Research Article| Volume 6, ISSUE 4, P210-216, April 1997

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A pilot study on the ability of retrograde transvenous neuroperfusion to rescue baboon brain with severe ischemia

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        • Siesjo BK
        Pathophysiology and treatment of focal cerebral ischemia Part I: Pathophysiology.
        J Neurosurg. 1992; 77: 169-184
        • Siesjo BK
        Pathophysiology and treatment of focal cerebral ischemia Part II: Mechanisms of damage and treatment.
        J Neurosurg. 1992; 77: 337-354
        • Zivin JA
        • Grotta JC
        Animal stroke models. They are relevant to human disease.
        Stroke. 1990; 21: 981-983
        • Yonas H
        • Gur D
        • Claassen D
        • et al.
        Stable xenon-enhanced CT measurements of cerebral blood flow in reverse focal ischemia in baboons.
        J Neurosurg. 1990; 73: 266-273
        • Gore JM
        • Weiner BH
        • Benoti JR
        • et al.
        Preliminary experience with synchronized coronary sinus retroperfusion in humans.
        Circulation. 1986; 78: 381-388
        • Kar S
        • Drury JK
        • Eigler N
        • et al.
        Coronary venous retroperfusion reduces ischemia during LAD angioplasty.
        Circulation. 1988; 78 ([abstract]): II104
        • Frazee JG
        • Jordan SE
        • Dion JE
        • et al.
        Ischemic brain rescue by transvenous perfusion in baboons with venous sinus occlusion.
        Stroke. 1990; 21: 87-93
        • Grotta JC
        Can raising cerebral blood flow improve outcome after acute cerebral infarction?.
        Stroke. 1987; 18: 264-265
        • Onesti ST
        • Solomon RA
        • Quent DO
        Cerebral revascularization: a review.
        Neurosurgery. 1989; 25: 618-629
        • Carrel A
        Anastomose bout a bout de la jugulaire et de la carotide primitive.
        Lyon Med. 1902; 99: 114-116
        • Ginsberg MD
        Efficacy of calcium blockers in brain ischemia: a critical assessment.
        in: Krieglsein J Pharmacology of cerebral ischemia. CRC Press, Inc., Boca Raton, FL1989: 65-73
        • Watts SH
        The suture of blood vessels: implantation and transplantation of vessels and organs: an historical and experimental study.
        Johns Hopkins Hosp Bull. 1907; 18: 153-179
        • Astrup J
        • Symon L
        • Branston NM
        • et al.
        Cortical evoked potential and extracellular K+ and H+ at critical levels of brain ischemia.
        Stroke. 1977; 8: 51-57
        • Branston NM
        • Symon L
        • Crockard HA
        Recovery of cortical evoked response following temporary middle cerebral artery occlusion in baboons: relation to local blood flow and PO2.
        Stroke. 1976; 7: 151-157
        • Moller AR
        Evoked potentials in intraoperative monitoring.
        Williams and Wilkins, Baltimore1988
        • Nuwer MR
        Evoked potential monitoring in the operating room.
        Raven Press, New York1986
        • Nuwer MR
        • Daube J
        • Fischer C
        • Schramm J
        • Yingling CD
        Neuromonitoring during surgery. Report of an IFCN committee.
        Electroencephalogr Clin Neurophysiol. 1993; 87: 263-276
        • Hudgins WR
        • Garcia JH
        Transorbital approach to the middle cerebral artery of the squirrel monkey: a technique for experimental cerebral infarction applicable to ultrastructural studies.
        Stroke. 1970; 1: 107-111
        • Levy DE
        How transient are transient ischemic attacks?.
        Neurology. 1988; 38: 674-677
        • Crowell R
        • Marcoux FW
        • DeGirolami U
        Variability and reversibility of focal cerebral ischemia in unanesthetized monkeys.
        Neurology. 1987; 31: 1295-1302
        • Branston NM
        • Symon L
        • Crockard HA
        Relationship between the cortical evoked potential and local cortical blood flow following acute middle cerebral artery occlusion in the baboon.
        Exp Neurol. 1974; 45: 195-208
        • Del Zoppo GJ
        • Copeland BR
        • Waltz TA
        • et al.
        The beneficial effect of intracarotid urokinase on acute stroke in a baboon model.
        Stroke. 1986; 17: 638-643
        • Garcia JH
        Experimental ischemic stroke: a review.
        Stroke. 1984; 15: 5-14
        • Jones TH
        • Morawetz RB
        • Crowell RM
        • et al.
        Thresholds of focal cerebral ischemia in awake monkeys.
        J Neurosurg. 1981; 54: 773-782
        • Petito CK
        • Feldmann E
        • Pulsinelli WA
        • Plum F
        Delayed hippocampal damage in humans following cardiorespiratory arrest.
        Neurology. 1987; 37: 1281-1286
        • Pulsinelli WA
        • Brierley JB
        • Plum F
        Temporal profile of neuronal damage in a model of transient forebrain ischemia.
        Ann Neurol. 1982; 11: 491-498
        • Luo X
        • Frazee JG
        • Duckwiler G
        • Saver J
        • Starkman S
        • Wiele BV
        • et al.
        Cutting edge treatment for stroke: Neuroperfusion.
        Stroke. 1997; 28 ([abstract]): 235