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Improving the identification of the epileptogenic zone and associated seizure‐spreading regions represents a significant challenge. Innovative brain‐imaging modalities tracking neurovascular dynamics during seizures may provide new disease biomark...
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RISS 인기검색어
Neurovascular multiparametric MRI defines epileptogenic and seizure propagation regions in experimental mesiotemporal lobe epilepsy
한글로보기https://www.riss.kr/link?id=O111930331
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2021년
-
작성언어
-
-
Print ISSN
0013-9580
-
Online ISSN
1528-1167
-
등재정보
SCI;SCIE;SCOPUS
-
자료형태
학술저널
-
수록면
1244-1255 [※수록면이 p5 이하이면, Review, Columns, Editor's Note, Abstract 등일 경우가 있습니다.]
-
구독기관
- 전북대학교 중앙도서관
- 성균관대학교 중앙학술정보관
- 부산대학교 중앙도서관
- 전남대학교 중앙도서관
- 제주대학교 중앙도서관
- 중앙대학교 서울캠퍼스 중앙도서관
- 인천대학교 학산도서관
- 숙명여자대학교 중앙도서관
- 서강대학교 로욜라중앙도서관
- 계명대학교 동산도서관
- 충남대학교 중앙도서관
- 한양대학교 백남학술정보관
- 이화여자대학교 중앙도서관
- 고려대학교 도서관
-
0
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다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Improving the identification of the epileptogenic zone and associated seizure‐spreading regions represents a significant challenge. Innovative brain‐imaging modalities tracking neurovascular dynamics during seizures may provide new disease biomarkers.
With use of a multi‐parametric magnetic resonance imaging (MRI) analysis at 9.4 Tesla, we examined, elaborated, and combined multiple cellular and cerebrovascular MRI read‐outs as imaging biomarkers of the epileptogenic and seizure‐propagating regions. Analyses were performed in an experimental model of mesial temporal lobe epilepsy (MTLE) generated by unilateral intra‐hippocampal injection of kainic acid (KA).
In the ipsilateral epileptogenic hippocampi, tissue T1 and blood‐brain barrier (BBB) permeability to gadolinium were increased 48‐72 hours post‐KA, as compared to sham and contralateral hippocampi. BBB permeability endured during spontaneous focal seizures (4‐6 weeks), along with a significant increase of apparent diffusion coefficient (ADC) and blood volume fraction (BVf). Simultaneously, ADC and BVf were augmented in the contralateral hippocampus, a region characterized by electroencephalographic seizure spreading, discrete histological neurovascular cell modifications, and no tissue sclerosis. We next asked whether combining all the acquired MRI parameters could deliver criteria to classify the epileptogenic from the seizure‐spreading and sham hippocampi in these experimental conditions and over time. To differentiate sham from epileptogenic areas, the automatic multi‐parametric classification provided a maximum accuracy of 97.5% (32 regions) 48‐72 hours post‐KA and of 100% (60 regions) at spontaneous seizures stage. To differentiate sham, epileptogenic, and seizure‐spreading areas, the accuracies of the automatic classification were 93.1% (42 regions) 48‐72 hours post‐KA and 95% (80 regions) at spontaneous seizure stage.
Combining multi‐parametric MRI acquisition and machine‐learning analyses delivers specific imaging identifiers to segregate the epileptogenic from the contralateral seizure‐spreading hippocampi in experimental MTLE. The potential clinical value of our findings is critically discussed.
With use of a multi‐parametric magnetic resonance imaging (MRI) analysis at 9.4 Tesla, we examined, elaborated, and combined multiple cellular and cerebrovascular MRI read‐outs as imaging biomarkers of the epileptogenic and seizure‐propagating regions. Analyses were performed in an experimental model of mesial temporal lobe epilepsy (MTLE) generated by unilateral intra‐hippocampal injection of kainic acid (KA).
In the ipsilateral epileptogenic hippocampi, tissue T1 and blood‐brain barrier (BBB) permeability to gadolinium were increased 48‐72 hours post‐KA, as compared to sham and contralateral hippocampi. BBB permeability endured during spontaneous focal seizures (4‐6 weeks), along with a significant increase of apparent diffusion coefficient (ADC) and blood volume fraction (BVf). Simultaneously, ADC and BVf were augmented in the contralateral hippocampus, a region characterized by electroencephalographic seizure spreading, discrete histological neurovascular cell modifications, and no tissue sclerosis. We next asked whether combining all the acquired MRI parameters could deliver criteria to classify the epileptogenic from the seizure‐spreading and sham hippocampi in these experimental conditions and over time. To differentiate sham from epileptogenic areas, the automatic multi‐parametric classification provided a maximum accuracy of 97.5% (32 regions) 48‐72 hours post‐KA and of 100% (60 regions) at spontaneous seizures stage. To differentiate sham, epileptogenic, and seizure‐spreading areas, the accuracies of the automatic classification were 93.1% (42 regions) 48‐72 hours post‐KA and 95% (80 regions) at spontaneous seizure stage.
Combining multi‐parametric MRI acquisition and machine‐learning analyses delivers specific imaging identifiers to segregate the epileptogenic from the contralateral seizure‐spreading hippocampi in experimental MTLE. The potential clinical value of our findings is critically discussed.
Improving the identification of the epileptogenic zone and associated seizure‐spreading regions represents a significant challenge. Innovative brain‐imaging modalities tracking neurovascular dynamics during seizures may provide new disease biomarkers.
With use of a multi‐parametric magnetic resonance imaging (MRI) analysis at 9.4 Tesla, we examined, elaborated, and combined multiple cellular and cerebrovascular MRI read‐outs as imaging biomarkers of the epileptogenic and seizure‐propagating regions. Analyses were performed in an experimental model of mesial temporal lobe epilepsy (MTLE) generated by unilateral intra‐hippocampal injection of kainic acid (KA).
In the ipsilateral epileptogenic hippocampi, tissue T1 and blood‐brain barrier (BBB) permeability to gadolinium were increased 48‐72 hours post‐KA, as compared to sham and contralateral hippocampi. BBB permeability endured during spontaneous focal seizures (4‐6 weeks), along with a significant increase of apparent diffusion coefficient (ADC) and blood volume fraction (BVf). Simultaneously, ADC and BVf were augmented in the contralateral hippocampus, a region characterized by electroencephalographic seizure spreading, discrete histological neurovascular cell modifications, and no tissue sclerosis. We next asked whether combining all the acquired MRI parameters could deliver criteria to classify the epileptogenic from the seizure‐spreading and sham hippocampi in these experimental conditions and over time. To differentiate sham from epileptogenic areas, the automatic multi‐parametric classification provided a maximum accuracy of 97.5% (32 regions) 48‐72 hours post‐KA and of 100% (60 regions) at spontaneous seizures stage. To differentiate sham, epileptogenic, and seizure‐spreading areas, the accuracies of the automatic classification were 93.1% (42 regions) 48‐72 hours post‐KA and 95% (80 regions) at spontaneous seizure stage.
Combining multi‐parametric MRI acquisition and machine‐learning analyses delivers specific imaging identifiers to segregate the epileptogenic from the contralateral seizure‐spreading hippocampi in experimental MTLE. The potential clinical value of our findings is critically discussed.
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