On-pump coronary artery bypass graft (CABG) and valve replacement surgeries are high-risk procedures. Among the risk factors for postoperative complications, perioperative hyperglycemia and blood glucose variability have been reported to be associated with increased morbidity and mortality. The treatment of hyperglycemia using intravenous insulin infusion improves the prognosis in cardiac surgery patients. However, the determinants of postoperative blood glucose variability and the mechanisms leading to its deleterious impact are unknown. Thus, to date, there is no therapeutic intervention that could effectively prevent and treat the deleterious impact of glycemic variability on postoperative outcome. The purpose of the study is to evaluate whether perioperative alteration of the autonomic nervous system and preoperative blood glucose variability could be related to perioperative glycemic variability.
The main objective is to describe the relationship between preoperative glycemic variability and glycemic variability during the first 48 postoperative hours. The secondary objectives are : 1. to describe the relationship between preoperative glycemic variability and glycemic variability during the first 48 hours postoperative according to: * diabetic and non-diabetic status * the type of surgical intervention 2. to describe the relationship between the parameters evaluating the preoperative activity of the autonomic nervous system and: * preoperative glycemic variability * glycemic variability during the first 48 postoperative hours 3. to describe the relationship between glycemic variability during the first 48 postoperative hours and: * parameters evaluating the activity of the autonomic nervous system during the first 48 postoperative hours * diabetes phenotype * markers of inflammation * markers of endothelial dysfunction 4. to describe the morbidity and mortality within 30 days after surgery.
Study Type
OBSERVATIONAL
Enrollment
120
coronary artery bypass surgery
aortic valve replacement surgery
Post operative intensive care unit of the cardiac surgery department
Besançon, France
Glycemic variability, measured by subcutaneous blood glucose continuous monitoring sensor, calculated by the coefficient of glycemic variability
Continuous blood glucose monitoring using a subcutaneous blood glucose continuous monitoring sensor (FreeStyle Libre Pro)
Time frame: From 14 days before surgery (at least 48 hours before surgery) to 7 days after surgery
Autonomic nervous system activity, measured by non-invasive continuous heart rate monitoring, calculated by measuring the R-R interval
Continuous non-invasive continuous heart rate monitoring using the MooKy HR memory device will allow the continuous measurement of the R-R interval and the R-R interval variability to quantify the activity of the autonomic nervous system.
Time frame: From the day before surgery (at admission in the cardiac surgery department the day before surgery) to Day 3 after surgery
Vasopressine blood level
Vasopressine blood level will be measured from blood samples to assess the relationship between blood glucose variability and endothelial dysfunction.
Time frame: The day before surgery, at admission in the postoperative intensive care unit, at day 1 and at day 2 after surgery
Autonomic nervous system activity
Compass 31 scale: the Compass 31 scale is a validated clinical scale that allows to identify the degree au autonomic nervous system dysfunction.
Time frame: The day before surgery.
Endocan blood level
Endocan blood level will be measured from blood samples to assess the relationship between blood glucose variability and endothelial dysfunction.
Time frame: The day before surgery, and at admission in the postoperative intensive care unit, and at day 1 and at day 2 after surgery.
8-iso PGF2a urinary level
8-iso PGF2a urinary level will be measured from urinary samples to assess the relationship between blood glucose variability and oxidative stress.
Time frame: The day before surgery, and at admission in the postoperative intensive care unit, and at day 1 and at day 2 after surgery.
IL-6 blood level
IL-6 blood level will be measured from blood samples to assess the relationship between blood glucose variability and systemic inflammation.
Time frame: The day before surgery, and at admission in the postoperative intensive care unit, and at day 1 and at day 2 after surgery.
IL-10 blood level
IL-10 blood level will be measured from blood samples to assess the relationship between blood glucose variability and systemic inflammation.
Time frame: The day before surgery, and at admission in the postoperative intensive care unit, and at day 1 and at day 2 after surgery.
TNF-alpha blood level
TNF-alpha blood level will be measured from blood samples to assess the relationship between blood glucose variability and systemic inflammation.
Time frame: The day before surgery, and at admission in the postoperative intensive care unit, and at day 1 and at day 2 after surgery.
Angiotensine blood level
Angiotensine blood level will be measured from blood samples to assess the relationship between blood glucose variability and endothelial dysfunction.
Time frame: The day before surgery, and at admission in the postoperative intensive care unit, and at day 1 and at day 2 after surgery.
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