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Output details

11 - Computer Science and Informatics

University of Sheffield

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Output 33 of 109 in the submission

Article title

Coupling the Hemodynamic Environment to the Evolution of Cerebral Aneurysms: Computational Framework and Numerical Examples

Type

D - Journal article

DOI

10.1115/1.3192141

Title of journal

Journal of Biomechanical Engineering

Article number

101003

Volume number

131

Issue number

First page of article

ISSN of journal

01480731

Year of publication

2009

URL

Number of additional authors

Additional information

<28> Published in a leading bioengineering journal (IF1.9), this output describes a novel 3D computational framework [GoogleScholar:37] which integrates solid&fluid mechanics with algorithms of vascular mechanobiology. It predicts vascular disease evolution and is fundamental to achieving personalised disease management. It has had significant impact in clinical and bioengineering communities, e.g. Watton was invited by Strother (Wisconsin) to be a panel member at the Round Table Discussion ‘Understanding and Predicting Vascular Remodeling’ at the 9th ICS meeting (ics12.com); Watton has established a strategic partnership with ANSYS (world’s leading engineering simulation software providers; Grama Bhashyam<grama.bhashyam@ansys.com>) to integrate the framework completely into ANSYS.

Interdisciplinary

Yes

Cross-referral requested

Research group

None

Citation count

Proposed double-weighted

Double-weighted statement

Reserve for a double-weighted output

Non-English

English abstract