Stephanie Willerth
Stephanie Willerth
Full Professor of Biomedical Engineering, U. of Victoria
Verified email at - Homepage
Cited by
Cited by
The differentiation of embryonic stem cells seeded on electrospun nanofibers into neural lineages
J Xie, SM Willerth, X Li, MR Macewan, A Rader, SE Sakiyama-Elbert, ...
Biomaterials 30 (3), 354-362, 2009
Approaches to neural tissue engineering using scaffolds for drug delivery
SM Willerth, SE Sakiyama-Elbert
Advanced drug delivery reviews 59 (4-5), 325-338, 2007
Emerging biofabrication strategies for engineering complex tissue constructs
RD Pedde, B Mirani, A Navaei, T Styan, S Wong, M Mehrali, A Thakur, ...
Advanced Materials 29 (19), 1606061, 2017
Conductive core–sheath nanofibers and their potential application in neural tissue engineering
J Xie, MR MacEwan, SM Willerth, X Li, DW Moran, SE Sakiyama‐Elbert, ...
Advanced functional materials 19 (14), 2312-2318, 2009
Optimization of fibrin scaffolds for differentiation of murine embryonic stem cells into neural lineage cells
SM Willerth, KJ Arendas, DI Gottlieb, SE Sakiyama-Elbert
Biomaterials 27 (36), 5990-6003, 2006
Combining stem cells and biomaterial scaffolds for constructing tissues and cell delivery
SM Willerth, SE Sakiyama-Elbert
Harvard Stem Cell Institute, 2008
Metal additive manufacturing: Technology, metallurgy and modelling
S Cooke, K Ahmadi, S Willerth, R Herring
Journal of Manufacturing Processes 57, 978-1003, 2020
Cell therapy for spinal cord regeneration
SM Willerth, SE Sakiyama-Elbert
Advanced drug delivery reviews 60 (2), 263-276, 2008
The effects of soluble growth factors on embryonic stem cell differentiation inside of fibrin scaffolds
SM Willerth, TE Faxel, DI Gottlieb, SE Sakiyama‐Elbert
Stem Cells 25 (9), 2235-2244, 2007
The effect of controlled growth factor delivery on embryonic stem cell differentiation inside fibrin scaffolds
SM Willerth, A Rader, SE Sakiyama-Elbert
Stem cell research 1 (3), 205-218, 2008
3D printing of neural tissues derived from human induced pluripotent stem cells using a fibrin-based bioink
E Abelseth, L Abelseth, L De la Vega, ST Beyer, SJ Wadsworth, ...
ACS Biomaterials Science & Engineering 5 (1), 234-243, 2018
Extrusion and Microfluidic‐Based Bioprinting to Fabricate Biomimetic Tissues and Organs
E Davoodi, E Sarikhani, H Montazerian, S Ahadian, M Costantini, ...
Advanced Materials Technologies 5 (8), 1901044, 2020
Natural Biomaterials and Their Use as Bioinks for Printing Tissues
C Benwood, J Chrenek, RL Kirsch, NZ Masri, H Richards, K Teetzen, ...
Bioengineering 8 (2), 27, 2021
Biomaterial-based drug delivery systems for the controlled release of neurotrophic factors
NK Mohtaram, A Montgomery, SM Willerth
Biomedical Materials 8 (2), 022001, 2013
3D bioprinting pluripotent stem cell derived neural tissues using a novel fibrin bioink containing drug releasing microspheres
R Sharma, IPM Smits, L De La Vega, C Lee, SM Willerth
Frontiers in bioengineering and biotechnology 8, 57, 2020
Bioprinting a novel glioblastoma tumor model using a fibrin-based bioink for drug screening
C Lee, E Abelseth, L de la Vega, SM Willerth
Materials Today Chemistry 12, 78-84, 2019
Rationally designed peptides for controlled release of nerve growth factor from fibrin matrices
SM Willerth, PJ Johnson, DJ Maxwell, SR Parsons, ME Doukas, ...
Journal of Biomedical Materials Research Part A: An Official Journal of The …, 2007
Fabrication of poly (ϵ-caprolactone) microfiber scaffolds with varying topography and mechanical properties for stem cell-based tissue engineering applications
J Ko, NK Mohtaram, F Ahmed, A Montgomery, M Carlson, PCD Lee, ...
Journal of Biomaterials Science, Polymer Edition 25 (1), 1-17, 2014
3-D Bioprinting of Neural Tissue for Applications in Cell Therapy and Drug Screening
M Thomas, SM Willerth
Frontiers in bioengineering and biotechnology 5, 69, 2017
3D Bioprinting Stem Cell Derived Tissues
N Tasnim, L De la Vega, SA Kumar, L Abelseth, M Alonzo, M Amereh, ...
Cellular and Molecular Bioengineering 11 (4), 219-240, 2018
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