Current hemodialysis techniques fail to efficiently remove protein-bound uremic toxins (such as p-cresyl sulfate (p-CS) or indoxyl sulfate (IS)) due to their strong binding to serum albumin. The accumulation of these toxins in end-stage renal failure patients on hemodialysis is strongly suspected to contribute to the significant morbidity and mortality observed in this population. Pre-clinical studies conducted previously showed that medium-chain fatty acids (such as sodium octanoate and decanoate), which are natural ligands of albumin, can effectively displace the binding of uremic toxins on serum albumin and thus promote their elimination during a hemodialysis session. Medialipide® 20% (Braun) is an emulsion of medium chain triglycerides (MCT) (6 to 12 carbons) used in parenteral nutrition. Medialipide® constitutes a relevant clinical formulation for the administration of octanoate and decanoate because it contains 94% of sodium octanoate and decanoate. In this study, a proof of concept intervention will be carried out to study the effect on the clearance uremic toxins clearance of the perfusion of Medialipide® emulsion (as a sodium octanoate and decanoate donor) in patients during their hemodialysis session compared to a control situation Sodium chloride (NaCl) 0,9%).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
12
Each patient will receive during a 4 hours hemodialysis session a perfusion of Medialipide 20% at a rate of 0,11 g/kg/h. Medialipide will be perfused using the venous line connected to the hemodialysis machine.
Each patient will receive during a 4 hours hemodialysis session a perfusion of NACL 0,9% with a volume corresponding to the one of Medialipide 20%. NaCl 0,9% will be perfused using the venous line connected to the hemodialysis machine.
Serial biological sampling for the measurement of different blood concentrations : electrolytes, serum protein , albumin, renal function (urea, creatinine), hemoglobin, hematocrit, liver test, lipid test, ketone bodies, 6 uremic toxins (including IS and p-CS), sodium octanoate and decanoate.
Hopital Edouard Herriot
Lyon, France
Dialytic clearance of p-CS
Dialysis clearance of p-CS (millilitre/minute) is defined as follows: Clearance = Qd X (C dialysate/C arterial) with Qd corresponding to the dialysate flow rate, C dialysate the concentration of p-CS in the dialysate, C arterial the concentration of p-CS in the blood sampled at the arterial port of the dialyser.
Time frame: until 240 minutes after haemodialysis session
Reduction fraction (RF) of p-CS
Reduction fraction will be measured in percentage Reduction fraction will be compared between the medialipide perfusion situation and the NACL 0,9% perfusion situation. RF (%) = (Concentration of p-CS at T0 - Concentration of p-CS at T240)/Concentration of p-CS at T0
Time frame: At 240 minutes after haemodialysis session
Dialytic clearance of Indoxyl sulfate
Dialysis clearance of Indoxyl sulfate (millilitre/minute) is defined as follows: Clearance = Qd X (C dialysate/C arterial) with Qd corresponding to the dialysate flow rate, C dialysate the concentration of Indoxyl sulfate in the dialysate, C arterial the concentration of Indoxyl sulfate in the blood sampled at the arterial port of the dialyser.
Time frame: until 240 minutes after haemodialysis session
Reduction fraction (RF) of Indoxyl sulfate
Reduction fraction will be measured in percentage Reduction fraction will be compared between the medialipide perfusion situation and the NACL 0,9% perfusion situation. RF (%) = (Concentration of Indoxyl sulfate at T0 - Concentration of Indoxyl sulfate at T240)/Concentration of Indoxyl sulfate at T0
Time frame: At 240 minutes after haemodialysis session
Dialytic clearance of hippuric acid
Dialysis clearance of hippuric acid (millilitre/minute) is defined as follows: Clearance = Qd X (C dialysate/C arterial) with Qd corresponding to the dialysate flow rate, C dialysate the concentration of hippuric acid in the dialysate, C arterial the concentration of hippuric acid in the blood sampled at the arterial port of the dialyser.
Time frame: until 240 minutes after haemodialysis session
Reduction fraction (RF) of hippuric acid
Reduction fraction will be measured in percentage Reduction fraction will be compared between the medialipide perfusion situation and the NACL 0,9% perfusion situation. RF (%) = (Concentration of hippuric acid at T0 - Concentration of hippuric acid at T240)/Concentration of hippuric acid at T0
Time frame: At 240 minutes after haemodialysis session
Dialytic clearance of p-cresyl glucuronide
Dialysis clearance of p-cresyl glucuronide (millilitre/minute) is defined as follows: Clearance = Qd X (C dialysate/C arterial) with Qd corresponding to the dialysate flow rate, C dialysate the concentration of p-cresyl glucuronide in the dialysate, C arterial the concentration of p-cresyl glucuronide in the blood sampled at the arterial port of the dialyser.
