dialysis patients. If proven effective and safe, these protocols may be incorporated into clinical practice guidelines, helping more patients achieve adequate and comfortable dialysis, ultimately improving patient prognosis and quality of life.
NCT04163614
Kidney failure has been recognized as one of the most costly chronic conditions among United States Veterans. Approximately 13,000 Veterans develop kidney failure each year, and most require hemodialysis initiation. Hemodialysis patients suffer significantly increased risk of death and hospitalizations, and excessive body fluid is a major cause of this. While empiric aggressive fluid removal during dialysis is one approach to limit fluid overload, this can cause dangerous decreases in blood pressure during dialysis that independently contribute to the high death rate. In this study, I aim to test a new strategy that prescribes fluid removal based on a patient's recent blood pressure patterns during dialysis. This clinical trial will compare my strategy to standard care and assess the outcomes of overall blood pressure change between dialysis treatments in addition to the number of times the blood pressure becomes dangerously low during dialysis. Another aim is to determine how differences in the structure and function of the heart influence blood pressure during dialysis.
NCT05936710
During intermittent hemodialysis (IHD), the occurrence of intradialytic hemodynamic instability (IHI) is frequent in ICU and impacted morbidity and mortality. Bicarbonate dialysate buffer improves hemodynamic tolerance compared to acetate dialysate buffer. However, bicarbonate dialysate buffer still contains a lower concentration of acetate, which could contribute to hemodynamic instability. Recently, citrate-based dialysate in bicarbonate hemodialysis instead of acetate have been proposed. They have the appropriate authorizations for routine use. The aim of this study is to compare acetate- vs citrate-based dialysate in terms of hemodynamic tolerance and effectiveness.
NCT07179705
This single-center, crossover randomized controlled trial (HyPIR-ICU) investigates whether a Hypotension Prediction Index (HPI)-guided management strategy can reduce intradialytic hypotension (IDH) during prolonged intermittent renal replacement therapy (PIRRT) in critically ill patients. All participants must have an indwelling arterial catheter for continuous hemodynamic monitoring.
NCT07033260
This multicenter, prospective observational study aims to evaluate the predictive value of carotid corrected flow time (FTc) and peak flow velocity variability (PFVV) for hypotension during maintenance hemodialysis. Conducted at The First Affiliated Hospital of Wannan Medical College, Wuhu City Second People's Hospital, Wuhu Hospital of Chinese Traditional Medicine, Wuhu Jinghu District Hospital, and Wuhu Guangji Hospital, the study will include adult patients (≥18 years) with end-stage renal disease (ESRD) on long-term hemodialysis for at least three months. Patients with acute kidney injury, severe cardiac conditions, or other factors affecting results will be excluded. Ultrasound assessments of FTc and PFVV will be performed once, at 1 hour after dialysis initiation. Blood pressure will be monitored during the procedure. The primary outcome is to determine the sensitivity, specificity, and optimal cutoff points of FTc and PFVV in predicting intradialytic hypotension. The estimated sample size is 183 participants, with analysis performed using ROC curves and multivariate regression. The protocol complies with ethical standards and aims to develop a simple, non-invasive, real-time tool to improve patient safety and individualized management during hemodialysis.
NCT05517993
Intradialytic hypotension (IDH), a common complication during hemodialysis (HD) could increase patients' morbidity and mortality. Previous studies considered that some Chinese herbal medicine (CHM) plays a complementary role in reducing the frequency of IDH. This trial is aimed to investigate the effect of Gui-Lu-Er-Xian-Jiao-Wan (GLEXJW) in patients with intradialytic hypotension.
NCT03249532
Online hemodiafiltration confers a reduced mortality risk. However, it is not clear why HDF improved survival. To gain more insight in this issue, the effect of 4 dialysis techniques (differing in dialysate temperature and the absence/presence of convective clearance) on intradialytic hemodynamic stability and cardiac function will be investigated in a prospective cross over trial.
NCT03080441
This is a research study to test the application of FDA-approved, non-invasive device (NICaS) that measure the performance of your heart during HD treatment.
NCT00576524
The purpose of this study is to evaluate the application of the impedance threshold device during hemodialysis in children to optimize fluid removal, reduce the incidence of complications (such as cramps,vomiting and hypotension), and device tolerance.