Endovascular Stroke Thrombectomy for Patients With Large Ischemic Core

Chen, Huanwen; Lee, Jin Soo; Michel, Patrik; Yan, Bernard; Chaturvedi, Seemant

doi:10.1001/jamaneurol.2024.2500

JAMA Neurol

2024

DOI: 10.1001/jamaneurol.2024.2500

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Endovascular Stroke Thrombectomy for Patients With Large Ischemic Core

Huanwen Chen,

Jin Soo Lee,

Patrik Michel

et al.

Abstract: ImportanceRecently, 6 randomized clinical trials—RESCUE-Japan-LIMIT (Recovery by Endovascular Salvage for Cerebral Ultra-Acute Embolism—Japan Large Ischemic Core Trial), ANGEL-ASPECT (Trial of Endovascular Therapy for Acute Ischemic Stroke With Large Infarct), SELECT2 (Trial of Endovascular Thrombectomy for Large Ischemic Strokes), TESLA (Thrombectomy for Emergent Salvage of Large Anterior Circulation Ischemic Stroke), TENSION (Endovascular Thrombectomy for Acute Ischemic Stroke With Established Large Infarct)… Show more

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Cited by 5 publications

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Therapeutic Options for Disabling Acute Ischemic Stroke

Moreno-Gomez,

Wold

2024

Medical Clinics of North America

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Therapeutic Options for Disabling Acute Ischemic Stroke

Moreno-Gomez,

Wold

2024

Medical Clinics of North America

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Ischaemic brain oedema remains a major unmet need

Rabinstein

2024

The Lancet Neurology

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Cerebral Infarct Growth: Pathophysiology, Pragmatic Assessment, and Clinical Implications

Pensato,

Demchuk,

Menon

et al. 2025

Stroke

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Cerebral ischemic injury occurs when blood flow drops below a critical level, resulting in an energy failure. The progressive transformation of hypoperfused viable tissue, the ischemic penumbra, into infarction is a mechanism shared by patients with ischemic stroke if timely reperfusion is not achieved. Yet, the pace at which this transformation occurs, known as the infarct growth rate (IGR), exhibits remarkable heterogeneity among patients, brain regions, and over time, reflecting differences in compensatory collateral flow and ischemic tolerance. We review (1) the pathophysiology of infarct growth, (2) the advantages and pitfalls of different approaches of IGR measurement, (3) research gaps for future studies, and (4) the clinical implications of stroke progressor phenotypes. The estimated average IGR in patients with acute large vessel occlusion stroke is 5.4 mL/h although there is wide variability based on ischemic stroke subtype, occlusion location, presence of collaterals, and patient baseline status. The IGR can be calculated using various pragmatic strategies, mostly either quantifying the extension of the infarct at a particular time and dividing this measure by the time that elapsed from symptom onset to imaging assessment or by using collateral blood flow status as a radiological surrogate marker. The IGR defines a spectrum of clinical stroke phenotypes, often dichotomized into fast and slow progressors. An IGR ≥10 mL/h and the perfusion metric hypoperfusion intensity ratio ≥0.5 are commonly used definitions of fast progressors. A nuanced understanding of the IGR and stroke progressor phenotypes could have clinical implications, including informing prognostication, acute decision-making in peripheral-to-comprehensive transfer patients eligible for thrombectomy, and selection for adjuvant neuroprotective agents.

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Endovascular Stroke Thrombectomy for Patients With Large Ischemic Core

Cited by 5 publications

References 53 publications

Therapeutic Options for Disabling Acute Ischemic Stroke

Therapeutic Options for Disabling Acute Ischemic Stroke

Ischaemic brain oedema remains a major unmet need

Cerebral Infarct Growth: Pathophysiology, Pragmatic Assessment, and Clinical Implications

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