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| Title: | Integration and Bridging of Multiscale Bioengineering Designs and Tissue Biomechanics |
|---|---|
| From: |
edited by Jun Liao, Joyce Y. Wong.
|
| Person: |
Liao, Jun.
Wong, Joyce Y. editor. |
| Corporate Author: | |
| Other Authors: | , |
| Format: | Electronic eBook |
| Language: | English |
| Published: |
Cham :
Springer Nature Switzerland : Imprint: Springer,
2025.
|
| Edition: | 1st ed. 2025. |
| Subjects: | |
| Online Access: | https://doi.org/10.1007/978-3-031-81743-4 |
| Summary: | This book covers up-to-date knowledge of how designs found in nature use tissue hierarchies to achieve optimal functions, and how these principles are applied in bioengineering. The hierarchy-based multiscale approach has the potential to drive novel biomaterial designs, advance tissue engineering and regeneration, assist in tissue-function integration, improve high-fidelity computational modeling aided by machine learning, and enhance the development of innovative characterization tools and methodologies. This book presents the latest high-impact research achievements in bioengineered and natural hierarchical systems within a clinical context. Our aim is two-fold: (i) to emphasize the importance of integrating and bridging bioengineering designs at various tissue hierarchical levels and (ii) to foster dialogue and collaboration among bioengineers, biomechanists, and clinicians. . |
| Physical Description: | 1 Online-Ressource (IX, 561 p. 100 illus. in color.) |
| ISBN: | 9783031817434 |
Staff View
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| 505 | 0 | |a Mechanical and structural contributions of elastin and collagen fibers to interlamellar bonding in the arterial wall -- Tissue engineering of vascular constructs -- Engineering the multiscale complexity of vascular networks -- Epicardial layer and endocardial layer as mechanical protective interfaces for cardiac function -- Dynamic remodeling in live cardiomyocytes -- Controlling the contractile strength of engineered cardiac muscle by hierarchal tissue architecture -- Multiscale light-sheet for rapid assessing of cardiac architecture and function -- Spongiosa as an integrative interface for aortic valve trilayered structure -- Advances in experimental and computational biomechanics of the tricuspid heart valve -- Heterogeneous and multiscale mechanical behavior of aortic valve leaflets -- Multi-scale approach to investigate mechanically-induced changes in tricuspid valve anterior leaflet microstructure -- Multiscale Mechanical Considerations for Polymeric Heart Valve Development -- The stabilization of elastin network in heart valve tissue engineering -- Glutaraldehyde cross-linked mitral valves -- Contribution of glycosaminoglycans to tendon mechanical properties -- Interfibrillar shear stress as the loading mechanism of collagen fibrils in tendon -- Tendon-to-bone Interface: structural-mechanical integration of enthesis -- Hierarchical collagen fiber formation for functional tendon, ligament, and meniscus replacement -- Tissue-engineered collagen graft using a novel load-bearing suture technique -- Tendon/Ligament repair with biomimetic and smart cellular constructs -- Tendon/Ligament-Like tissue via three-dimensional cyclic mechanical stretch culture system. | |
| 520 | |a This book covers up-to-date knowledge of how designs found in nature use tissue hierarchies to achieve optimal functions, and how these principles are applied in bioengineering. The hierarchy-based multiscale approach has the potential to drive novel biomaterial designs, advance tissue engineering and regeneration, assist in tissue-function integration, improve high-fidelity computational modeling aided by machine learning, and enhance the development of innovative characterization tools and methodologies. This book presents the latest high-impact research achievements in bioengineered and natural hierarchical systems within a clinical context. Our aim is two-fold: (i) to emphasize the importance of integrating and bridging bioengineering designs at various tissue hierarchical levels and (ii) to foster dialogue and collaboration among bioengineers, biomechanists, and clinicians. . | ||
| 650 | 0 | |a Biomedical engineering. | |
| 650 | 0 | |a Regenerative medicine. | |
| 650 | 0 | |a Biomechanics. | |
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| 650 | 2 | 4 | |a Regenerative Medicine and Tissue Engineering. |
| 650 | 2 | 4 | |a Biomechanics. |
| 650 | 2 | 4 | |a Biomaterials. |
| 650 | 2 | 4 | |a Tissues. |
