@article{be5bade82cd74b5f9d79a42170fd38ec,
title = "Randomized trial of cervene, a κ receptor-selective opioid antagonist, in acute ischemic stroke",
abstract = "The purpose of this randomized trial was to confirm drug safety and to obtain preliminary efficacy data on Cervene (nalmefene), an opioid antagonist with relative κ receptor selectivity, for the treatment of acute ischemic stroke. Patients were treated for 24 hours with either intravenous Cervene (0.05 mg/kg as an initial infusion over 15 minutes and 0.01 mg/kg/h maintenance) or placebo within 6 hours of an ischemic stroke. Efficacy was assessed by comparing the change from baseline to day 7 in the National Institutes of Health stroke scale score (NIHSSS) and the Glasgow Outcome Scale and Barthel Index at 3 months. Forty-four evaluable patients were randomized (3:1) to Cervene (n = 34; treated at 5.0 ± 0.9 hours after onset) and placebo (n = 10; treated at 4.6 ± 1.5 hours). No deaths or serious adverse events reasonably attributable to Cervene have been reported. A {"}major improvement{"} (NHSSS > 4) was seen at day 7: placebo, 33% (three of nine patients) and Cervene, 66% (19 of 29 patients). Only patients with initial NIHSSS ≥ 4 were considered evaluable for this primary endpoint. {"}Good recovery{"} at 3 months (Glasgow = 5) was as follows: placebo, 50% (5 of 10 patients) and Cervene, 73% (24 of 33 patients). The death rate at 3 months was placebo, 20% (2 of 10 patients) and Cervene, 9.1% (3 of 33 patients). One patient was lost to follow-up. In conclusion, results from this randomized trial suggest that Cervene is safe, tolerable, and may be beneficial in the treatment of acute stroke patients.",
keywords = "Nalmefene, Opiate antagonist, Stroke, Therapy",
author = "Clark, {W. M.} and Coull, {B. M.} and M. Karukin and B. Hendin and R. Kelley and H. Rosing and S. Zachariah and M. Winograd and E. Raps and T. Walshe and S. Singer and Mettinger, {K. L.}",
note = "Funding Information: After central nervous system (CNS) ischemia, levels of many excitatory neurotransmitters, including the excitatory amino acids and the endogenous opiates, become elevated. L2 These increased levels of neurotransmitters lead to overstimulation of their respective receptors (N- From the IOregon Stroke Center, Oregon Health Sciences University, Portland, OR; 2Baker Norton Pharmaceuticals, Inc, Miami, FL; 3Phoenix, AZ; Atlanta, GA; 4Miami, FL; SBayP ines, FL; 7Philadelphia, PA; and 8Boston, MA. Received; accepted. Supported by Baker Norton Pharmaceuticals, Inc. Address reprint requests to W.M. Clark MD, Department of Neurology L104, Oregon Health Sciences University, 3181 SW Sam Jackson Park Rd, Portland, OR 97201. Copyright {\textcopyright} 1996 by National Stroke Association 1052-3057/96/0601-0005503.00/0 methyl-D-aspartate [NMDA], K), which potentiates tissue injury. 2~ The therapeutic potential of NMDA receptor antagonists has been extensively studied and phase III clinical trials using these agents are currently in progress. 4 Significant CNS side effects associated with the use of these agents, however, may limit their widespread clinical application. 5 Another category of excitatory neurotransmitters, the endogenous opioids, also appears to play a role in tissue injury after CNS ischemia. 6 There is an increasing body of evidence that one of the endogenous opioids, dynorphin, through its actions primarily at the K receptor, potentiates ischemic tissue injury. The K receptor is upregulated following CNS injury, 7 high doses of dynorphin potentiate traumatic CNS injury, 8 dynorphin immunoreactivity increases at CNS injury sites, 9 and n opioid receptors",
year = "1996",
month = sep,
doi = "10.1016/S1052-3057(96)80024-3",
language = "English (US)",
volume = "6",
pages = "35--40",
journal = "Journal of Stroke and Cerebrovascular Diseases",
issn = "1052-3057",
publisher = "W.B. Saunders",
number = "1",
}