Published in Interface Focus on February 06, 2016
A novel constitutive model for passive right ventricular myocardium: evidence for myofiber-collagen fiber mechanical coupling. Biomech Model Mechanobiol (2016) 0.78
Biomechanical Behavior of Bioprosthetic Heart Valve Heterograft Tissues: Characterization, Simulation, and Performance. Cardiovasc Eng Technol (2016) 0.76
A mathematical model for the determination of forming tissue moduli in needled-nonwoven scaffolds. Acta Biomater (2017) 0.75
Mitral valve leaflet remodelling during pregnancy: insights into cell-mediated recovery of tissue homeostasis. J R Soc Interface (2016) 0.75
Modeling the response of exogenously crosslinked tissue to cyclic loading: The effects of permanent set. J Mech Behav Biomed Mater (2017) 0.75
Collagens--structure, function, and biosynthesis. Adv Drug Deliv Rev (2003) 3.87
Constitutive equations for fibrous connective tissues. J Biomech (1983) 2.74
Incorporation of experimentally-derived fiber orientation into a structural constitutive model for planar collagenous tissues. J Biomech Eng (2003) 2.43
Calcification of tissue heart valve substitutes: progress toward understanding and prevention. Ann Thorac Surg (2005) 2.32
Multiaxial mechanical behavior of biological materials. Annu Rev Biomed Eng (2003) 1.99
Mechanical interactions between collagen and proteoglycans: implications for the stability of lung tissue. J Appl Physiol (1985) (2004) 1.85
A structural theory for the homogeneous biaxial stress-strain relationships in flat collagenous tissues. J Biomech (1979) 1.79
Finite element implementation of a generalized Fung-elastic constitutive model for planar soft tissues. Biomech Model Mechanobiol (2005) 1.76
Founder's Award, 25th Annual Meeting of the Society for Biomaterials, perspectives. Providence, RI, April 28-May 2, 1999. Tissue heart valves: current challenges and future research perspectives. J Biomed Mater Res (1999) 1.73
Stress-strain curve and Young's modulus of a collagen molecule as determined by the X-ray diffraction technique. J Biomech (1996) 1.70
On the biomechanics of heart valve function. J Biomech (2009) 1.69
Biaixal stress-stretch behavior of the mitral valve anterior leaflet at physiologic strain rates. Ann Biomed Eng (2006) 1.60
Stress-strain experiments on individual collagen fibrils. Biophys J (2008) 1.59
Nano measurements with micro-devices: mechanical properties of hydrated collagen fibrils. J R Soc Interface (2006) 1.53
Chemically modified collagen: a natural biomaterial for tissue replacement. J Biomed Mater Res (1987) 1.48
Elongation mechanism of collagen fibrils and force-strain relations of tendon at each level of structural hierarchy. J Biomech (1996) 1.48
A SUBUNIT MODEL FOR THE TROPOCOLLAGEN MACROMOLECULE. Proc Natl Acad Sci U S A (1964) 1.46
Simulated bioprosthetic heart valve deformation under quasi-static loading. J Biomech Eng (2005) 1.40
The molecular and fibrillar structure of collagen and its relationship to the mechanical properties of connective tissue. Biophys Chem (1988) 1.39
Micromechanical bending of single collagen fibrils using atomic force microscopy. J Biomed Mater Res A (2007) 1.38
Orthotropic mechanical properties of chemically treated bovine pericardium. Ann Biomed Eng (1998) 1.27
Noncollagenous bone matrix proteins, calcification, and thrombosis in carotid artery atherosclerosis. Arterioscler Thromb Vasc Biol (1999) 1.27
Mechanical characterization of collagen fibers and scaffolds for tissue engineering. Biomaterials (2003) 1.27
A method for planar biaxial mechanical testing that includes in-plane shear. J Biomech Eng (1999) 1.26
Mechanical properties of single electrospun collagen type I fibers. Biomaterials (2008) 1.23
Planar biaxial creep and stress relaxation of the mitral valve anterior leaflet. Ann Biomed Eng (2006) 1.17
Cardiac valves and valvular pathology: update on function, disease, repair, and replacement. Cardiovasc Pathol (2005) 1.15
