Hepatectomy Clinical Trial
Official title:
Phase 4: Study of Ketamine Inhibition of Interleukin 6 in Hepatic Resections Requiring Temporary Porto-arterial Occlusion
The purpose of this study is to determine whether ketamine is effective to inhibit interleukin 6 synthesis in hepatic resections requiring temporary porto-arterial occlusion.
Introduction: Many complications in liver resection surgery, such as post-operative hepatic
insufficiency, sepsis, and multi-organ liver failure, have been attributed to
ischemia-reperfusion injury and the release of pro-inflammatory agents. Previous studies had
shown that ketamine inhibited the synthesis of interleukin 6 (IL-6) in some cardiac
surgeries, and that IL-6 levels had a direct correlation with mortality in critically ill
patients.
Goal: The purpose of our study was to determine the effect of ketamine on IL-6 levels in
patients undergoing liver resections with temporary porto-arterial occlusion (Pringle
maneuver).
Material and Methods: Our prospective, controlled, randomized, and blinded study was approved
by the Research Ethics Committee of the Hospital Italiano of Buenos Aires (CEPI). All
procedures were carried out according to the Declaration of Helsinski. All patients
voluntarily consented to the study and signed the appropriate informed consent approved by
the CEPI.
Inclusion criteria were age of 21 years or older and planned liver resection with Pringle
maneuver lasting 30-60 minutes. Those with chronic illness requiring corticosteroids,
cirrhosis, hemodynamic instability prior to the surgery, diabetes, sepsis, surgical
interventions or chemotherapy treatments within the past 30 days, pregnancy, illnesses that
could potentially affect the hepatic circulation, arterial or ocular hypertension
(contraindications for the use of ketamine), ketamine allergy, preoperative portal
embolization / radiofrequency ablation, or requiring emergency surgeries were not considered.
From March 2002 to June 2008, 44 consecutive patients agreed to participate and were enrolled
in the study. Those who did not require the Pringle maneuver during the resection, who did
not undergo the planned procedure, or whose hematocrit was less than 20% for over 30 minutes
were excluded.
Patients were assigned to one of two groups according to a computer generated randomization.
The study group received ketamine 0.25 mg/kg, while the control group was administered an
identical volume of saline. Syringes containing 10 ml of either ketamine or saline were
delivered by the hospital pharmacy personnel to the corresponding anesthesiologist, who was
blinded to their contents. In order to calculate the correct dose that was administered
immediately after induction of anesthesia, the ketamine and placebo concentration was
established at 10 mg/ml. Both anesthesia and surgical teams were the same in all cases.
Members of both teams, as well as all personnel involved with blood collection remained
blinded at all times.
All patients were transported to the operating room with an intravenous line in place and
premedicated with midazolam 0.04 mg/Kg. Once in the operating room, they received intravenous
antibiotics, non-invasive cardiac monitoring, blood pressure monitoring, and pulse oxymetry.
Remifentanil 0.25 micrograms/kg/min was administered prior to induction with sodium
thiopental 2-2.5 mg/Kg. Vecuronium 0.1 mg/Kg was used for muscle relaxation. After waiting
approximately 3 minutes, patients were intubated endotracheally and a nasogastric tube was
placed. Remifentanil 0.5 micrograms/kg/min, ibuprofen 10 mg/Kg, and morphine 0.15 mg/kg were
administered during the case.
Anesthesia was maintained with Sevorane in the setting of an FiO2 of 0.70. Mechanical
ventilation was adjusted to allow an EtCO2 of 25-30 mmHg and a plateau pressure < 30 cmH2O.
An arterial line was placed after induction of anesthesia to serve for invasive monitoring as
well as for blood sampling. A central line was placed in the right internal jugular vein to
monitor intra-operative central venous pressure (CVP). All patients received body warmers and
warmed fluids. We aimed for a CVP < 5 cm H2O at the time of resection to diminish bleeding.
Intravenous fursemide at doses of 10-20 mg as well as fluid restriction were employed when
necessary in order to reach the desired value. Potassium levels were kept at or above 3.5
mmol/lt. Phenylephrine was used when necessary to maintain a median arterial pressure of at
least 70 mmHg.
Patients who underwent extensive resections were admitted to the Intensive Care Unit (ICU)
and maintained on mechanical ventilation for 6-8 hours prior to extubation. In all other
cases patients were extubated at the end of the procedure, observed in the post anesthesia
care unit (PACU) for at least 8 hours, and subsequently transferred to the floor if
hemodynamically stable. Pain management in patients extubated intraoperatively was with
synthetic opioids (dextropropoxifen 1 mg/kg and dipyrone 2.5 mg. In cases of persistent pain
(4 or more in a visual scale of 10), analgesia was supplemented with 2 mg of morphine every
20 minutes until relief of symptoms, somnolence, or a respiratory rate of 8 or less per
minute was observed.
Blood samples for IL-6 levels were obtained prior to surgery upon placement of the first
intravenous line, and at 4, 12, 24, 72 and 120 hours after the Pringle maneuver, on the
postoperative period. In all cases peripheral venous blood was sampled at a site where no
contamination with any of the infused fluids could occur. Immediately after obtaining the
sample, the blood was centrifuged, the plasma isolated, and frozen to -70 degrees centigrade.
In all cases, two plasma tubes of each sample were individually labeled and stored.
IL 6 was quantified by means of the IL 6 EASIA (BIOSOURCE, Europe Belgium) based on
oligoclonal antibodies coupled with monoclonal antibodies to various IL 6 epitopes. This
method showed sensitivity for both low and standard IL 6 ranges. The results expressed in our
manuscript represent the mean of both samples obtained for each time point of the study.
Statistical analysis Based on previous studies that reported a > 100 picograms/mL difference
among both groups with a SD < 50 picograms/mL, we based our calculations on a predicted
difference among both groups of 50 picograms/mL with a SD of 50 picograms/mL (17). Based on
the fact that since sixteen patients in each group would allow rejection of the null
hypothesis with an 80% confidence in the setting of a difference >50 picograms/mL among both
groups, a total of 36 patients were randomized. P<0.05 was considered significant.
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