Neuroprotection for Acute Brain Ischaemia

doi:10.1017/9781316286234.013

Chapter 12 - Neuroprotection for Acute Brain Ischaemia

from Part III - Acute Treatment of Ischaemic Stroke and Transient Ischaemic Attack

Published online by Cambridge University Press: 15 December 2020

Nerses Sanossian and

Jeffrey L. Saver

Edited by

Jeffrey L. Saver and

Graeme J. Hankey

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Jeffrey L. Saver: Affiliation:
David Geffen School of Medicine, University of Ca
Graeme J. Hankey: Affiliation:
University of Western Australia, Perth

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Summary

More than 20,000 patients have participated in clinical trials of more than 100 neuroprotective therapies, but no study has provided convincing evidence of benefit. Several improvements to the rigor of preclinical agent qualification have been identified to increase the likelihood of success in human clinical trials: stringent randomization and blinding techniques to mitigate observer bias; assessment in in time periods achievable in the clinical setting; testing in older animals with comorbidities; and robust and reproducible benefit magnitudes. Human clinical trials should start agents hyperacutely, in the first minutes and hours after onset, when treatment effect would be maximal; target enrolment of patients likely to have transient rather than permanent ischaemic exposure; and use factorial and platform trial designs that would permit efficient testing of combinations of agents able to block multiple ischaemic injury-mediating pathways concurrently, including both anti-necrotic and anti-apoptotic interventions. For agents that allow cells to endure ischaemic stress, human trial delivery approaches include: prehospital initiation; initiation immediately upon brain imaging in patients destined for endovascular intervention; and initiation at outside hospitals in patients undergoing transfer to a neurothrombectomy center. For agents that mitigate reperfusion injury, treatment start before or concurrent with reperfusion, including intra-arterial administration via catheter immediately after endovascular thrombectomy, should be pursued.

Keywords

Neuroprotection hypothermia anti-oxidant apoptosis reperfusion injury uric acid ischaemic cascade excitotoxicity statins management treatment

Type: Chapter
Information: Stroke Prevention and Treatment
An Evidence-based Approach
, pp. 214 - 238

DOI: https://doi.org/10.1017/9781316286234.013 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2020

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Chapter 12 - Neuroprotection for Acute Brain Ischaemia

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