Time-dependent biaxial mechanical behavior of the aortic heart valve leaflet. J Biomech (2007) 1.14
Effects of collagen fiber orientation on the response of biologically derived soft tissue biomaterials to cyclic loading. J Biomed Mater Res A (2007) 1.14
Mechanism of crosslinking of proteins by glutaraldehyde III. Reaction with collagen in tissues. Connect Tissue Res (1985) 1.12
Biaxial mechanical response of bioprosthetic heart valve biomaterials to high in-plane shear. J Biomech Eng (2003) 1.11
The relation between collagen fibril kinematics and mechanical properties in the mitral valve anterior leaflet. J Biomech Eng (2007) 1.10
The effects of collagen fiber orientation on the flexural properties of pericardial heterograft biomaterials. Biomaterials (2005) 1.09
Simulation of planar soft tissues using a structural constitutive model: Finite element implementation and validation. J Biomech (2014) 1.05
Response of heterograft heart valve biomaterials to moderate cyclic loading. J Biomed Mater Res A (2004) 1.04
Toxic reactions evoked by glutaraldehyde-fixed pericardium and cardiac valve tissue bioprosthesis. J Biomed Mater Res (1984) 1.03
Mechanism of crosslinking of proteins by glutaraldehyde II. Reaction with monomeric and polymeric collagen. Connect Tissue Res (1982) 1.00
The effect of elastin damage on the mechanics of the aortic valve. J Biomech (2001) 0.99
On the biomechanical role of glycosaminoglycans in the aortic heart valve leaflet. Acta Biomater (2012) 0.98
Bioprosthetic heart valve heterograft biomaterials: structure, mechanical behavior and computational simulation. Expert Rev Med Devices (2006) 0.94
Cyclic loading response of bioprosthetic heart valves: effects of fixation stress state on the collagen fiber architecture. Biomaterials (2005) 0.93
Relationship between collagen fibrils, glycosaminoglycans, and stress relaxation in mitral valve chordae tendineae. Ann Biomed Eng (2004) 0.92
Insights into regional adaptations in the growing pulmonary artery using a meso-scale structural model: effects of ascending aorta impingement. J Biomech Eng (2014) 0.92
Effects of fixation pressure on the biaxial mechanical behavior of porcine bioprosthetic heart valves with long-term cyclic loading. Biomaterials (2002) 0.91
Correlation of structure and viscoelastic properties in the pericardia of four mammalian species. Am J Physiol (1992) 0.89
A generalized method for the analysis of planar biaxial mechanical data using tethered testing configurations. J Biomech Eng (2015) 0.89
Mechanism of crosslinking of proteins by glutaraldehyde. IV: In vitro and in vivo stability of a crosslinked collagen matrix. Connect Tissue Res (1990) 0.88
The presence of intermolecular disulfide cross-links in type III collagen. J Biol Chem (1983) 0.87
On the presence of affine fibril and fiber kinematics in the mitral valve anterior leaflet. Biophys J (2015) 0.85
Mechanism of crosslinking of proteins by glutaraldehyde I: reaction with model compounds. Connect Tissue Res (1982) 0.84
Tissue damage and calcification may be independent mechanisms of bioprosthetic heart valve failure. J Heart Valve Dis (2001) 0.83
The bovine pericardial xenograft: I. Effect of fixation in aldehydes without constraint on the tensile viscoelastic properties of bovine pericardium. J Biomed Mater Res (1989) 0.82
Prevention of polyurethane valve cusp calcification with covalently attached bisphosphonate diethylamino moieties. J Biomed Mater Res A (2003) 0.80
The bovine pericardial xenograft: III. Effect of uniaxial and sequential biaxial stress during fixation on the tensile viscoelastic properties of bovine pericardium. J Biomed Mater Res (1989) 0.78
Dynamic behavior of lung parenchyma in shear. J Appl Physiol (1985) (1996) 0.77
Mechanics of explanted bioprosthetic heart valves. Biomed Sci Instrum (1999) 0.77
The bovine pericardial xenograft: II. Effect of tethering or pressurization during fixation on the tensile viscoelastic properties of bovine pericardium. J Biomed Mater Res (1989) 0.76