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|1||Engineered in vitro models for studying pulmonary fibrosis and infectious disease||
|2||Engineering an In Vitro Silk-Based Intestinal Model Using Topographical Features.||
Tse, Megan W.
|3||INTRACELLULAR DELIVERY OF CRISPR-CAS9 VIA A SYNTHESIZED LIPID-LIKE NANOPARTICLE LIBRARY FOR GENE EDITING||
|4||INTRACELLULAR DELIVERY OF CRISPR-CAS9 VIA A SYNTHESIZED LIPID-LIKE NANOPARTICLE LIBRARY FOR GENE EDITING||
|5||Mathematical and Machine Learning Approaches to Predicting Drug Penetration in Heterogeneous Tuberculosis Lesions.||
|6||Near-infrared spectroscopy and mathematical modeling for the characterization of human cerebral hemodynamics in the microvasculature||
|7||Silk-based Tissue Engineered Constructs to Improve Tissue Regeneration and Vascularization with Stem Cells||
|8||Surface-initiated photopolymerization for cell immobilization and high-purity genome extraction.||
Nguyen, Han N.
|9||Using near-infrared spectroscopy to study static and dynamic hemoglobin contrast associated with breast cancer.||
|10||3D Functional Corneal Stromal Tissue Equivalent Based on Corneal Stromal Stem Cells and Multi-Layered Silk Film Architecture.||
Ghezzi, Chiara E.
Omenetto, Fiorenzo G.
Funderburgh, James L.
Kaplan, David, 1953-
|11||3D Printed Silk Scaffolds with Riboflavin-Induced Light Curing||
|12||3D neuronal innervated corneal tissue model||
|13||A Layered Approach to Artifact Rejection in Neural Stimulation and Recording.||
|14||A toolset for 3D in vitro tissue engineering||
Kimmerling, Erica Palma.
|15||Accelerated in vitro Degradation of Low â-sheet Silk Films by Enzyme-Mediated Pretreatment.||
|16||Adipose Tissue Engineering: Obesity Disease Model and Soft Tissue Regeneration.||
|17||Affect of Engineered Matrix Environment on Adipogenesis of Adult Adipose-Derived Stem Cells.||
|18||An Encrustation Model for Urinary Catheter Assessments||
|19||Bench-top Fabrication of Silk Microneedles for Transdermal Drug Delivery.||
|20||Biochemical and Biophysical Properties of the Cellular Microenvironment Influence the Fibrotic Response of Cardiac Fibroblasts||
|21||Bioreactor Design Optimization for Mechanical Stretch and Noninvasive Imaging.||
|22||Bioskiving: Tendon-derived Scaffolds for Biomedical Applications.||
|23||Breast Cancer Osteotropism: Disease Models and the Roles of Mesenchymal Stem Cells.||
|24||Building Interfaces: Mechanisms, fabrication, and applications at the biotic/abiotic interface for silk fibroin based bioelectronic and biooptical devices.||
|25||Cardiac Fibroblasts as a Support for Endothelial Cell Sprout Formation in Engineered Cardiac Tissue.||