Ischemic Lesion Growth in Patients with a Persistent Target Mismatch After Large Vessel Occlusion
Background Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described. Methods We retrospectively reviewed patients with anterior large vessel occlusion who did not receive reperfusion, and underwent repeated perfusion imaging, with baseline im...
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| Published in: | Clinical neuroradiology (Munich) Vol. 33; no. 1; pp. 41 - 48 |
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| Abstract | Background
Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described.
Methods
We retrospectively reviewed patients with anterior large vessel occlusion who did not receive reperfusion, and underwent repeated perfusion imaging, with baseline imaging < 6 h after onset and follow-up scans from 16–168 h. A persistent target mismatch (PTM) was defined as core volume of < 100 mL, mismatch ratio > 1.2, and mismatch volume > 10 mL on follow-up imaging. Patients were divided into PTM or non-PTM groups. Ischemic core and penumbral volumes were compared between baseline and follow-up imaging between the two groups, and collateral flow status assessed using CT perfusion collateral index.
Results
A total of 25 patients (14 PTM and 11 non-PTM) were enrolled in the study. Median core volumes increased slightly in the PTM group, from 22 to 36 ml. There was a much greater increase in the non-PTM group, from 57 to 190 ml. Penumbral volumes were stable in the PTM group from a median of 79 ml at baseline to 88 ml at follow-up, whereas penumbra was reduced in the non-PTM group, from 120 to 0 ml. Collateral flow status was also better in the PTM group and the median collateral index was 33% compared with 44% in the non-PTM group (
p
= 0.043).
Conclusion
Multiple patients were identified with limited core growth and large penumbra (persistent target mismatch) > 16 h after stroke onset, likely due to more favorable collateral flow. |
|---|---|
| AbstractList | Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described.
We retrospectively reviewed patients with anterior large vessel occlusion who did not receive reperfusion, and underwent repeated perfusion imaging, with baseline imaging < 6 h after onset and follow-up scans from 16-168 h. A persistent target mismatch (PTM) was defined as core volume of < 100 mL, mismatch ratio > 1.2, and mismatch volume > 10 mL on follow-up imaging. Patients were divided into PTM or non-PTM groups. Ischemic core and penumbral volumes were compared between baseline and follow-up imaging between the two groups, and collateral flow status assessed using CT perfusion collateral index.
A total of 25 patients (14 PTM and 11 non-PTM) were enrolled in the study. Median core volumes increased slightly in the PTM group, from 22 to 36 ml. There was a much greater increase in the non-PTM group, from 57 to 190 ml. Penumbral volumes were stable in the PTM group from a median of 79 ml at baseline to 88 ml at follow-up, whereas penumbra was reduced in the non-PTM group, from 120 to 0 ml. Collateral flow status was also better in the PTM group and the median collateral index was 33% compared with 44% in the non-PTM group (p = 0.043).
Multiple patients were identified with limited core growth and large penumbra (persistent target mismatch) > 16 h after stroke onset, likely due to more favorable collateral flow. Abstract Background Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described. Methods We retrospectively reviewed patients with anterior large vessel occlusion who did not receive reperfusion, and underwent repeated perfusion imaging, with baseline imaging < 6 h after onset and follow-up scans from 16–168 h. A persistent target mismatch (PTM) was defined as core volume of < 100 mL, mismatch ratio > 1.2, and mismatch volume > 10 mL on follow-up imaging. Patients were divided into PTM or non-PTM groups. Ischemic core and penumbral volumes were compared between baseline and follow-up imaging between the two groups, and collateral flow status assessed using CT perfusion collateral index. Results A total of 25 patients (14 PTM and 11 non-PTM) were enrolled in the study. Median core volumes increased slightly in the PTM group, from 22 to 36 ml. There was a much greater increase in the non-PTM group, from 57 to 190 ml. Penumbral volumes were stable in the PTM group from a median of 79 ml at baseline to 88 ml at follow-up, whereas penumbra was reduced in the non-PTM group, from 120 to 0 ml. Collateral flow status was also better in the PTM group and the median collateral index was 33% compared with 44% in the non-PTM group ( p = 0.043). Conclusion Multiple patients were identified with limited core growth and large penumbra (persistent target mismatch) > 16 h after stroke onset, likely due to more favorable collateral flow. Background Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described. Methods We retrospectively reviewed patients with anterior large vessel occlusion who did not receive reperfusion, and underwent repeated perfusion imaging, with baseline imaging < 6 h after onset and follow-up scans from 16–168 h. A persistent target mismatch (PTM) was defined as core volume of < 100 mL, mismatch ratio > 1.2, and mismatch volume > 10 mL on follow-up imaging. Patients were divided into PTM or non-PTM groups. Ischemic core and penumbral volumes were compared between baseline and follow-up imaging between the two groups, and collateral flow status assessed using CT perfusion collateral index. Results A total of 25 patients (14 PTM and 11 non-PTM) were enrolled in the study. Median core volumes increased slightly in the PTM group, from 22 to 36 ml. There was a much greater increase in the non-PTM group, from 57 to 190 ml. Penumbral volumes were stable in the PTM group from a median of 79 ml at baseline to 88 ml at follow-up, whereas penumbra was reduced in the non-PTM group, from 120 to 0 ml. Collateral flow status was also better in the PTM group and the median collateral index was 33% compared with 44% in the non-PTM group ( p = 0.043). Conclusion Multiple patients were identified with limited core growth and large penumbra (persistent target mismatch) > 16 h after stroke onset, likely due to more favorable collateral flow. Background Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described. Methods We