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| contents | Mechanical and structural contributions of elastin and collagen fibers to interlamellar bonding in the arterial wall -- Tissue engineering of vascular constructs -- Engineering the multiscale complexity of vascular networks -- Epicardial layer and endocardial layer as mechanical protective interfaces for cardiac function -- Dynamic remodeling in live cardiomyocytes -- Controlling the contractile strength of engineered cardiac muscle by hierarchal tissue architecture -- Multiscale light-sheet for rapid assessing of cardiac architecture and function -- Spongiosa as an integrative interface for aortic valve trilayered structure -- Advances in experimental and computational biomechanics of the tricuspid heart valve -- Heterogeneous and multiscale mechanical behavior of aortic valve leaflets -- Multi-scale approach to investigate mechanically-induced changes in tricuspid valve anterior leaflet microstructure -- Multiscale Mechanical Considerations for Polymeric Heart Valve Development -- The stabilization of elastin network in heart valve tissue engineering -- Glutaraldehyde cross-linked mitral valves -- Contribution of glycosaminoglycans to tendon mechanical properties -- Interfibrillar shear stress as the loading mechanism of collagen fibrils in tendon -- Tendon-to-bone Interface: structural-mechanical integration of enthesis -- Hierarchical collagen fiber formation for functional tendon, ligament, and meniscus replacement -- Tissue-engineered collagen graft using a novel load-bearing suture technique -- Tendon/Ligament repair with biomimetic and smart cellular constructs -- Tendon/Ligament-Like tissue via three-dimensional cyclic mechanical stretch culture system. |
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| discipline | Medizin |
| edition | 1st ed. 2025. |
| format | Electronic eBook |
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| id | ZDB-2-SBL-978-3-031-81743-4 |
| illustrated | Not Illustrated |
| indexdate | 2025-06-23T13:27:59Z |
| institution | BVB |
| isbn | 9783031817434 |
| language | English |
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| physical | 1 Online-Ressource (IX, 561 p. 100 illus. in color.) |
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| publishDate | 2025 |
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| publisher | Springer Nature Switzerland : Imprint: Springer, |
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| spelling | Integration and Bridging of Multiscale Bioengineering Designs and Tissue Biomechanics [electronic resource] / edited by Jun Liao, Joyce Y. Wong. 1st ed. 2025. Cham : Springer Nature Switzerland : Imprint: Springer, 2025. 1 Online-Ressource (IX, 561 p. 100 illus. in color.) text txt rdacontent computer c rdamedia online resource cr rdacarrier text file PDF rda Mechanical and structural contributions of elastin and collagen fibers to interlamellar bonding in the arterial wall -- Tissue engineering of vascular constructs -- Engineering the multiscale complexity of vascular networks -- Epicardial layer and endocardial layer as mechanical protective interfaces for cardiac function -- Dynamic remodeling in live cardiomyocytes -- Controlling the contractile strength of engineered cardiac muscle by hierarchal tissue architecture -- Multiscale light-sheet for rapid assessing of cardiac architecture and function -- Spongiosa as an integrative interface for aortic valve trilayered structure -- Advances in experimental and computational biomechanics of the tricuspid heart valve -- Heterogeneous and multiscale mechanical behavior of aortic valve leaflets -- Multi-scale approach to investigate mechanically-induced changes in tricuspid valve anterior leaflet microstructure -- Multiscale Mechanical Considerations for Polymeric Heart Valve Development -- The stabilization of elastin network in heart valve tissue engineering -- Glutaraldehyde cross-linked mitral valves -- Contribution of glycosaminoglycans to tendon mechanical properties -- Interfibrillar shear stress as the loading mechanism of collagen fibrils in tendon -- Tendon-to-bone Interface: structural-mechanical integration of enthesis -- Hierarchical collagen fiber formation for functional tendon, ligament, and meniscus replacement -- Tissue-engineered collagen graft using a novel load-bearing suture technique -- Tendon/Ligament repair with biomimetic and smart cellular constructs -- Tendon/Ligament-Like tissue via three-dimensional cyclic mechanical stretch culture system. This book covers up-to-date knowledge of how designs found in nature use tissue hierarchies to achieve optimal functions, and how these principles are applied