Joseph Freeman
Cited by
Cited by
Collagen self-assembly and the development of tendon mechanical properties
FH Silver, JW Freeman, GP Seehra
Journal of biomechanics 36 (10), 1529-1553, 2003
Fiber-based tissue-engineered scaffold for ligament replacement: design considerations and in vitro evaluation
JA Cooper, HH Lu, FK Ko, JW Freeman, CT Laurencin
Biomaterials 26 (13), 1523-1532, 2005
Viscoelastic properties of human skin and processed dermis
FH Silver, JW Freeman, D DeVore
Skin research and technology 7 (1), 18-23, 2001
Anterior cruciate ligament regeneration using braided biodegradable scaffolds: in vitro optimization studies
HH Lu, JA Cooper Jr, S Manuel, JW Freeman, MA Attawia, FK Ko, ...
Biomaterials 26 (23), 4805-4816, 2005
Ligament tissue engineering: an evolutionary materials science approach
CT Laurencin, JW Freeman
Biomaterials 26 (36), 7530-7536, 2005
3D in vitro bioengineered tumors based on collagen I hydrogels
CS Szot, CF Buchanan, JW Freeman, MN Rylander
Biomaterials 32 (31), 7905-7912, 2011
Soft robotic manipulation and locomotion with a 3D printed electroactive hydrogel
D Han, C Farino, C Yang, T Scott, D Browe, W Choi, JW Freeman, H Lee
ACS applied materials & interfaces 10 (21), 17512-17518, 2018
Tissue engineering of the anterior cruciate ligament using a braid–twist scaffold design
JW Freeman, MD Woods, CT Laurencin
Journal of biomechanics 40 (9), 2029-2036, 2007
Three-dimensional microfluidic collagen hydrogels for investigating flow-mediated tumor-endothelial signaling and vascular organization
CF Buchanan, EE Voigt, CS Szot, JW Freeman, PP Vlachos, MN Rylander
Tissue Engineering Part C: Methods 20 (1), 64-75, 2014
Characterization of electrospun poly (L‐lactide) and gold nanoparticle composite scaffolds for skeletal muscle tissue engineering
KD McKeon‐Fischer, JW Freeman
Journal of tissue engineering and regenerative medicine 5 (7), 560-568, 2011
Viscoelastic properties of young and old human dermis: a proposed molecular mechanism for elastic energy storage in collagen and elastin
FH Silver, GP Seehra, JW Freeman, D DeVore
Journal of Applied Polymer Science 86 (8), 1978-1985, 2002
Coaxial electrospun poly (ε‐caprolactone), multiwalled carbon nanotubes, and polyacrylic acid/polyvinyl alcohol scaffold for skeletal muscle tissue engineering
KD McKeon‐Fischer, DH Flagg, JW Freeman
Journal of biomedical materials research Part A 99 (3), 493-499, 2011
Utilizing NaCl to increase the porosity of electrospun materials
LD Wright, T Andric, JW Freeman
Materials Science and Engineering: C 31 (1), 30-36, 2011
Collagen as a scaffold for biomimetic mineralization of vertebrate tissues
WJ Landis, FH Silver, JW Freeman
Journal of Materials Chemistry 16 (16), 1495-1503, 2006
Molecular basis for elastic energy storage in mineralized tendon
FH Silver, JW Freeman, I Horvath, WJ Landis
Biomacromolecules 2 (3), 750-756, 2001
Electrospun poly (D, L‐lactide) and polyaniline scaffold characterization
KD McKeon, A Lewis, JW Freeman
Journal of applied polymer science 115 (3), 1566-1572, 2010
Evaluation of a hydrogel–fiber composite for ACL tissue engineering
JW Freeman, MD Woods, DA Cromer, EC Ekwueme, T Andric, EA Atiemo, ...
Journal of biomechanics 44 (4), 694-699, 2011
In Vitro Angiogenesis Induced by Tumor-Endothelial Cell Co-Culture in Bilayered, Collagen I Hydrogel Bioengineered Tumors
CS Szot, CF Buchanan, JW Freeman, MN Rylander
Tissue Engineering Part C: Methods 19 (11), 864-874, 2013
Fabrication and mechanical characterization of 3D electrospun scaffolds for tissue engineering
LD Wright, RT Young, T Andric, JW Freeman
Biomedical Materials 5 (5), 055006, 2010
Cross‐talk between endothelial and breast cancer cells regulates reciprocal expression of angiogenic factors in vitro
CF Buchanan, CS Szot, TD Wilson, S Akman, LJ Metheny‐Barlow, ...
Journal of cellular biochemistry 113 (4), 1142-1151, 2012
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