TY - JOUR
T1 - Cortical blood flow and cerebral perfusion pressure in a new noncraniotomy model of subarachnoid hemorrhage in the rat
AU - Bederson, Joshua B.
AU - Germano, Isabelle M.
AU - Guarino, Lorraine
PY - 1995/6
Y1 - 1995/6
N2 - Background and Purpose: Acute cerebral ischemia after subarachnoid hemorrhage (SAH) is a major cause of morbidity whose precise etiology is unclear. The purpose of this study was to examine the relationships between cerebral perfusion pressure (CPP) and cortical blood flow during SAH using a new experimental model in the rat. Methods: CPP (mean arterial pressure minus intracranial pressure), cortical laser-Doppler flowmetry (LDF), and electroencephalogram were continuously recorded during and after SAH in 16 ventilated rats, SAH was produced by advancing an intraluminal suture from the external carotid artery through the internal carotid artery to perforate the vessel near its intracranial bifurcation. Results: Eight rats (50%) died within 24 hours of SAH. In all rats, blood was widely distributed throughout the basal, convexity, and interhemispheric subarachnoid spaces and throughout the ventricular system. CPP decreased after SAH at an initial rate of 1.1±0.2 mm Hg/s, reaching its nadir 59±9 seconds after the onset of SAH. During the same period, LDF fell at a rate of 1.4±0.3%/s (P=NS vs CPP). After reaching its nadir, CPP rose at a rate of 0.4±0.01 mm Hg/s, but LDF continued to fall at 0.2±0.03%/s (P<.05 vs CPP) reaching a nadir of 21.7±2.5% significantly later than CPP (189.5±39 s after SAH, P<.05). No correlation was found between peak changes in CPP and LDF. Electroencephalogram activity followed the changes in LDF, reaching nadir values 289±55 seconds after SAH. Conclusions: These findings demonstrate that although reduced CPP causes the initial decrease in cortical blood flow after SAH, secondary reductions occurring after CPP has reached its nadir are caused by other factors such as acute vasoconstriction. This noncraniotomy model of SAH in the rat has several advantages over existing models.
AB - Background and Purpose: Acute cerebral ischemia after subarachnoid hemorrhage (SAH) is a major cause of morbidity whose precise etiology is unclear. The purpose of this study was to examine the relationships between cerebral perfusion pressure (CPP) and cortical blood flow during SAH using a new experimental model in the rat. Methods: CPP (mean arterial pressure minus intracranial pressure), cortical laser-Doppler flowmetry (LDF), and electroencephalogram were continuously recorded during and after SAH in 16 ventilated rats, SAH was produced by advancing an intraluminal suture from the external carotid artery through the internal carotid artery to perforate the vessel near its intracranial bifurcation. Results: Eight rats (50%) died within 24 hours of SAH. In all rats, blood was widely distributed throughout the basal, convexity, and interhemispheric subarachnoid spaces and throughout the ventricular system. CPP decreased after SAH at an initial rate of 1.1±0.2 mm Hg/s, reaching its nadir 59±9 seconds after the onset of SAH. During the same period, LDF fell at a rate of 1.4±0.3%/s (P=NS vs CPP). After reaching its nadir, CPP rose at a rate of 0.4±0.01 mm Hg/s, but LDF continued to fall at 0.2±0.03%/s (P<.05 vs CPP) reaching a nadir of 21.7±2.5% significantly later than CPP (189.5±39 s after SAH, P<.05). No correlation was found between peak changes in CPP and LDF. Electroencephalogram activity followed the changes in LDF, reaching nadir values 289±55 seconds after SAH. Conclusions: These findings demonstrate that although reduced CPP causes the initial decrease in cortical blood flow after SAH, secondary reductions occurring after CPP has reached its nadir are caused by other factors such as acute vasoconstriction. This noncraniotomy model of SAH in the rat has several advantages over existing models.
KW - animal models
KW - cerebral blood flow
KW - hemodynamics
KW - rats
KW - subarachnoid hemorrhage
UR - http://www.scopus.com/inward/record.url?scp=0029034264&partnerID=8YFLogxK
M3 - Article
C2 - 7762027
AN - SCOPUS:0029034264
SN - 0039-2499
VL - 26
SP - 1086
EP - 1092
JO - Stroke
JF - Stroke
IS - 6
ER -