TY - JOUR
T1 - Stable xenon versus radiolabeled microsphere cerebral blood flow measurements in baboons
AU - DeWitt, Douglas S.
AU - Fatouros, Panos P.
AU - Wist, Abund O.
AU - Stewart, Lauraine M.
AU - Kontos, Hermes A.
AU - Hall, James A.
AU - Kishore, Pulla R.S.
AU - Keenan, Richard L.
AU - Marmarou, Anthony
PY - 1989/12
Y1 - 1989/12
N2 - Regional cerebral blood flow was simultaneously determined using the stable xenon computed tomographic and the radioactive microsphere techniques over a wide range of blood flow rates (<10->300 ml/100 g/min) in 12 baboons under conditions of normocapnia, hypocapnia, and hypercapnia. A total of 31 pairs of determinations were made. After anesthetic and surgical preparation of the baboons, cerebral blood flow was repeatedly determined using the stable xenon technique during saturation with 50% xenon in oxygen. Concurrently, cerebral blood flow was determined before and during xenon administration using 15-m microspheres. In Group 1 (n=7), xenon and microsphere determinations were made repeatedly during normocapnia. In Group 2 (n=5), cerebral blood flow was determined using both techniques in each baboon during hypocapnia (Paco2=20 mm Hg), normocapnia (Paco2=40 mm Hg), and hypercapnia (Paco2=60 mm Hg). Xenon and microsphere values in Group 1 were significantly correlated (r=0.69, p<0.01). In Group 2, values from both techniques also correlated closely across all levels of Paco2 (r=0.92, p<0.001). No significant differences existed between the slopes or y intercepts of the regression lines for either group and the line of identity. Our data indicate that the stable xenon technique yields cerebral blood flow values that correlate well with values determined using radioactive microspheres across a wide range of cerebral blood flow rates.
AB - Regional cerebral blood flow was simultaneously determined using the stable xenon computed tomographic and the radioactive microsphere techniques over a wide range of blood flow rates (<10->300 ml/100 g/min) in 12 baboons under conditions of normocapnia, hypocapnia, and hypercapnia. A total of 31 pairs of determinations were made. After anesthetic and surgical preparation of the baboons, cerebral blood flow was repeatedly determined using the stable xenon technique during saturation with 50% xenon in oxygen. Concurrently, cerebral blood flow was determined before and during xenon administration using 15-m microspheres. In Group 1 (n=7), xenon and microsphere determinations were made repeatedly during normocapnia. In Group 2 (n=5), cerebral blood flow was determined using both techniques in each baboon during hypocapnia (Paco2=20 mm Hg), normocapnia (Paco2=40 mm Hg), and hypercapnia (Paco2=60 mm Hg). Xenon and microsphere values in Group 1 were significantly correlated (r=0.69, p<0.01). In Group 2, values from both techniques also correlated closely across all levels of Paco2 (r=0.92, p<0.001). No significant differences existed between the slopes or y intercepts of the regression lines for either group and the line of identity. Our data indicate that the stable xenon technique yields cerebral blood flow values that correlate well with values determined using radioactive microspheres across a wide range of cerebral blood flow rates.
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U2 - 10.1161/01.STR.20.12.1716
DO - 10.1161/01.STR.20.12.1716
M3 - Article
C2 - 2512692
AN - SCOPUS:0024792457
SN - 0039-2499
VL - 20
SP - 1716
EP - 1723
JO - Stroke
JF - Stroke
IS - 12
ER -