CEREBRAL BLOOD-FLOW WITH THE INDICATOR FRACTIONATION OF [14C]IODOANTIPYRINE - EFFECT OF PACO2 ON CEREBRAL VENOUS APPEARANCE TIME

The indicator fractionation technique using a diffusible indicator as a tracer for the determination of CBF has been used for numerous investigations of the cerebral circulation and its pathophysiology. The diffusible tracer is "trapped" in the brain based on the proper delay between tracer injection and cessation of the cerebral circulation by decapitation before the appearance of the tracer in the cerebral venous circulation. If this delay is too long, the quantitative assumption of the indicator fractionation technique will not be met, and CBF values will be underestimated. In 13 Sprague-Dawley rats anesthetized with pentobarbital, the appearance of [C-14]iodoantipyrine at the torcular was assessed as a function of P(a)CO2. An inverse linear relationship between P(a)CO2 (in millimeters of mercury) and cerebral venous appearance, T(a) (in seconds), was established with the regression equation T(a) = -0.0842. P(a)CO2 + 12.3 (R2 = 0.70, slope significantly different from zero, p < 0.001). T(a) varied between 5 and 12 s and P(a)CO2 varied between 84 and 18 mm Hg, respectively. Thus, in low-flow states, the decapitation time may be lengthened to 12 s, whereas in high-flow states, the time must be 5 s to eliminate the possibility of backflux of tracer out of the brain.