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Hyperacute Perfusion Imaging Before Pediatric Thrombectomy: Analysis of the Save ChildS Study

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Hyperacute Perfusion Imaging Before Pediatric Thrombectomy: Analysis of the Save ChildS Study. / Lee, Sarah; Mlynash, Michael; Christensen, Soren; Jiang, Bin; Wintermark, Max; Strà Ter, Ronald; Broocks, Gabriel; Grams Austria, Astrid; Nikoubashman, Omid; Morotti, Andrea; Trenkler, Johannes; Möhlenbruch, Markus; Fiehler, Jens; Wildgruber, Moritz; Kemmling, Andre; Psychogios, Marios; Sporns, Peter B.

in: NEUROLOGY, Jahrgang 100, Nr. 11, 14.03.2023, S. e1148-e1158.

Publikationen: SCORING: Beitrag in Fachzeitschrift/ZeitungSCORING: ZeitschriftenaufsatzForschungBegutachtung

Harvard

Lee, S, Mlynash, M, Christensen, S, Jiang, B, Wintermark, M, Strà Ter, R, Broocks, G, Grams Austria, A, Nikoubashman, O, Morotti, A, Trenkler, J, Möhlenbruch, M, Fiehler, J, Wildgruber, M, Kemmling, A, Psychogios, M & Sporns, PB 2023, 'Hyperacute Perfusion Imaging Before Pediatric Thrombectomy: Analysis of the Save ChildS Study', NEUROLOGY, Jg. 100, Nr. 11, S. e1148-e1158. https://doi.org/10.1212/WNL.0000000000201687

APA

Lee, S., Mlynash, M., Christensen, S., Jiang, B., Wintermark, M., Strà Ter, R., Broocks, G., Grams Austria, A., Nikoubashman, O., Morotti, A., Trenkler, J., Möhlenbruch, M., Fiehler, J., Wildgruber, M., Kemmling, A., Psychogios, M., & Sporns, P. B. (2023). Hyperacute Perfusion Imaging Before Pediatric Thrombectomy: Analysis of the Save ChildS Study. NEUROLOGY, 100(11), e1148-e1158. https://doi.org/10.1212/WNL.0000000000201687

Vancouver

Lee S, Mlynash M, Christensen S, Jiang B, Wintermark M, Strà Ter R et al. Hyperacute Perfusion Imaging Before Pediatric Thrombectomy: Analysis of the Save ChildS Study. NEUROLOGY. 2023 Mär 14;100(11):e1148-e1158. https://doi.org/10.1212/WNL.0000000000201687

Bibtex

@article{257247ce61a940de8441e2f8ada80e18,
title = "Hyperacute Perfusion Imaging Before Pediatric Thrombectomy: Analysis of the Save ChildS Study",
abstract = "BACKGROUND AND OBJECTIVES: Perfusion imaging can identify adult patients with salvageable brain tissue who would benefit from thrombectomy in later time windows. The feasibility of obtaining hyperacute perfusion sequences in pediatric stroke is unknown. The aim of this study was to determine whether contrast perfusion imaging delayed time to treatment and to assess perfusion profiles in children with large vessel occlusion stroke.METHODS: The Save ChildS retrospective cohort study (January 2000-December 2018) enrolled children (1 month-18 years) with stroke who underwent thrombectomy from 27 European and U.S. stroke centers. This secondary analysis included patients with anterior circulation occlusion and available imaging for direct review by the neuroimaging core laboratory. Between-group comparisons were performed using the Wilcoxon rank-sum exact test for continuous variables or Fisher exact test for binary variables. Given the small number of patients, evaluation of perfusion imaging parameters was performed descriptively only.RESULTS: Of 33 patients with available neuroimaging, 15 (45.4%) underwent perfusion (CT perfusion n = 6; MR perfusion n = 9); all were technically adequate. The median time from onset to recanalization did not differ between groups {4 hours (interquartile range [IQR] 4-7.5) perfusion+; 3.4 hours (IQR 2.5-6.5) perfusion-, p = 0.158}. Target mismatch criteria were met by 10/15 (66.7%) patients and did not correlate with reperfusion status or functional outcome. The hypoperfusion intensity ratio (HIR) was favorable in 11/15 patients and correlated with older age but not NIHSS, time to recanalization, or stroke etiology. Favorable HIR was associated with better functional outcome at 6 months (Pediatric Stroke Outcome Measure 1.0 [IQR 0.5-2.0] vs 2.0 [1.5-3.0], p = 0.026) and modified Rankin Scale 1.0 [0-1] vs 2.0 [1.5-3.5], p = 0.048) in this small sample.DISCUSSION: Automated perfusion imaging is feasible to obtain acutely in children and does not delay time to recanalization. Larger prospective studies are needed to determine biomarkers of favorable outcome in pediatric ischemic stroke and to establish core and penumbral thresholds in children.",
author = "Sarah Lee and Michael Mlynash and Soren Christensen and Bin Jiang and Max Wintermark and {Str{\~A} Ter}, Ronald and Gabriel Broocks and {Grams Austria}, Astrid and Omid Nikoubashman and Andrea Morotti and Johannes Trenkler and Markus M{\"o}hlenbruch and Jens Fiehler and Moritz Wildgruber and Andre Kemmling and Marios Psychogios and Sporns, {Peter B}",
note = "{\textcopyright} 2022 American Academy of Neurology.",
year = "2023",
month = mar,
day = "14",
doi = "10.1212/WNL.0000000000201687",
language = "English",
volume = "100",
pages = "e1148--e1158",
journal = "NEUROLOGY",
issn = "0028-3878",
publisher = "Lippincott Williams and Wilkins",
number = "11",

