Effect of acetazolamide on cerebral blood flow and tympanic temperature in healthy subjects and patients with subacute subarachnoid haemorrhage

Abstract: The influence of the increased cerebral blood flow (CBF) induced by acetazolamide on tympanic temperature (Tty) was examined in three healthy male volunteers and in five patients with subacute subarachnoid haemorrhage (SAH). The CBF was estimated by means of stable xenon-enhanced computed tomography before and after the administration of acetazolamide. The Tty was recorded continuously in both ears using thermistor thermometers. In all subjects, CBF increased ranging from 11% to 108% after acetazolamide admini… Show more

“…The context, both physical and social, may influence TMT, because TMT is tightly coupled to cerebral blood flow to the ipsilateral cortical hemisphere and to overall cranial blood flow (Chu et al, 2000;Mariak, White, Lyson, & Lewko, 2003;Schuman et al, 1999;Sugino, Ogawa, Umemura, Suzuki, & Kawamura, 1997). Increased blood flow reduces inner cranial temperature because of increased blood exchange with the rest of the body and increased heat radiation near the surface of the neck (Sukstanskii & Yablonskiy, 2006).…”

The effect of investigator gender on lateral tympanic membrane temperature

“…The context, both physical and social, may influence TMT, because TMT is tightly coupled to cerebral blood flow to the ipsilateral cortical hemisphere and to overall cranial blood flow (Chu et al, 2000;Mariak, White, Lyson, & Lewko, 2003;Schuman et al, 1999;Sugino, Ogawa, Umemura, Suzuki, & Kawamura, 1997). Increased blood flow reduces inner cranial temperature because of increased blood exchange with the rest of the body and increased heat radiation near the surface of the neck (Sukstanskii & Yablonskiy, 2006).…”

The effect of investigator gender on lateral tympanic membrane temperature

Decrease in Intraoperative Brain Surface Temperature in Patients with Subarachnoid Haemorrhage

Sustained attention to local and global target features is different: Performance and tympanic membrane temperature