Time frame: until 240 minutes after haemodialysis session
Reduction fraction (RF) of p-cresyl glucuronide
Reduction fraction will be measured in percentage Reduction fraction will be compared between the medialipide perfusion situation and the NACL 0,9% perfusion situation. RF (%) = (Concentration of p-cresyl glucuronide at T0 - Concentration of p-cresyl glucuronide at T240)/Concentration of p-cresyl glucuronide at T0
Time frame: At 240 minutes after haemodialysis session
Dialytic clearance of indol acetic acid
Dialysis clearance of indol acetic acid (millilitre/minute) is defined as follows: Clearance = Qd X (C dialysate/C arterial) with Qd corresponding to the dialysate flow rate, C dialysate the concentration of indol acetic acid in the dialysate, C arterial the concentration of indol acetic acid in the blood sampled at the arterial port of the dialyser.
Time frame: until 240 minutes after haemodialysis session
Reduction fraction (RF) of indol acetic acid
Reduction fraction will be measured in percentage Reduction fraction will be compared between the medialipide perfusion situation and the NACL 0,9% perfusion situation. RF (%) = (Concentration of indol acetic acid at T0 - Concentration of indol acetic acid at T240)/Concentration of indol acetic acid at T0
Time frame: At 240 minutes after haemodialysis session
Dialytic clearance of uric acid
Dialysis clearance of indol acetic acid (millilitre/minute) is defined as follows: Clearance = Qd X (C dialysate/C arterial) with Qd corresponding to the dialysate flow rate, C dialysate the concentration of uric acid in the dialysate, C arterial the concentration of uric acid in the blood sampled at the arterial port of the dialyser.
Time frame: until 240 minutes after haemodialysis session
Reduction fraction (RF) of uric acid
Reduction fraction will be measured in percentage Reduction fraction will be compared between the medialipide perfusion situation and the NACL 0,9% perfusion situation. RF (%) = (Concentration of uric acid at T0 - Concentration of uric acid at T240)/Concentration of uric acid at T0
Time frame: At 240 minutes after haemodialysis session
Dialytic clearance of 3-Carboxy-4-methyl-5-propyl-2-furanpropionic acid
Dialysis clearance of indol acetic acid (millilitre/minute) is defined as follows: Clearance = Qd X (C dialysate/C arterial) with Qd corresponding to the dialysate flow rate, C dialysate the concentration of 3-Carboxy-4-methyl-5-propyl-2-furanpropionic acid in the dialysate, C arterial the concentration of 3-Carboxy-4-methyl-5-propyl-2-furanpropionic acid in the blood sampled at the arterial port of the dialyser.
Time frame: until 240 minutes after haemodialysis session
Reduction fraction (RF) of 3-Carboxy-4-methyl-5-propyl-2-furanpropionic acid
Reduction fraction will be measured in percentage Reduction fraction will be compared between the medialipide perfusion situation and the NACL 0,9% perfusion situation. RF (%) = (Concentration of 3-Carboxy-4-methyl-5-propyl-2-furanpropionic acid at T0 - Concentration of 3-Carboxy-4-methyl-5-propyl-2-furanpropionic acid at T240)/Concentration of 3-Carboxy-4-methyl-5-propyl-2-furanpropionic acid at T0
Time frame: At 240 minutes after haemodialysis session
Tolerance of medialipide perfusion (%)
Percentage of patients with the occurrence of at least one symptom including: nausea, emesis, headaches during the hemodialysis session
Time frame: until 240 minutes after haemodialysis session
Safety of medialipide perfusion
% of patients who presented one of the following event : hypertriglyceridemia \> 4 gram/liter, alteration of liver test (cytolysis \> 2 times the normal value, cholestasis \> 2 times the normal value), or hemolysis.
Time frame: until 7 days after the last haemodialysis session
octanoate blood concentration
Time frame: until 240 minutes after haemodialysis session
decanoate blood concentration
Time frame: until 240 minutes after haemodialysis session
clearance of octanoate
Dialysis clearance of Indoxyl sulfate (millilitre/minute) is defined as follows: Clearance = Qd X (C dialysate/C arterial) with Qd corresponding to the dialysate flow rate, C dialysate the concentration of octanoate in the dialysate, C arterial the concentration of octanoate in the blood sampled at the arterial port of the dialyser.
Time frame: until 240 minutes after haemodialysis session
clearance of decanoate
Dialysis clearance of Indoxyl sulfate (millilitre/minute) is defined as follows: Clearance = Qd X (C dialysate/C arterial) with Qd corresponding to the dialysate flow rate, C dialysate the concentration of decanoate in the dialysate, C arterial the concentration of decanoate in the blood sampled at the arterial port of the dialyser.
Time frame: until 240 minutes after haemodialysis session
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