Topographic distribution of cerebral infarct probability in patients with acute ischemic stroke: mapping of intra-arterial treatment effect

A. M. M. Boers; O. A. Berkhemer; C. H. Slump; W. H. van Zwam; Y. B. W. E. M. Roos; A. van der Lugt; R. J. van Oostenbrugge; A. J. Yoo; D. W. J. Dippel; H. A. Marquering; C. B. L. M. Majoie; MR CLEAN Trial Investigators

doi:10.1136/neurintsurg-2016-012387

Topographic distribution of cerebral infarct probability in patients with acute ischemic stroke: mapping of intra-arterial treatment effect

A. M. M. Boers^*, O. A. Berkhemer, C. H. Slump, W. H. van Zwam, Y. B. W. E. M. Roos, A. van der Lugt, R. J. van Oostenbrugge, A. J. Yoo, D. W. J. Dippel, H. A. Marquering, C. B. L. M. Majoie, MR CLEAN Trial Investigators

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

6 Citations (Web of Science)

Abstract

Background Since proof emerged that IA treatment (IAT) is beneficial for patients with acute ischemic stroke, it has become the standard method of care. Despite these positive results, recovery to functional independence is established in only about one-third of treated patients. The effect of IAT is commonly assessed by functional outcome, whereas its effect on brain tissue salvage is considered a secondary outcome measure (at most). Because patient and treatment selection needs to be improved, understanding the treatment effect on brain tissue salvage is of utmost importance.

Objective To introduce infarct probability maps to estimate the location and extent of tissue damage based on patient baseline characteristics and treatment type.

Methods Cerebral infarct probability maps were created by combining automatically segmented infarct distributions using follow-up CT images of 281 patients from the MR CLEAN trial. Comparison of infarct probability maps allows visualization and quantification of probable treatment effects. Treatment impact was calculated for 10 Alberta Stroke Program Early CT Score (ASPECTS) and 27 anatomical regions.

Results The insular cortex had the highest infarct probability in both control and IAT populations (47.2% and 42.6%, respectively). Comparison showed significant lower infarct probability in 4 ASPECTS and 17 anatomical regions in favor of IAT. Most salvaged tissue was found within the ASPECTS M2 region, which was 8.5% less likely to infarct.

Conclusions Probability maps intuitively visualize the topographic distribution of infarct probability due to treatment, which makes it a promising tool for estimating the effect of treatment.

Original language	English
Pages (from-to)	431-436
Number of pages	7
Journal	Journal of Neurointerventional Surgery
Volume	9
Issue number	5
DOIs	https://doi.org/10.1136/neurintsurg-2016-012387
Publication status	Published - May 2017

Keywords

ENDOVASCULAR TREATMENT
HEMISPHERIC STROKE
BRANCH OCCLUSION
NONCONTRAST CT
ARTERY TRUNK
DIGITAL MAP
RECANALIZATION
SELECTION
THERAPY
THROMBECTOMY

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10.1136/neurintsurg-2016-012387

Cite this

Boers, A. M. M., Berkhemer, O. A., Slump, C. H., van Zwam, W. H., Roos, Y. B. W. E. M., van der Lugt, A., van Oostenbrugge, R. J., Yoo, A. J., Dippel, D. W. J., Marquering, H. A., Majoie, C. B. L. M., & MR CLEAN Trial Investigators (2017). Topographic distribution of cerebral infarct probability in patients with acute ischemic stroke: mapping of intra-arterial treatment effect. Journal of Neurointerventional Surgery, 9(5), 431-436. https://doi.org/10.1136/neurintsurg-2016-012387

@article{a37483c7bf714d7f812772fbc9f8cf23,

title = "Topographic distribution of cerebral infarct probability in patients with acute ischemic stroke: mapping of intra-arterial treatment effect",

abstract = "Background Since proof emerged that IA treatment (IAT) is beneficial for patients with acute ischemic stroke, it has become the standard method of care. Despite these positive results, recovery to functional independence is established in only about one-third of treated patients. The effect of IAT is commonly assessed by functional outcome, whereas its effect on brain tissue salvage is considered a secondary outcome measure (at most). Because patient and treatment selection needs to be improved, understanding the treatment effect on brain tissue salvage is of utmost importance.Objective To introduce infarct probability maps to estimate the location and extent of tissue damage based on patient baseline characteristics and treatment type.Methods Cerebral infarct probability maps were created by combining automatically segmented infarct distributions using follow-up CT images of 281 patients from the MR CLEAN trial. Comparison of infarct probability maps allows visualization and quantification of probable treatment effects. Treatment impact was calculated for 10 Alberta Stroke Program Early CT Score (ASPECTS) and 27 anatomical regions.Results The insular cortex had the highest infarct probability in both control and IAT populations (47.2% and 42.6%, respectively). Comparison showed significant lower infarct probability in 4 ASPECTS and 17 anatomical regions in favor of IAT. Most salvaged tissue was found within the ASPECTS M2 region, which was 8.5% less likely to infarct.Conclusions Probability maps intuitively visualize the topographic distribution of infarct probability due to treatment, which makes it a promising tool for estimating the effect of treatment.",

keywords = "ENDOVASCULAR TREATMENT, HEMISPHERIC STROKE, BRANCH OCCLUSION, NONCONTRAST CT, ARTERY TRUNK, DIGITAL MAP, RECANALIZATION, SELECTION, THERAPY, THROMBECTOMY",