retrospectively reviewed patients with anterior large vessel occlusion who did not receive reperfusion, and underwent repeated perfusion imaging, with baseline imaging <â¯6â¯h after onset and follow-up scans from 16-168â¯h. A persistent target mismatch (PTM) was defined as core volume of â¯1.2, and mismatch volume >â¯10â¯mL on follow-up imaging. Patients were divided into PTM or non-PTM groups. Ischemic core and penumbral volumes were compared between baseline and follow-up imaging between the two groups, and collateral flow status assessed using CT perfusion collateral index. Results A total of 25 patients (14 PTM and 11 non-PTM) were enrolled in the study. Median core volumes increased slightly in the PTM group, from 22 to 36â¯ml. There was a much greater increase in the non-PTM group, from 57 to 190â¯ml. Penumbral volumes were stable in the PTM group from a median of 79â¯ml at baseline to 88â¯ml at follow-up, whereas penumbra was reduced in the non-PTM group, from 120 to 0â¯ml. Collateral flow status was also better in the PTM group and the median collateral index was 33% compared with 44% in the non-PTM group (pâ¯= 0.043). Conclusion Multiple patients were identified with limited core growth and large penumbra (persistent target mismatch) >â¯16â¯h after stroke onset, likely due to more favorable collateral flow. BACKGROUNDFailure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described. METHODSWe retrospectively reviewed patients with anterior large vessel occlusion who did not receive reperfusion, and underwent repeated perfusion imaging, with baseline imaging < 6 h after onset and follow-up scans from 16-168 h. A persistent target mismatch (PTM) was defined as core volume of < 100 mL, mismatch ratio > 1.2, and mismatch volume > 10 mL on follow-up imaging. Patients were divided into PTM or non-PTM groups. Ischemic core and penumbral volumes were compared between baseline and follow-up imaging between the two groups, and collateral flow status assessed using CT perfusion collateral index. RESULTSA total of 25 patients (14 PTM and 11 non-PTM) were enrolled in the study. Median core volumes increased slightly in the PTM group, from 22 to 36 ml. There was a much greater increase in the non-PTM group, from 57 to 190 ml. Penumbral volumes were stable in the PTM group from a median of 79 ml at baseline to 88 ml at follow-up, whereas penumbra was reduced in the non-PTM group, from 120 to 0 ml. Collateral flow status was also better in the PTM group and the median collateral index was 33% compared with 44% in the non-PTM group (p = 0.043). CONCLUSIONMultiple patients were identified with limited core growth and large penumbra (persistent target mismatch) > 16 h after stroke onset, likely due to more favorable collateral flow. Background Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described. Methods We retrospectively reviewed patients with anterior large vessel occlusion who did not receive reperfusion, and underwent repeated perfusion imaging, with baseline imaging <6h after onset and follow-up scans from 16-168h. A persistent target mismatch (PTM) was defined as core volume of < 100mL, mismatch ratio >1.2, and mismatch volume > 10mL on follow-up imaging. Patients were divided into PTM or non-PTM groups. Ischemic core and penumbral volumes were compared between baseline and follow-up imaging between the two groups, and collateral flow status assessed using CT perfusion collateral index. Results A total of 25 patients (14 PTM and 11 non-PTM) were enrolled in the study. Median core volumes increased slightly in the PTM group, from 22 to 36ml. There was a much greater increase in the non-PTM group, from 57 to 190ml. Penumbral volumes were stable in the PTM group from a median of 79 ml at baseline to 88 ml at follow-up, whereas penumbra was reduced in the non-PTM group, from 120 to 0 ml. Collateral flow status was also better in the PTM group and the median collateral index was 33% compared with 44% in the non-PTM group (p = 0.043). Conclusion Multiple patients were identified with limited core growth and large penumbra (persistent target mismatch) >16h after stroke onset, likely due to more favorable collateral flow. Keywords Persistent large penumbra * Little core growth * Good collateral flow * CT perfusion image * CT perfusion collateral index |
| Audience | Academic |
| Author | Kashida, Yumi Tomari Levi, Christopher R. Lillicrap, Thomas Tomari, Shinya Lin, Longting Spratt, Neil J. Garcia-Esperon, Carlos Bivard, Andrew |
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| Keywords | Good collateral flow Little core growth CT perfusion collateral index Persistent large penumbra CT perfusion image |
| Language | English |
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| Snippet | Background
Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described.
Methods
We retrospectively... Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described. We retrospectively reviewed patients with... Abstract Background Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described. Methods We... Background Failure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described. Methods We retrospectively... BackgroundFailure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described.MethodsWe retrospectively reviewed... BACKGROUNDFailure to reperfuse a cerebral occlusion resulting in a persistent penumbral pattern has not been fully described. METHODSWe retrospectively... |
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| StartPage | 41 |
| SubjectTerms | Brain Ischemia - diagnostic imaging Brain research Comparative analysis CT imaging Hospitals Humans Medical imaging Medical imaging equipment Medicine Medicine & Public Health Neurology Neuroradiology Neurosurgery Original Original Article Patients Retrospective Studies Software Stroke Stroke - diagnostic imaging Stroke - etiology Stroke - pathology Tomography, X-Ray Computed Veins & arteries |
| Title | Ischemic Lesion Growth in Patients with a Persistent Target Mismatch After Large Vessel Occlusion |
| URI | https://link.springer.com/article/10.1007/s00062-022-01180-z https://www.ncbi.nlm.nih.gov/pubmed/35789284 https://www.proquest.com/docview/2786668528 https://search.proquest.com/docview/2685033155 https://pubmed.ncbi.nlm.nih.gov/PMC10014761 |
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