Intraoperative monitoring of brain tissue oxygen and carbon dioxide pressures reveals low oxygenation in peritumoral brain edema.

Brain edema and swelling often complicate surgery for brain tumors. Its pathophysiology is unclear, as is the relationship with brain tissue oxygenation. Our hypothesis was that brain edema around tumor is cytotoxic type caused by impaired local tissue oxygenation due to increased local tissue pressure.

Intraoperative monitoring of brain tissue oxygen and carbon dioxide pressure in peritumoural oedema by stereotactic placement of multiparameter microsensors.

Ischaemia may play an important role in peritumoural brain oedema and swelling, but little data exist so far on brain tissue oxygenation adjacent to a tumour mass. We have monitored brain tissue oxygen tension (ptiO2) and brain tissue CO2 tension (ptiCO2) in 19 patients undergoing craniotomy for resection of a brain tumour using a multiparameter sensor placed in the brain parenchyma. Accurate placement of this probe in the peritumoural area was accomplished with the aid of a 3-D neuronavigation system.

Jugular bulb oxygen saturation during propofol and isoflurane/nitrous oxide anesthesia in patients undergoing brain tumor surgery.

Unlabelled: We investigated, in brain tumor patients, the jugular bulb venous oxygen partial pressure (PjO2) and hemoglobin saturation (SjO2), the arterial to jugular bulb venous oxygen content difference (AJDO2), and middle cerebral artery blood flow velocity (Vmca) during anesthesia, and the effect of hyperventilation on these variables. Twenty patients were randomized to receive either isoflurane/ nitrous oxide/fentanyl (Group 1) or propofol/fentanyl (Group 2). At normoventilation (PacO2 35 +/- 2 mm Hg in Group 1 and 33 +/- 3 mm Hg in Group 2), SjO2 and PjO2 were significantly higher in Group 1 than in Group 2 (SjO2 60% +/- 6% and 49% +/- 13%, respectively; P = 0.

Hemorrheological changes associated with brain death and their implications for potential organ donors.

Successful transplantation of donor organs from brain-dead patients requires adequate maintenance of hemodynamic parameters. Blood flow and tissue perfusion are highly dependent upon hemorrheology. The aim of the present study was to evaluate hemorrheological parameters in potential organ donors compared to healthy volunteers.