author = "Boers, {A. M. M.} and Berkhemer, {O. A.} and Slump, {C. H.} and {van Zwam}, {W. H.} and Roos, {Y. B. W. E. M.} and {van der Lugt}, A. and {van Oostenbrugge}, {R. J.} and Yoo, {A. J.} and Dippel, {D. W. J.} and Marquering, {H. A.} and Majoie, {C. B. L. M.} and {MR CLEAN Trial Investigators}",

year = "2017",

month = may,

doi = "10.1136/neurintsurg-2016-012387",

language = "English",

volume = "9",

pages = "431--436",

journal = "Journal of Neurointerventional Surgery",

issn = "1759-8478",

publisher = "BMJ Publishing Group",

number = "5",

}

Boers, AMM, Berkhemer, OA, Slump, CH, van Zwam, WH, Roos, YBWEM, van der Lugt, A, van Oostenbrugge, RJ, Yoo, AJ, Dippel, DWJ, Marquering, HA, Majoie, CBLM & MR CLEAN Trial Investigators 2017, 'Topographic distribution of cerebral infarct probability in patients with acute ischemic stroke: mapping of intra-arterial treatment effect', Journal of Neurointerventional Surgery, vol. 9, no. 5, pp. 431-436. https://doi.org/10.1136/neurintsurg-2016-012387

TY - JOUR

T1 - Topographic distribution of cerebral infarct probability in patients with acute ischemic stroke

T2 - mapping of intra-arterial treatment effect

AU - Boers, A. M. M.

AU - Berkhemer, O. A.

AU - Slump, C. H.

AU - van Zwam, W. H.

AU - Roos, Y. B. W. E. M.

AU - van der Lugt, A.

AU - van Oostenbrugge, R. J.

AU - Yoo, A. J.

AU - Dippel, D. W. J.

AU - Marquering, H. A.

AU - Majoie, C. B. L. M.

AU - MR CLEAN Trial Investigators

PY - 2017/5

Y1 - 2017/5

N2 - Background Since proof emerged that IA treatment (IAT) is beneficial for patients with acute ischemic stroke, it has become the standard method of care. Despite these positive results, recovery to functional independence is established in only about one-third of treated patients. The effect of IAT is commonly assessed by functional outcome, whereas its effect on brain tissue salvage is considered a secondary outcome measure (at most). Because patient and treatment selection needs to be improved, understanding the treatment effect on brain tissue salvage is of utmost importance.Objective To introduce infarct probability maps to estimate the location and extent of tissue damage based on patient baseline characteristics and treatment type.Methods Cerebral infarct probability maps were created by combining automatically segmented infarct distributions using follow-up CT images of 281 patients from the MR CLEAN trial. Comparison of infarct probability maps allows visualization and quantification of probable treatment effects. Treatment impact was calculated for 10 Alberta Stroke Program Early CT Score (ASPECTS) and 27 anatomical regions.Results The insular cortex had the highest infarct probability in both control and IAT populations (47.2% and 42.6%, respectively). Comparison showed significant lower infarct probability in 4 ASPECTS and 17 anatomical regions in favor of IAT. Most salvaged tissue was found within the ASPECTS M2 region, which was 8.5% less likely to infarct.Conclusions Probability maps intuitively visualize the topographic distribution of infarct probability due to treatment, which makes it a promising tool for estimating the effect of treatment.

AB - Background Since proof emerged that IA treatment (IAT) is beneficial for patients with acute ischemic stroke, it has become the standard method of care. Despite these positive results, recovery to functional independence is established in only about one-third of treated patients. The effect of IAT is commonly assessed by functional outcome, whereas its effect on brain tissue salvage is considered a secondary outcome measure (at most). Because patient and treatment selection needs to be improved, understanding the treatment effect on brain tissue salvage is of utmost importance.Objective To introduce infarct probability maps to estimate the location and extent of tissue damage based on patient baseline characteristics and treatment type.Methods Cerebral infarct probability maps were created by combining automatically segmented infarct distributions using follow-up CT images of 281 patients from the MR CLEAN trial. Comparison of infarct probability maps allows visualization and quantification of probable treatment effects. Treatment impact was calculated for 10 Alberta Stroke Program Early CT Score (ASPECTS) and 27 anatomical regions.Results The insular cortex had the highest infarct probability in both control and IAT populations (47.2% and 42.6%, respectively). Comparison showed significant lower infarct probability in 4 ASPECTS and 17 anatomical regions in favor of IAT. Most salvaged tissue was found within the ASPECTS M2 region, which was 8.5% less likely to infarct.Conclusions Probability maps intuitively visualize the topographic distribution of infarct probability due to treatment, which makes it a promising tool for estimating the effect of treatment.

KW - ENDOVASCULAR TREATMENT

KW - HEMISPHERIC STROKE

KW - BRANCH OCCLUSION

KW - NONCONTRAST CT

KW - ARTERY TRUNK

KW - DIGITAL MAP

KW - RECANALIZATION

KW - SELECTION

KW - THERAPY

KW - THROMBECTOMY

U2 - 10.1136/neurintsurg-2016-012387

DO - 10.1136/neurintsurg-2016-012387

M3 - Article

C2 - 27112775

SN - 1759-8478

VL - 9

SP - 431

EP - 436

JO - Journal of Neurointerventional Surgery

JF - Journal of Neurointerventional Surgery

IS - 5

ER -