Da. Grant et al., CONTINUOUS MEASUREMENT OF BLOOD-FLOW IN THE SUPERIOR SAGITTAL SINUS OF THE LAMB, American journal of physiology. Regulatory, integrative and comparative physiology, 38(2), 1995, pp. 274-279
We assessed the validity of recording blood flow in the superior sagit
tal sinus (Q(ss)) as a measure of cerebral blood flow (CBF). While ane
sthetized, 10 lambs were instrumented with a transit-time ultrasonic f
low probe around the superior sagittal sinus to measure Q(ss), electro
des to assess sleep state, catheters to measure cerebral perfusion pre
ssure (P-cp), and an occlusive cuff around the common brachiocephalic
artery to vary blood pressure. After 72 h recovery, lambs were studied
during spontaneous sleep-wake cycles to establish 1) the normal range
of Q(ss) and 2) the response rate of Q(ss) to rapid alterations of P-
cp. Subsequently, the lambs were reanesthetized, and the measurement o
f Q(ss) was calibrated and validated. Q(ss) was linearly related to th
e arterial inflow of 35% of the brain mass (y = 0.5x + 1.6, r = 0.93,
n = 4). Q(ss) was greater in active sleep (154.1 +/- 45.7 ml . min(-1)
. 100 g(-1), mean +/- SD, n = 5) than in quiet sleep (97.1 +/- 40.8 m
l . min(-1) . 100 g(-1)) and quiet wakefulness (107 +/- 44.3 ml . min(
-1) . 100 g(-1), P < 0.05). Q(ss) responded rapidly (within one beat)
to spontaneous and to induced transient changes in P-cp. We conclude t
hat recording blood flow in the superior sagittal sinus provides a sim
ple, continuous, and quantitative measure of CBF from a defined area o
f the brain and is appropriate for studying transient changes in the c
erebral circulation.