in bioengineering. The hierarchy-based multiscale approach has the potential to drive novel biomaterial designs, advance tissue engineering and regeneration, assist in tissue-function integration, improve high-fidelity computational modeling aided by machine learning, and enhance the development of innovative characterization tools and methodologies. This book presents the latest high-impact research achievements in bioengineered and natural hierarchical systems within a clinical context. Our aim is two-fold: (i) to emphasize the importance of integrating and bridging bioengineering designs at various tissue hierarchical levels and (ii) to foster dialogue and collaboration among bioengineers, biomechanists, and clinicians. . Biomedical engineering. Regenerative medicine. Biomechanics. Biomaterials. Tissues. Chemistry. Biomedical Engineering and Bioengineering. Regenerative Medicine and Tissue Engineering. Liao, Jun. editor. edt http://id.loc.gov/vocabulary/relators/edt Wong, Joyce Y. editor. edt http://id.loc.gov/vocabulary/relators/edt SpringerLink (Online service) Springer Nature eBook Printed edition: 9783031817427 Printed edition: 9783031817441 Printed edition: 9783031817458 |
| spellingShingle | Integration and Bridging of Multiscale Bioengineering Designs and Tissue Biomechanics Mechanical and structural contributions of elastin and collagen fibers to interlamellar bonding in the arterial wall -- Tissue engineering of vascular constructs -- Engineering the multiscale complexity of vascular networks -- Epicardial layer and endocardial layer as mechanical protective interfaces for cardiac function -- Dynamic remodeling in live cardiomyocytes -- Controlling the contractile strength of engineered cardiac muscle by hierarchal tissue architecture -- Multiscale light-sheet for rapid assessing of cardiac architecture and function -- Spongiosa as an integrative interface for aortic valve trilayered structure -- Advances in experimental and computational biomechanics of the tricuspid heart valve -- Heterogeneous and multiscale mechanical behavior of aortic valve leaflets -- Multi-scale approach to investigate mechanically-induced changes in tricuspid valve anterior leaflet microstructure -- Multiscale Mechanical Considerations for Polymeric Heart Valve Development -- The stabilization of elastin network in heart valve tissue engineering -- Glutaraldehyde cross-linked mitral valves -- Contribution of glycosaminoglycans to tendon mechanical properties -- Interfibrillar shear stress as the loading mechanism of collagen fibrils in tendon -- Tendon-to-bone Interface: structural-mechanical integration of enthesis -- Hierarchical collagen fiber formation for functional tendon, ligament, and meniscus replacement -- Tissue-engineered collagen graft using a novel load-bearing suture technique -- Tendon/Ligament repair with biomimetic and smart cellular constructs -- Tendon/Ligament-Like tissue via three-dimensional cyclic mechanical stretch culture system. Biomedical engineering. Regenerative medicine. Biomechanics. Biomaterials. Tissues. Chemistry. Biomedical Engineering and Bioengineering. Regenerative Medicine and Tissue Engineering. |
| title | Integration and Bridging of Multiscale Bioengineering Designs and Tissue Biomechanics |
| title_auth | Integration and Bridging of Multiscale Bioengineering Designs and Tissue Biomechanics |
| title_exact_search | Integration and Bridging of Multiscale Bioengineering Designs and Tissue Biomechanics |
| title_full | Integration and Bridging of Multiscale Bioengineering Designs and Tissue Biomechanics [electronic resource] / edited by Jun Liao, Joyce Y. Wong. |
| title_fullStr | Integration and Bridging of Multiscale Bioengineering Designs and Tissue Biomechanics [electronic resource] / edited by Jun Liao, Joyce Y. Wong. |
| title_full_unstemmed | Integration and Bridging of Multiscale Bioengineering Designs and Tissue Biomechanics [electronic resource] / edited by Jun Liao, Joyce Y. Wong. |
| title_short | Integration and Bridging of Multiscale Bioengineering Designs and Tissue Biomechanics |
| title_sort | integration and bridging of multiscale bioengineering designs and tissue biomechanics |
| topic | Biomedical engineering. Regenerative medicine. Biomechanics. Biomaterials. Tissues. Chemistry. Biomedical Engineering and Bioengineering. Regenerative Medicine and Tissue Engineering. |
| topic_facet | Biomedical engineering. Regenerative medicine. Biomechanics. Biomaterials. Tissues. Chemistry. Biomedical Engineering and Bioengineering. Regenerative Medicine and Tissue Engineering. |
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