Comparing the effects of MAP 60, 75 and 90 mmHg, respectively, on renal blood flow, glomerular filtration rate and renal oxygen demand in patients with terminal liver failure directly after liver transplantation.
Patients with terminal liver failure are at risk to develop postoperative acute kidney injury (AKI) after liver transplantation. This is associated with augmented morbidity (CRRT/HD), and mortality. Hypotension perioperatively is a risk factor for the development of postoperative AKI. In the investigators' study, the researchers aim to investigate the importance of the level of mean arterial pressure (MAP) on functional renal parameters directly after liver transplantation. 12 patients will be included after given informed and written consent. Directly after the operation, the patients stay sedated and ventilated, have reached normovolaemia and are in need of vasopressor for adequate blood pressure. MAP is varied using the vasopressor norepinephrine. Central hemodynamics will be measured using arterial catheter, PiCCO and a central vein catheter. Renal data measures (RBF (renal blood flow), RPF (renal plasma flow), FF (filtration fraction), GFR (glomerular filtration rate), RVR (renal vascular resistance), Arterial-renal vein oxygen content difference, RVO2 (renal oxygen consumption), and RO2extr (Renal oxygen extraction)), are conducted via a renal vein thermodilution catheter: A 8-Fr catheter is introduced into the left or right renal vein, via the right femoral vein under fluoroscopic guidance, position being confirmed by venography using ultra-low doses of iohexol. After the collection of blood and urine blanks, an intravenous priming dose of chromium ethylenediaminetetraacetic acid (51Cr-EDTA) is given, followed by an infusion at a constant rate, individualized to BSA and preoperative serum creatinine. Serum 51Cr-EDTA activity from arterial and renal vein blood is measured using a well counter. FF is measured as extraction of Cr-EDTA. After one hour and two control measurements and urine/blood sampling on baseline MAP 75 mmHg, the investigators will randomise to continue to MAP 90 mmHg or 60 mmHg reached by altering the infusion rate of norepinephrine. Measurements, blood sampling and urine collection according to the above description, are performed after 30 min at each level, finishing at 75 mmHg with two control measurements with 30 mins in between.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
12
In normovolemic patients directly after liver transplantation, target mean arterial pressure is altered using norepinephrine according to study protocol.
Infusion rate of norepinephrine is raised and lowered, respectively, in order to reach MAP 60, 75 and 90 mmHg in patients already requiring vasopressor for adequate blood pressure control.
Extraction of 51Cr-EDTA measured for FF and GFR
Sahlgrenska University Hospital, dpt of anesthesiology and intensive care
Gothenburg, VGR, Sweden
Change in Glomerular filtration rate (ml/min)
Change from baseline 75 mmHg to 60 and 90 mmHg, respectively
Time frame: 60 min at baseline (75 mmHg), 30 min at randomized level 1(either 60 or 90 mmHg), 30 min at randomized level 2 (either 60 or 90 mmHg), 60 min after returning to baseline 75 mmHg again
Change in Renal blood flow (ml/min)
Measured via retrograde thermodilution catheter placed in renal vein. Change from baseline 75 mmHg to 60 and 90 mmHg, respectively.
Time frame: 60 min at baseline (75 mmHg), 30 min at randomized level 1(either 60 or 90 mmHg), 30 min at randomized level 2 (either 60 or 90 mmHg), 60 min after returning to baseline 75 mmHg again
Change in Renal oxygen consumption (ml/min)
Blood samples and measurements of blood flow via retrograde thermodilution catheter placed in renal vein. RBF × (CaO2-CrvO2) Change from baseline 75 mmHg to 60 and 90 mmHg, respectively
Time frame: 60 min at baseline (75 mmHg), 30 min at randomized level 1(either 60 or 90 mmHg), 30 min at randomized level 2 (either 60 or 90 mmHg), 60 min after returning to baseline 75 mmHg again
Change in Filtration fraction (%)
Extraction of Cr-EDTA, blood samples from renal vein catheter. Change from baseline 75 mmHg to 60 and 90 mmHg, respectively.
Time frame: 60 min at baseline (75 mmHg), 30 min at randomized level 1(either 60 or 90 mmHg), 30 min at randomized level 2 (either 60 or 90 mmHg), 60 min after returning to baseline 75 mmHg again
Change in Renal oxygen supply/demand relationship
Renal oxygen consumption compared to renal oxygen delivery (CaO2-CrvO2/CaO2). Change from baseline 75 mmHg to 60 and 90 mmHg, respectively.
Time frame: 60 min at baseline (75 mmHg), 30 min at randomized level 1(either 60 or 90 mmHg), 30 min at randomized level 2 (either 60 or 90 mmHg), 60 min after returning to baseline 75 mmHg again
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