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Dialysis Amyloidosis clinical trials

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NCT ID: NCT04160351 Completed - Quality of Life Clinical Trials

A Randomised, Open-Label, Cross Over Group, Single-Centre Controlled Study To Evaluate The Clinical Performance Of Medium Cut-Off Membrane Dialyser Compared With High Flux Dialyser Among Patients With Chronic Haemodialysis

HD-1
Start date: December 1, 2019
Phase: N/A
Study type: Interventional

This is an open label, cross-over group, single-centre randomised controlled trial comparing Medium Cut Off Dialyser with High Flux Dialyser in patients with end-stage renal disease on chronic haemodialysis.

NCT ID: NCT03211676 Completed - Clinical trials for End Stage Renal Disease

Comparison of Hemodialysis With Medium Cut-off Dialyzer (Theranova) and High Flux Dialyzer

THERANOVA
Start date: June 7, 2017
Phase: N/A
Study type: Interventional

The aim of this study is to evaluate the removal of midle molecules and inflammatory cytokines with the Theranova-500 ™ dialyzer (medium cut-off membrane, Baxter®) versus a high flux dialyzer Elisio-21H ™ (High-flux membrane, Nipro®) in chronic hemodialysis. Evaluation of nutritional parameters, inflamatory parameters and oxidative stress will also be carried out. Finally, the investigators will compare hepcidin levels and the erythropoietin resistance index between the two groups.

NCT ID: NCT02952144 Recruiting - Clinical trials for Dialysis Amyloidosis

Post Approval Study of Lixelle for the Treament of Dialysis-Related Amyloidosis

Start date: October 2015
Phase: N/A
Study type: Interventional

Dialysis-related amyloidosis (DRA) is a serious complication of long-term hemodialysis (HD). Its pathogenic mechanism involves accumulation of β2-microglobulin (β2M) in the blood. β2M is produced by most cells in the body and is metabolized in the kidney in healthy individuals. However, in HD patients with renal dysfunction, β2M which is not removed entirely by HD accumulates excessively in the blood. Then it forms amyloid fibrils that are deposited in bones, joints, and soft tissues. The fibrils are further modified by advanced glycation end products (AGE), inducing local macrophage infiltration and production of cytokines leading to chronic inflammation and activation of osteoclasts. Consequently, severe complications with various symptoms are developed, which are collectively referred to as DRA. Lixelle® is a whole-blood β2M apheresis column developed to adsorb and eliminate β2M selectively from the blood of DRA patients. The treatment is performed with Lixelle® connected upstream of the dialyzer in series on a HD circuit in every session. The Lixelle® column contains porous cellulose beads with covalently linked hexadecyl alkyl chain ligands, which selectively adsorb β2M, via a molecular sieving effect because of its porous structure and hydrophobic interaction with ligands. Lixelle® has been used to relieve symptoms and prevent the progression of DRA in Japan since 1996, when health insurance coverage and reimbursement for the treatment were approved by Japanese Ministry of Health, Labor, and Welfare. Improvement of the activities of daily living (ADL) and remission of arthralgia by Lixelle® treatment has been shown in several clinical studies.

NCT ID: NCT02064153 Completed - Hypotension Clinical Trials

Studying the Effect of Dialysate Temperature on Toxin Removal and Hypotension

Start date: July 2013
Phase: N/A
Study type: Interventional

Hemodialysis (HD) is widely used treatment for end stage renal diseases (ESRD) patients. The chief aims of HD are solute and fluid removal. Decades of practice have improved HD care, but more can be done to improve morbidity and mortality. Enhancing toxin removal is an important consideration for improved patient outcomes. Also, decreasing the incidence of intra-dialytic hypotensive (IDH) episodes (dominant in Singapore patient cohort) can significantly reduce associated morbidities and mortality. A simple maneuver for clinicians is the dialysate temperature. Literature suggests that a lower dialysate temperature (35ºC) results in reduced hypotensive episodes by vasoconstriction. Conversely, higher dialysate temperature resulting in higher blood temperature decreases the peripheral resistance, leading to increased toxin removal, but may cause IDH episodes partly due to vasodilation. Optimal manipulation of the dialysate temperature is therefore primary handles to obtain the improved patient outcomes. In this study, the effect of dialysate temperature (cool vs. warm dialysate) on toxin removal will be studied. In both the interventions, outcome measure will be patient hemodynamic response and amount of toxins removed. The spent dialysate will be collected to study the quantum of toxin removed.