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Literature DB >> 19540499

On the biomechanics of heart valve function.

Michael S Sacks¹, W David Merryman, David E Schmidt.

Abstract

Heart valves (HVs) are fluidic control components of the heart that ensure unidirectional blood flow during the cardiac cycle. However, this description does not adequately describe the biomechanical ramifications of their function in that their mechanics are multi-modal. Moreover, they must replicate their cyclic function over an entire lifetime, with an estimated total functional demand of least 3x10(9) cycles. The focus of the present review is on the functional biomechanics of heart valves. Thus, the focus of the present review is on functional biomechanics, referring primarily to biosolid as well as several key biofluid mechanical aspects underlying heart valve physiological function. Specifically, we refer to the mechanical behaviors of the extracellular matrix structural proteins, underlying cellular function, and their integrated relation to the major aspects of valvular hemodynamic function. While we focus on the work from the author's laboratories, relevant works of other investigators have been included whenever appropriate. We conclude with a summary of important future trends.

Entities: Chemical Disease Gene Species

Mesh：

Substances：

Year: 2009 PMID： 19540499 PMCID： PMC2746960 DOI： 10.1016/j.jbiomech.2009.05.015

Source DB: PubMed Journal: J Biomech ISSN： 0021-9290 Impact factor: 2.712

115 in total

1. Deformational dynamics of the aortic root: modes and physiologic determinants.

Authors: P Dagum; G R Green; F J Nistal; G T Daughters; T A Timek; L E Foppiano; A F Bolger; N B Ingels; D C Miller
Journal: Circulation Date: 1999-11-09 Impact factor: 29.690

Review 2. Bioengineering challenges for heart valve tissue engineering.

Authors: Michael S Sacks; Frederick J Schoen; John E Mayer
Journal: Annu Rev Biomed Eng Date: 2009 Impact factor: 9.590

3. High speed cine-radiographic study of aortic valve leaflet motion.

Authors: M J Thubrikar; J L Heckman; S P Nolan
Journal: J Heart Valve Dis Date: 1993-11

4. Dual structural and functional phenotypes of the porcine aortic valve interstitial population: characteristics of the leaflet myofibroblast.

Authors: R H Messier; B L Bass; H M Aly; J L Jones; P W Domkowski; R B Wallace; R A Hopkins
Journal: J Surg Res Date: 1994-07 Impact factor: 2.192

5. The glutaraldehyde-stabilized porcine aortic valve xenograft. I. Tensile viscoelastic properties of the fresh leaflet material.

Authors: J M Lee; D W Courtman; D R Boughner
Journal: J Biomed Mater Res Date: 1984-01

6. Biaxial mechanical properties of the natural and glutaraldehyde treated aortic valve cusp--Part I: Experimental results.

Authors: K L Billiar; M S Sacks
Journal: J Biomech Eng Date: 2000-02 Impact factor: 2.097

7. Viscoelastic properties of the aortic valve interstitial cell.

Authors: W David Merryman; Paul D Bieniek; Farshid Guilak; Michael S Sacks
Journal: J Biomech Eng Date: 2009-04 Impact factor: 2.097

8. Functional collagen fiber architecture of the pulmonary heart valve cusp.

Authors: Erinn M Joyce; Jun Liao; Frederick J Schoen; John E Mayer; Michael S Sacks
Journal: Ann Thorac Surg Date: 2009-04 Impact factor: 4.330

9. In vivo dynamic deformation of the mitral valve annulus.

Authors: Chad E Eckert; Brett Zubiate; Mathieu Vergnat; Joseph H Gorman; Robert C Gorman; Michael S Sacks
Journal: Ann Biomed Eng Date: 2009-07-08 Impact factor: 3.934

10. Anatomic basis for mitral valve modelling.

Authors: K S Kunzelman; R P Cochran; E D Verrier; R C Eberhart
Journal: J Heart Valve Dis Date: 1994-09

100 in total

1. Cyclic strain induces dual-mode endothelial-mesenchymal transformation of the cardiac valve.

Authors: Kartik Balachandran; Patrick W Alford; Jill Wylie-Sears; Josue A Goss; Anna Grosberg; Joyce Bischoff; Elena Aikawa; Robert A Levine; Kevin Kit Parker
Journal: Proc Natl Acad Sci U S A Date: 2011-11-28 Impact factor: 11.205

2. A novel fibre-ensemble level constitutive model for exogenous cross-linked collagenous tissues.

Authors: Michael S Sacks; Will Zhang; Silvia Wognum
Journal: Interface Focus Date: 2016-02-06 Impact factor: 3.906

3. A detailed mechanical and microstructural analysis of ovine tricuspid valve leaflets.

Authors: William D Meador; Mrudang Mathur; Gabriella P Sugerman; Tomasz Jazwiec; Marcin Malinowski; Matthew R Bersi; Tomasz A Timek; Manuel K Rausch
Journal: Acta Biomater Date: 2019-11-22 Impact factor: 8.947

4. Cyclic strain anisotropy regulates valvular interstitial cell phenotype and tissue remodeling in three-dimensional culture.

Authors: Russell A Gould; Karen Chin; Thom P Santisakultarm; Amanda Dropkin; Jennifer M Richards; Chris B Schaffer; Jonathan T Butcher
Journal: Acta Biomater Date: 2012-01-11 Impact factor: 8.947

Review 5. EMT-inducing biomaterials for heart valve engineering: taking cues from developmental biology.

Authors: M K Sewell-Loftin; Young Wook Chun; Ali Khademhosseini; W David Merryman
Journal: J Cardiovasc Transl Res Date: 2011-07-13 Impact factor: 4.132

6. Fixation of Bovine Pericardium-Based Tissue Biomaterial with Irreversible Chemistry Improves Biochemical and Biomechanical Properties.

Authors: H Tam; W Zhang; D Infante; N Parchment; M Sacks; N Vyavahare
Journal: J Cardiovasc Transl Res Date: 2017-02-17 Impact factor: 4.132