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Translational Stroke Research
Published in: Translational Stroke Research 5/2013

01-10-2013 | Original Article

A Model of Rat Embolic Cerebral Infarction with a Quantifiable, Autologous Arterial Blood Clot

Authors: Norihito Shimamura, Naoya Matsuda, Kiyohide Kakuta, Akiko Narita, Hiroki Ohkuma

Published in: Translational Stroke Research | Issue 5/2013

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Abstract

We developed a novel model of a rat embolic cerebral infarction with a quantifiable autologous arterial blood clot. The left femoral artery had 0.15 ml of blood withdrawn and mixed with 10 units of thrombin in 50 μl saline. After 30 min, the clot was suctioned into a 4-French polyvinyl chloride tube. A 24-gage catheter was inserted up through the internal carotid artery via the external carotid artery stump. The 1-cm clot, at a volume of 7.2 mm3, was pushed and inserted into the internal carotid artery via the catheter. After withdrawing the catheter, the ICA blood flow recovered. We checked neurological status after 24 h (neurological free was 15, and worst was 1) and measured the infarction volume by the TTC method. Twelve rats were examined, and five sham-operated rats were included. Two rats were not able to achieve an 80 % reduction in CBF. One rat died due to cerebral infarction. The success rate in producing infarction was 83 %. The total infarction volume was 368.5 mm3 ± 61.2 se. Median neurological score was 6. Hemorrhagic transformation was not detected. Sham-operated rats revealed no infarction and no neurological deficit. The volume of infarction correlated significantly with the neurological score. We conclude that this embolic stroke model is useful in producing a human, severe cardioembolic cerebral infarction.
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Metadata
Title
A Model of Rat Embolic Cerebral Infarction with a Quantifiable, Autologous Arterial Blood Clot
Authors
Norihito Shimamura
Naoya Matsuda
Kiyohide Kakuta
Akiko Narita
Hiroki Ohkuma
Publication date
01-10-2013
Publisher
Springer US
Published in
Translational Stroke Research / Issue 5/2013
Print ISSN: 1868-4483
Electronic ISSN: 1868-601X
DOI
https://doi.org/10.1007/s12975-013-0262-5

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