UID:
almahu_9948201686202882
Format:
1 online resource (various pagings) :
,
illustrations.
ISBN:
9780750312813
,
9780750312837
Series Statement:
[IOP release 6]
Content:
Modeling has provided not only answers to questions related to normal or pathological function but also predicted multiple adaptations of the total and individual dynamic structures that are included in cardiovascular research. The original idea of this book was to produce a textbook to be used for the course 'Modeling in Biomechanics and Mechanobiology', which is oriented to Artificial Organs and Tissue Engineering at Buenos Aires University, Argentina. This book brings together the challenges and experiences of academic scientists, leading engineers, industry researchers and students to enable them to analyse results of all aspects of biomechanics and biomedical engineering. It also provides a springboard to discuss the practical challenges and to propose solutions on this complex subject.
Note:
"Version: 20190401"--Title page verso.
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1. Structural basis of the circulatory system -- 1.1. Introduction -- 1.2. Cardiac structure -- 1.3. Vessel structure -- 1.4. The circulatory system -- 1.5. Human blood -- 1.6. Microcirculation
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2. Human circulatory function -- 2.1. Hemodynamics -- 2.2. The left ventricular function -- 2.3. Vessel function -- 2.4. Blood rheology -- 2.5. Venous return to right atrium
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3. Mathematical background for mechanical vessel analysis -- 3.1. Biomechanics -- 3.2. The constitutive equation -- 3.3. Physics of the equilibrium of blood vessels -- 3.4. Viscoelasticity -- 3.5. Frequency dependence of the elastic modulus E([omega])
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4. Modeling of the cardiovascular function -- 4.1. In vitro models -- 4.2. Isolated perfused animal heart -- 4.3. In vivo animal model -- 4.4. Ex vivo animal model -- 4.5. Steady and transient states -- 4.6. Final comments
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5. Modeling of cardiovascular dysfunction -- 5.1. Characteristics of human cardiovascular failure -- 5.2. Anatomy and physiology of animals used to model human cardiovascular diseases -- 5.3. Models of cardiac disease -- 5.4. Models of vascular disease -- 5.5. Models of cardiac failure -- 5.6. Final comments
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6. Hemodynamic modelization during therapeutical interventions : counterpulsation -- 6.1. Aortic counterpulsation -- 6.2. Left ventricular changes during aortic counterpulsation -- 6.3. Effects of aortic counterpulsation on blood circulation -- 6.4. Indexes of aortic counterpulsation -- 6.5. Arterial wall dynamics during aortic counterpulsation -- 6.6. Juxta-aortic counterpulsation -- 6.7. Pulmonary counterpulsation -- 6.8. Enhanced external counterpulsation -- 6.9. Final comments
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7. Arterial wall modelization in the time and frequency domain -- 7.1. Linear elastic theory -- 7.2. Implementation of models in arterial mechanics -- 7.3. Elastic passive behavior -- 7.4. Active elastic behavior -- 7.5. Dynamic behavior
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8. Pulse propagation in arteries -- 8.1. Introduction
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9. Damping in the vascular wall -- 9.1. Physiological bases of wall damping and filtering -- 9.2. Methodological approach -- 9.3. Experimental applications
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10. Modeling of biological prostheses -- 10.1. Introduction -- 10.2. Biomechanical evaluation on electrospun vascular grafts
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11. Arterial hypertension, chaos and fractals -- 11.1. Complexity, health and disease -- 11.2. Fractal dimension : a holistic index -- 11.3. Conclusion
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12. Mathematical blood flow models : numerical computing and applications -- 12.1. Towards a patient-specific modeling for clinical applications -- 12.2. Interaction between blood flow and the arterial wall : fluid-structure coupling -- 12.3. Implementing 1D models in arterial simulations.
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Also available in print.
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Mode of access: World Wide Web.
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System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.
Additional Edition:
Print version: ISBN 9780750312820
Language:
English
DOI:
10.1088/2053-2563/aafb0d
URL:
https://iopscience.iop.org/book/978-0-7503-1281-3
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