The aim of the proposed study is to evaluate microcirculatory alterations in patients undergoing open heart surgery under extracorporeal circulation. Positive clinical results evidenced with goal-directed perfusion and cerebral oximetry monitoring could be attributed to preserved microcirculation at tissue level.
The aim of the proposed study is to evaluate microcirculatory alterations in patients undergoing open heart surgery under extracorporeal circulation. Microcirculatory changes during cardiac surgery have been investigated mainly during coronary procedures using the conventional extracorporeal circulation. There is no single study in the literature investigating microcirculatory alterations using a perioperative strategy of "physiologic" perfusion. Positive clinical results evidenced with goal-directed perfusion and cerebral oximetry monitoring could be attributed to preserved microcirculation at tissue level. All patients will follow the same anaesthetic and perfusion protocol. The protocol for the evaluation of microcirculation will be based on: * Cerebral near-infrared spectroscopy (rScO2) measurements (INVOS, Covidien-Medtronic Inc.). * NIRS-Based Cerebral Autoregulation Monitoring: Analog arterial blood pressure signals will be digitized and then processed with the digital NIRS signals using a personal computer and a special ICM software (University of Cambridge, Cambridge, UK). Monitoring cerebral autoregulation ensures adequate renal perfusion. Hence, brain can be used not just as a target but also as an index organ indicating adequacy of perfusion. * Somatic near-infrared spectroscopy (rSsO2) measurements (INVOS, Covidien-Medtronic Inc.). * Sublingual mucosal microcirculation measurements during surgery using side dark field (SDF) imaging (MicroScan, Microvision Medical, Amsterdam, The Netherlands). All measurements will be performed at the following time points: T0: after induction of anaesthesia T1: after initiation of cardiopulmonary bypass T2: 10 minutes after cross- clamping the aorta T3: 10 minutes before removing the aortic cross-clamp T4: after weaning from extracorporeal circulation
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
30
Cerebral and somatic near-infrared spectroscopy (rScO2) measurements
Cerebral autoregulation monitoring
Sublingual mucosal microcirculation measurements during surgery using side dark field (SDF) imaging
Cardiothoracic Department, AHEPA University Hospital
Thessaloniki, Greece
Evaluation of microcirculation
Correlation of NIRS values with tissue microvascular activity
Time frame: During surgery, from induction of anesthesia to weaning of extracorporeal circulation
Global perfusion
Global perfusion using cerebral NIRS during extracorporeal circulation
Time frame: During surgery, from induction of anesthesia to weaning of extracorporeal circulation
Cerebral autoregulation
Calculation of cerebral oximetry index (COx)
Time frame: During surgery, from induction of anesthesia to weaning of extracorporeal circulation
Goal-directed perfusion
Correlation of goal-directed perfusion with microvascular capillary density during extracorporeal circulation
Time frame: During surgery, from induction of anesthesia to weaning of extracorporeal circulation
Somatic perfusion
Peripheral tissue oxygenation as measured with somatic NIRS
Time frame: During surgery, from induction of anesthesia to weaning of extracorporeal circulation
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