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Literature DB >> 35088372

Letter to Wall Enhancement, Hemodynamics, and Morphology in Unruptured Intracranial Aneurysms with High Rupture Risk.

Masanori Tsuji¹, Fujimaro Ishida², Hidenori Suzuki³.

Abstract

Entities: Chemical

Mesh：

Year: 2022 PMID： 35088372 DOI： 10.1007/s12975-021-00982-6

Source DB: PubMed Journal: Transl Stroke Res ISSN： 1868-4483 Impact factor: 6.800

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References

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8 in total

1. Insufficient slow-flow suppression mimicking aneurysm wall enhancement in magnetic resonance vessel wall imaging: a phantom study.

Authors: Bart M W Cornelissen; Eva L Leemans; Bram F Coolen; Eva S Peper; René van den Berg; Henk A Marquering; Cornelis H Slump; Charles B L M Majoie
Journal: Neurosurg Focus Date: 2019-07-01 Impact factor: 4.047

2. Increased contrast enhancement of the parent vessel of unruptured intracranial aneurysms in 7T MR imaging.

Authors: Edgar A Samaniego; Jorge A Roa; Honghai Zhang; Timothy R Koscik; Santiago Ortega-Gutierrez; Girish Bathla; Milan Sonka; Colin Derdeyn; Vincent A Magnotta; David Hasan
Journal: J Neurointerv Surg Date: 2020-05-18 Impact factor: 5.836

Review 3. High WSS or low WSS? Complex interactions of hemodynamics with intracranial aneurysm initiation, growth, and rupture: toward a unifying hypothesis.

Authors: H Meng; V M Tutino; J Xiang; A Siddiqui
Journal: AJNR Am J Neuroradiol Date: 2013-04-18 Impact factor: 3.825

4. Using computational fluid dynamics analysis to characterize local hemodynamic features of middle cerebral artery aneurysm rupture points.

Authors: Keiji Fukazawa; Fujimaro Ishida; Yasuyuki Umeda; Yoichi Miura; Shinichi Shimosaka; Satoshi Matsushima; Waro Taki; Hidenori Suzuki
Journal: World Neurosurg Date: 2013-02-09 Impact factor: 2.104

5. Hemodynamic characteristics at the rupture site of cerebral aneurysms: a case study.

Authors: Kenichi Kono; Takeshi Fujimoto; Aki Shintani; Tomoaki Terada
Journal: Neurosurgery Date: 2012-12 Impact factor: 4.654

6. Determining the Presence of Thin-Walled Regions at High-Pressure Areas in Unruptured Cerebral Aneurysms by Using Computational Fluid Dynamics.

Authors: Tomoaki Suzuki; Hiroyuki Takao; Takashi Suzuki; Yukinao Kambayashi; Mitsuyoshi Watanabe; Hiroki Sakamoto; Issei Kan; Kengo Nishimura; Shogo Kaku; Toshihiro Ishibashi; Satoshi Ikeuchi; Makoto Yamamoto; Yukihiko Fujii; Yuichi Murayama
Journal: Neurosurgery Date: 2016-10 Impact factor: 4.654

7. Stagnation and complex flow in ruptured cerebral aneurysms: a possible association with hemostatic pattern.

Authors: Masanori Tsuji; Tatsuya Ishikawa; Fujimaro Ishida; Kazuhiro Furukawa; Yoichi Miura; Masato Shiba; Takanori Sano; Hiroshi Tanemura; Yasuyuki Umeda; Shinichi Shimosaka; Hidenori Suzuki
Journal: J Neurosurg Date: 2016-06-03 Impact factor: 5.115

8. Wall Enhancement, Hemodynamics, and Morphology in Unruptured Intracranial Aneurysms with High Rupture Risk.

Authors: Nan Lv; Christof Karmonik; Shiyue Chen; Xinrui Wang; Yibin Fang; Qinghai Huang; Jianmin Liu
Journal: Transl Stroke Res Date: 2020-01-20 Impact factor: 6.800

8 in total