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(Stroke. 2002;33:1665.)
© 2002 American Heart Association, Inc.

Original Contributions

Effects of the Spin Trap Agent Disodium- [tert-butylimino)methyl]benzene-1,3-disulfonate N-Oxide (Generic NXY-059) on Intracerebral Hemorrhage in a Rabbit Large Clot Embolic Stroke Model

Combination Studies With Tissue Plasminogen Activator

Paul A. Lapchak, PhD; Dalia M. Araujo, PhD; Donghuan Song, MD; Jiandong Wei, MD; Robert Purdy, PhD Justin A. Zivin, MD, PhD

From the Department of Neuroscience, University of California at San Diego (P.A.L., D.S., J.W., J.A.Z.); VA San Diego Healthcare System (P.A.L., D.M.A., D.S., J.W., R.P., J.A.Z.); and Veterans Medical Research Foundation (P.A.L., R.P., J.A.Z.), San Diego, Calif.

Correspondence to Dr Paul A. Lapchak, Department of Neuroscience, University of California at San Diego, MTF 316, 9500 Gilman Dr, La Jolla, CA 92093-0624. E-mail plapchak{at}ucsd.edu

Background and Purpose— It has been proposed that the novel spin trap agent disodium-[(tert-butylimino)methyl]benzene-1,3-disulfonate N-oxide (NXY-059) may be useful in the treatment of ischemia and stroke. To date, there is little information concerning the safety of NXY-059 when administered in combination with the only Food and Drug Administration–approved pharmacological agent for the treatment of stroke, the thrombolytic tissue plasminogen activator (tPA). Thus, we determined the effects of NXY-059G, a generic form of NXY-059, on hemorrhage and infarct rate and volume when administered alone or in combination with tPA. In addition, we determined whether NXY-059G affected 2 physiological variables, blood glucose levels and body temperature.

Methods— Male New Zealand White rabbits were embolized by injecting a large blood clot into the middle cerebral artery via a catheter. Five minutes after embolization, NXY-059G (100 mg/kg) was infused intravenously; control rabbits received infusions of saline, the vehicle required to solubilize NXY-059G. In tPA studies, the thrombolytic was administered intravenously starting 60 minutes after embolization (20% bolus injection/80% infusion over 30 minutes). Body temperature and blood glucose levels were measured throughout the study. Postmortem analysis included assessment of hemorrhage and infarct rate, size, and location.

Results— In the vehicle control group, the hemorrhage rate after a thromboembolic stroke was 52% (n=23), and this was increased by 67% if tPA was administered (n=15). The rabbits treated with NXY-059G in the absence of tPA had a 79% incidence of hemorrhage (n=19), an increase of 52% over the control group. In the combination drug–treated groups, the NXY-059G/tPA group had a 47% incidence of hemorrhage (n=15). There was a decrease of hemorrhage volume in the NXY-059G+tPA group compared with the other 3 groups included in the study. There was no significant effect of NXY-059G either alone or in combination with tPA on infarct rate or volume. NXY-059G did not significantly alter the physiological variables that were measured.

Conclusions— This study suggests that NXY-059G may affect the integrity of the cerebral vasculature when administered immediately after an embolic stroke, as evidenced by an increase in hemorrhage rate. However, when NXY-059G is administered in combination with tPA, it may improve the safety of tPA by reducing the incidence of tPA-induced hemorrhage. The mechanism(s) involved in the NXY-059G–induced increase in hemorrhage rate and reduction of tPA-induced hemorrhage rate remains to be elucidated.

Key Words: indoles • ischemia • neuroprotection • oxygen radical • reactive oxygen species • reperfusion • rabbits

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