000			02165cam a2200277zu 4500
001			88873391
003			FRCYB88873391
005			20250107105159.0
006			m o d
007			cr un
008			250107s2019 fr | o|||||0|0|||eng d
020			_a9780128157138
035			_aFRCYB88873391
040			_aFR-PaCSA _ben _c _erda
100	1		_aCheng, Christopher
245	0	1	_aHandbook of Vascular Motion _c['Cheng, Christopher']
264		1	_bElsevier Science _c2019
300			_a p.
336			_btxt _2rdacontent
337			_bc _2rdamdedia
338			_bc _2rdacarrier
650		0	_a
700	0		_aCheng, Christopher
856	4	0	_2Cyberlibris _uhttps://international.scholarvox.com/netsen/book/88873391 _qtext/html _a
520			_aHandbook of Vascular Motion provides a comprehensive review of the strategies and methods to quantify vascular motion and deformations relevant for cardiovascular device design and mechanical durability evaluation. It also explains the current state of knowledge of vascular beds that are particularly important for the medical device industry. Finally, it explores the application of vascular motion to computational simulations, benchtop testing and fatigue analysis, as well as further implications on clinical outcomes, product development and business.Describes methods to quantify vascular motion and deformations including choosing what data to collect, relevant medical imaging, image processing, geometric modeling, and deformation quantification techniquesIncludes deformations for vascular beds of particular importance in medical devices including the coronary arteries and heart, arteries of the head and neck, thoracic aorta and arch branches, abdominal aorta and visceral branches, lower extremity arteries, inferior vena cava, and lower extremity veinsExplains how to convert raw deformations into boundary conditions suitable for durability evaluation, provides examples of using this information for computational simulations, benchtop testing, and fatigue analysis, and illustrates examples of how vascular motion affect clinical outcomes, product development, and business
999			_c15737 _d15737