|In vitro perfused human capillary networks|
ML Moya, YH Hsu, AP Lee, CCW Hughes, SC George
Tissue Engineering Part C: Methods 19 (9), 730-737, 2013
|Secondary lymphedema in the mouse tail: lymphatic hyperplasia, VEGF-C upregulation, and the protective role of MMP-9|
JM Rutkowski, M Moya, J Johannes, J Goldman, MA Swartz
Microvascular research 72 (3), 161-171, 2006
|A microfluidic platform for generating large-scale nearly identical human microphysiological vascularized tissue arrays|
YH Hsu, ML Moya, CCW Hughes, SC George, AP Lee
Lab on a Chip 13 (15), 2990-2998, 2013
|Extraction and assembly of tissue-derived gels for cell culture and tissue engineering|
S Uriel, E Labay, M Francis-Sedlak, ML Moya, RR Weichselbaum, N Ervin, ...
Tissue Engineering Part C: Methods 15 (3), 309-321, 2009
|Design of a Bioartificial Pancreas|
EC Opara, SH Mirmalek-Sani, O Khanna, ML Moya, EM Brey
Journal of Investigative Medicine 58 (7), 831-837, 2010
|Full range physiological mass transport control in 3D tissue cultures|
YH Hsu, ML Moya, P Abiri, CCW Hughes, SC George, AP Lee
Lab on a Chip 13 (1), 81-89, 2013
|The effect of FGF-1 loaded alginate microbeads on neovascularization and adipogenesis in a vascular pedicle model of adipose tissue engineering|
ML Moya, MH Cheng, JJ Huang, ME Francis-Sedlak, S Kao, EC Opara, ...
Biomaterials 31 (10), 2816-2826, 2010
|The role of adipose protein derived hydrogels in adipogenesis|
S Uriel, JJ Huang, ML Moya, ME Francis, R Wang, S Chang, MH Cheng, ...
Biomaterials 29 (27), 3712-3719, 2008
|Synthesis of multilayered alginate microcapsules for the sustained release of fibroblast growth factor‐1|
O Khanna, ML Moya, EC Opara, EM Brey
Journal of Biomedical Materials Research Part A 95 (2), 632-640, 2010
|An integrated in vitro model of perfused tumor and cardiac tissue|
M Moya, D Tran, SC George
Stem cell research & therapy 4, 1-6, 2013
|Human induced pluripotent stem cell-derived endothelial cells for three-dimensional microphysiological systems|
YK Kurokawa, RT Yin, MR Shang, VS Shirure, ML Moya, SC George
Tissue Engineering Part C: Methods 23 (8), 474-484, 2017
|Fibroblast growth factor-1 (FGF-1) loaded microbeads enhance local capillary neovascularization|
ML Moya, MR Garfinkel, X Liu, S Lucas, EC Opara, HP Greisler, EM Brey
Journal of Surgical Research 160 (2), 208-212, 2010
|Stability of alginate microbead properties in vitro|
ML Moya, M Morley, O Khanna, EC Opara, EM Brey
Journal of Materials Science: Materials in Medicine 23, 903-912, 2012
|Collagen glycation alters neovascularization in vitro and in vivo|
ME Francis-Sedlak, ML Moya, JJ Huang, SA Lucas, N Chandrasekharan, ...
Microvascular research 80 (1), 3-9, 2010
|Microfluidic device to control interstitial flow-mediated homotypic and heterotypic cellular communication|
LF Alonzo, ML Moya, VS Shirure, SC George
Lab on a Chip 15 (17), 3521-3529, 2015
|Generation of alginate microspheres for biomedical applications|
O Khanna, JC Larson, ML Moya, EC Opara, EM Brey
Journal of visualized experiments: JoVE, 2012
|Dermis‐derived hydrogels support adipogenesis in vivo|
MH Cheng, S Uriel, ML Moya, M Francis‐Sedlak, R Wang, JJ Huang, ...
Journal of Biomedical Materials Research Part A: An Official Journal of The …, 2010
|Examining metastatic behavior within 3D bioprinted vasculature for the validation of a 3D computational flow model|
WF Hynes, M Pepona, C Robertson, J Alvarado, K Dubbin, M Triplett, ...
Science advances 6 (35), eabb3308, 2020
|Sustained delivery of FGF-1 increases vascular density in comparison to bolus administration|
ML Moya, S Lucas, M Francis-Sedlak, X Liu, MR Garfinkel, JJ Huang, ...
Microvascular research 78 (2), 142-147, 2009
|A Reconfigurable In Vitro Model for Studying the Blood–Brain Barrier|
ML Moya, M Triplett, M Simon, J Alvarado, R Booth, J Osburn, D Soscia, ...
Annals of Biomedical Engineering 48 (2), 780-793, 2020