}

RIS

TY - JOUR

T1 - Hyperacute Perfusion Imaging Before Pediatric Thrombectomy: Analysis of the Save ChildS Study

AU - Lee, Sarah

AU - Mlynash, Michael

AU - Christensen, Soren

AU - Jiang, Bin

AU - Wintermark, Max

AU - Strà Ter, Ronald

AU - Broocks, Gabriel

AU - Grams Austria, Astrid

AU - Nikoubashman, Omid

AU - Morotti, Andrea

AU - Trenkler, Johannes

AU - Möhlenbruch, Markus

AU - Fiehler, Jens

AU - Wildgruber, Moritz

AU - Kemmling, Andre

AU - Psychogios, Marios

AU - Sporns, Peter B

N1 - © 2022 American Academy of Neurology.

PY - 2023/3/14

Y1 - 2023/3/14

N2 - BACKGROUND AND OBJECTIVES: Perfusion imaging can identify adult patients with salvageable brain tissue who would benefit from thrombectomy in later time windows. The feasibility of obtaining hyperacute perfusion sequences in pediatric stroke is unknown. The aim of this study was to determine whether contrast perfusion imaging delayed time to treatment and to assess perfusion profiles in children with large vessel occlusion stroke.METHODS: The Save ChildS retrospective cohort study (January 2000-December 2018) enrolled children (1 month-18 years) with stroke who underwent thrombectomy from 27 European and U.S. stroke centers. This secondary analysis included patients with anterior circulation occlusion and available imaging for direct review by the neuroimaging core laboratory. Between-group comparisons were performed using the Wilcoxon rank-sum exact test for continuous variables or Fisher exact test for binary variables. Given the small number of patients, evaluation of perfusion imaging parameters was performed descriptively only.RESULTS: Of 33 patients with available neuroimaging, 15 (45.4%) underwent perfusion (CT perfusion n = 6; MR perfusion n = 9); all were technically adequate. The median time from onset to recanalization did not differ between groups {4 hours (interquartile range [IQR] 4-7.5) perfusion+; 3.4 hours (IQR 2.5-6.5) perfusion-, p = 0.158}. Target mismatch criteria were met by 10/15 (66.7%) patients and did not correlate with reperfusion status or functional outcome. The hypoperfusion intensity ratio (HIR) was favorable in 11/15 patients and correlated with older age but not NIHSS, time to recanalization, or stroke etiology. Favorable HIR was associated with better functional outcome at 6 months (Pediatric Stroke Outcome Measure 1.0 [IQR 0.5-2.0] vs 2.0 [1.5-3.0], p = 0.026) and modified Rankin Scale 1.0 [0-1] vs 2.0 [1.5-3.5], p = 0.048) in this small sample.DISCUSSION: Automated perfusion imaging is feasible to obtain acutely in children and does not delay time to recanalization. Larger prospective studies are needed to determine biomarkers of favorable outcome in pediatric ischemic stroke and to establish core and penumbral thresholds in children.

AB - BACKGROUND AND OBJECTIVES: Perfusion imaging can identify adult patients with salvageable brain tissue who would benefit from thrombectomy in later time windows. The feasibility of obtaining hyperacute perfusion sequences in pediatric stroke is unknown. The aim of this study was to determine whether contrast perfusion imaging delayed time to treatment and to assess perfusion profiles in children with large vessel occlusion stroke.METHODS: The Save ChildS retrospective cohort study (January 2000-December 2018) enrolled children (1 month-18 years) with stroke who underwent thrombectomy from 27 European and U.S. stroke centers. This secondary analysis included patients with anterior circulation occlusion and available imaging for direct review by the neuroimaging core laboratory. Between-group comparisons were performed using the Wilcoxon rank-sum exact test for continuous variables or Fisher exact test for binary variables. Given the small number of patients, evaluation of perfusion imaging parameters was performed descriptively only.RESULTS: Of 33 patients with available neuroimaging, 15 (45.4%) underwent perfusion (CT perfusion n = 6; MR perfusion n = 9); all were technically adequate. The median time from onset to recanalization did not differ between groups {4 hours (interquartile range [IQR] 4-7.5) perfusion+; 3.4 hours (IQR 2.5-6.5) perfusion-, p = 0.158}. Target mismatch criteria were met by 10/15 (66.7%) patients and did not correlate with reperfusion status or functional outcome. The hypoperfusion intensity ratio (HIR) was favorable in 11/15 patients and correlated with older age but not NIHSS, time to recanalization, or stroke etiology. Favorable HIR was associated with better functional outcome at 6 months (Pediatric Stroke Outcome Measure 1.0 [IQR 0.5-2.0] vs 2.0 [1.5-3.0], p = 0.026) and modified Rankin Scale 1.0 [0-1] vs 2.0 [1.5-3.5], p = 0.048) in this small sample.DISCUSSION: Automated perfusion imaging is feasible to obtain acutely in children and does not delay time to recanalization. Larger prospective studies are needed to determine biomarkers of favorable outcome in pediatric ischemic stroke and to establish core and penumbral thresholds in children.

U2 - 10.1212/WNL.0000000000201687

DO - 10.1212/WNL.0000000000201687

M3 - SCORING: Journal article

C2 - 36543574

VL - 100

SP - e1148-e1158

JO - NEUROLOGY

JF - NEUROLOGY

SN - 0028-3878

IS - 11

ER -