Hemodialysis Clinical Trial
Official title:
Quantification of Dialysis Performance of Different Dialyzer Membranes With Different Coagulation Strategies, Using a Reference microCT Scanning Technique
Coagulation within the dialyzer membrane fibres is an obvious biological sign of
bio-incompatibility. To avoid clotting during extracorporeal treatment, an anticoagulant is
added to the circuit, resulting in an increased risk for bleeding complications.
In addition, there is evidence that a substantial number of fibers can become blocked before
this is reflected in routinely observed parameters, or in termination of the dialysis
session. Little is known about the impact of such subclinical clotting on dialyzer
performance in terms of solute clearance.
Membrane clogging due to deposition of proteins and red blood cells on the dialysis membrane
may influence both the diffusive and convective transport characteristics of the dialyzer
membrane before leading to complete dialyzer clotting.
In 2018, the invesitgators described a method to objectively count the number of blocked
fibres inside a dialyzer using a micro-CT scanning technique.
In the present trial, the investigators use this method to assess the resistance of the
dialyzer to clotting, and to evaluate the impact of subclinical fibre blocking on solute
removal and thus performance of a dialyzer during a dialysis session.
The aim of this randomized cross-over study is to objectively quantify the performance of
different dialyzer membranes: ATA™ membrane in the Solacea™ dialyzer, polysulfone membrane in
the FX800 dialyzer, and the heparin-coated AN membrane in the Evodial dialyzer, and this with
different anticoagulation strategies.
This single centre, randomized cross-over study includes ten consecutive stable chronic
hemodialysis (HD) patients who experienced stable dialysis sessions during the last 4 weeks,
and had no known coagulation disorder, active inflammation or malignancy.
Double-needle vascular access is achieved through a native arterio-venous fistula or a
well-functioning double lumen tunnelled central venous catheter.
In a first test series, each patient is dialyzed for 240min (at midweek) in 4 different
regimens, randomly using 2 different dialyzers and 2 different anticoagulation schemes.
Patients receive their regular brand of Low-Molecular-Weight Heparin anticoagulation at the
beginning of the dialysis session, and this randomly either at their regular dose (full dose
1/1) or at only 50% of their regular dose (half dose 1/2). All test sessions are performed
with blood flow at 300mL/min and dialysate flow at 500mL/min in post dilution
hemodiafiltration (HDF) mode (substitution flow 75mL/min). Ultrafiltration rates is set
according to the patient's interdialytic weight gain and clinical status:
1. ATA™ Solacea 19H - HDF - 1/1 anticoagulation
2. ATA™ Solacea 19H - HDF - 1/2 anticoagulation
3. polysulfone FX800 - HDF - 1/1 anticoagulation
4. polysulfone FX800 - HDF - 1/2 anticoagulation
During the 4 experimental midweek sessions, blood is sampled from the arterial and venous
blood lines, and spent dialysate is sampled from the outlet line, all at 60min after the
dialysis start. Blood samples are immediately centrifuged and serum and dialysate are stored
at -80°C until batch analysis.
Concentrations of urea, kappa and lambda free light chains, and myoglobin are determined.
Extraction ratios and adsorption on the membrane are calculated from concentrations.
At the end of the dialysis session, a standard rinsing procedure of the hemodialyzer is
performed using exact 300mL rinsing solution. Next, the hemodialyzer is dried using
continuous positive pressure ventilation. Dialyzer fibre blocking is visualized in the
dialyzer outlet potting using a 3D CT scanning technique on micrometer resolution. HECTOR is
a High Energy CT scanner Optimized for Research, built by the Ghent University Centre for
X-ray Tomography (UGCT) in collaboration with the UGCT spin-off company XRE (Gent, Belgium).
In front of the X-ray source, the dialyzer is mounted vertically on a precision rotation
stage, and radiographies were recorded over 360° with an angular interval of 0.15°. Scan
conditions are optimized to maximize the signal-to-noise ratio based on the sample size and
structure, and the scanner properties. The tube voltage is set at 80kV, at a power of 20
Watts, the maximal power that allowed imaging at a resolution of 25µm. A total of 2401
projections are recorded with 500ms exposure each, resulting in a total exposure time of 20
minutes. Acquired images at 0 (projection 1) and 360° (projection 2401) are compared to
exclude movement of the hemodialyzer during the scanning process. Reconstruction of the raw
projection data is performed with the Octopus Reconstruction software package, licensed by
XRE23.
Fibers are counted in the central cross-section of the dialyzer outlet potting in a
computer-based way using the Fiji image processing toolkit of ImageJ analysis software
(ImageJ 1.51H, NIH, Bethesda, USA), an open-source platform for biological-image analysis.
In a second test series in 10 stable HD patients, no blood sampling is performed but
dialyzers are scanned post dialysis. The following different dialyzers in HD modus at midweek
are tested:
1. ATA™ Solacea 19H - HD - 1/1 anticoagulation
2. ATA™ Solacea 19H - HD - 1/2 anticoagulation
3. polysulfone FX800 - HD - 1/1 anticoagulation
4. polysulfone FX800 - HD - 1/2 anticoagulation
5. polysulfone FX800 - HD - 1/2 anticoagulation - with predialysis albmuin priming of the
membrane
6. Evodial - HD - no anticoagulation
7. Evodial - HD - no anticoagulation - with predialysis albmuin priming of the membrane
In a third test series in 10 stable HD patients, no blood sampling is performed but dialyzers
are scanned post dialysis. The following different dialyzers at midweek are tested:
1. ATA™ Solacea 19H - pre dilution HDF (substitution 150mL/min) - 1/4 anticoagulation
2. ATA™ Solacea 19H - post dilution HDF (substitution 75mL/min) - 1/4 anticoagulation
3. ATA™ Solacea 19H - HD - 1/4 anticoagulation
4. ATA™ Solacea 19H - pre dilution HDF (substitution 150mL/min) - no anticoagulation
5. ATA™ Solacea 19H - post dilution HDF (substitution 75mL/min) - no anticoagulation
6. ATA™ Solacea 19H - HD - no anticoagulation
First outcome measure: relative number of open fibers in each tested dialyzer. Second outcome
measure: dialyzer performance (extraction ratio, adsorption).
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