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(Last updated : 2025-04-18 09:33:33)
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■ Journal
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1.
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Hypoxic microenvironment as a crucial factor triggering events leading to rupture of intracranial aneurysm. 2023/04
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2.
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Time-of-flight and black-blood MRI to study intracranial arteries in rats. 2024/01/09
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C5a-C5AR1 axis as a potential trigger of the rupture of intracranial aneurysms. 2024/02
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JNK2-MMP-9 axis facilitates the progression of intracranial aneurysms. 2024/08
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5.
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Time-of-flight and black-blood MRI to study intracranial arteries in rats 2024/08
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6.
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The potential of disulfiram as a drug to improve the prognosis after the onset of subarachnoid hemorrhage 2024/10
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7.
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Potential of the pharmacological inhibition of CCL2-CCR2 axis via targeting FROUNT to prevent the initiation and the progression of intracranial aneurysms in rats. 2024/11
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8.
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Pharmacological inhibition of P2RX4 receptor as a potential therapeutic strategy to prevent intracranial aneurysm formation. 2025/02
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Display 5 items
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Display all(8)
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■ Academic background
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■ Presentation
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4D-research for vascular diseases utilizing live-imaging techniques (Speech,Special/Invited Lecture) 2025/03/19
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■ Business career
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■ researchmap Member ID
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■ Home Page
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■ Department laboratory expense researcher number
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■ External Researcher ID
| orcID |
0000-0002-1578-1394
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| Researcher ID |
7000009279 |
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