Cerebral oxygenation and autoregulation during rewarming on cardiopulmonary bypass.

Background: Rewarming on cardiopulmonary bypass (CPB) is associated with increased metabolic demands; however, it remains unclear whether cerebral autoregulation is affected during this phase. This RCT aims to describe the effects of 20% supranormal, compared to normal CPB flow, on monitoring signs of inadequate perfusion, oxygenation, and disturbed cerebral autoregulation, during the rewarming phase of CPB.

Method: Thirty two patients scheduled for coronary artery bypass grafting were allocated to a Control group ( = 16) receiving a CPB pump flow corresponding to preoperatively measured cardiac output, and an Intervention group ( = 16) receiving the corresponding CPB pump flow increased by 20% during rewarming.

Mechanical Reperfusion Following Prolonged Global Cerebral Ischemia Attenuates Brain Injury.

Previous experiments demonstrated improved outcome following prolonged cerebral ischemia given controlled brain reperfusion using extracorporeal circulation. The current study further investigates this. Young adult pigs were exposed to 30 min of global normothermic cerebral ischemia, achieved through intrathoracic clamping of cerebral arteries, followed by 20 min of isolated mechanical brain reperfusion.

Mechanical reperfusion with leucocyte-filtered blood does not prevent injury following global cerebral ischaemia.

Objectives: Prolonged global cerebral ischaemia leads to irreversible injury, often with lethal outcome. Brain injuries are partly caused by the uncontrolled reperfusion that occurs once the circulation is re-established. Recent animal experiments suggest that controlled reperfusion following lengthy ischaemia might prevent severe brain injury.

Blood Flow Quantitation by Positron Emission Tomography During Selective Antegrade Cerebral Perfusion.

Background: Perfusion strategies during aortic surgery usually comprise hypothermic circulatory arrest (HCA), often combined with selective antegrade cerebral perfusion (SACP) or retrograde cerebral perfusion. Cerebral blood flow (CBF) is a fundamental parameter for which the optimal level has not been clearly defined. We sought to determine the CBF at a pump flow level of 6 mL/kg/min, previously shown likely to provide adequate SACP at 20°C in pigs.

Influence of blood/tissue differences in contrast agent relaxivity on tracer-based MR perfusion measurements.

Purpose: Perfusion assessment by monitoring the transport of a tracer bolus depends critically on conversion of signal intensity into tracer concentration. Two main assumptions are generally applied for this conversion; (1) contrast agent relaxivity is identical in blood and tissue, (2) change in signal intensity depends only on the primary relaxation effect. The purpose of the study was to assess the validity and influence of these assumptions.

Experimental treatment of superior venous congestion during cardiopulmonary bypass.

Objectives: Superior venous outflow obstruction affects cerebral perfusion negatively by reducing cerebral perfusion pressure (CPP). We present a randomized study designed to compare two alternative strategies to preserve the CPP during superior vena cava (SVC) congestion and cardiopulmonary bypass (CPB).

Methods: Fourteen pigs on bi-caval CPB were subjected to 75% occlusion of the SVC flow.

Minimal safe arterial blood flow during selective antegrade cerebral perfusion at 20° centigrade.

Background: Selective antegrade cerebral perfusion (SACP) enables surgery on the aortic arch, where cerebral ischemia may cause neurologic sequels. This study aims to identify the minimum arterial flow level to maintain adequate cerebral perfusion during SACP in deep hypothermia in the pig.

Methods: Two groups of pigs were subjected to SACP at 20(°)C α-stat.

Venous obstruction and cerebral perfusion during experimental cardiopulmonary bypass.

To investigate the effects on cerebral perfusion by experimental venous congestion of the superior vena cava (SVC) during bicaval cardiopulmonary bypass (CPB) at 34 °C, pigs were subjected to SVC obstruction at levels of 75%, 50%, 25% and 0% of baseline SVC flow at two arterial flow levels (low, LQ, high, HQ). The cerebral perfusion was examined with near-infrared spectroscopy (NIRS), cerebral microdialysis and blood gas analysis. SVC obstruction caused significant decreases in the NIRS tissue oxygenation index (TOI) and in SVC oxygen saturations (P<0.