Articles with public access mandates - Brandon T. Smith, MD, PhDLearn more
Not available anywhere: 2
Extrusion-based 3D printing of poly (propylene fumarate) in a full-factorial design
JE Trachtenberg, JK Placone, BT Smith, CM Piard, M Santoro, DW Scott, ...
ACS Biomaterials Science & Engineering 2 (10), 1771-1780, 2016
Mandates: US National Science Foundation, US National Institutes of Health, Howard …
Craniofacial regenerative medicine
BT Smith, E Watson, IA Hanna, JC Melville, AG Mikos, ME Wong
Principles of Regenerative Medicine, 887-905, 2019
Mandates: US Department of Defense, US National Institutes of Health, US Department of …
Available somewhere: 23
3D printing for the design and fabrication of polymer-based gradient scaffolds
LG Bracaglia, BT Smith, E Watson, N Arumugasaamy, AG Mikos, ...
Acta biomaterialia 56, 3-13, 2017
Mandates: US Department of Defense, US National Institutes of Health
Fabrication and mechanical characterization of 3D printed vertical uniform and gradient scaffolds for bone and osteochondral tissue engineering
SM Bittner, BT Smith, L Diaz-Gomez, CD Hudgins, AJ Melchiorri, ...
Acta biomaterialia 90, 37-48, 2019
Mandates: US National Science Foundation, US National Institutes of Health, Government …
Extrusion-based 3D printing of poly (propylene fumarate) scaffolds with hydroxyapatite gradients
JE Trachtenberg, JK Placone, BT Smith, JP Fisher, AG Mikos
Journal of Biomaterials science, Polymer edition 28 (6), 532-554, 2017
Mandates: US National Science Foundation, US National Institutes of Health, Howard …
Modular, tissue-specific, and biodegradable hydrogel cross-linkers for tissue engineering
JL Guo, YS Kim, VY Xie, BT Smith, E Watson, J Lam, HA Pearce, ...
Science advances 5 (6), eaaw7396, 2019
Mandates: US National Science Foundation, US National Institutes of Health
Improved in situ seeding of 3D printed scaffolds using cell-releasing hydrogels
M Whitely, S Cereceres, P Dhavalikar, K Salhadar, T Wilems, B Smith, ...
Biomaterials 185, 194-204, 2018
Mandates: US National Institutes of Health
Biomaterials-aided mandibular reconstruction using in vivo bioreactors
AM Tatara, GL Koons, E Watson, TC Piepergerdes, SR Shah, BT Smith, ...
Proceedings of the National Academy of Sciences 116 (14), 6954-6963, 2019
Mandates: US Department of Defense, US National Institutes of Health, US Department of …
Incorporation of fast dissolving glucose porogens into an injectable calcium phosphate cement for bone tissue engineering
BT Smith, M Santoro, EC Grosfeld, SR Shah, JJJP van den Beucken, ...
Acta biomaterialia 50, 68-77, 2017
Mandates: US Department of Defense, US National Institutes of Health
Immunomodulatory properties of stem cells and bioactive molecules for tissue engineering
ER Molina, BT Smith, SR Shah, H Shin, AG Mikos
Journal of Controlled Release 219, 107-118, 2015
Mandates: US National Institutes of Health
Effects of local antibiotic delivery from porous space maintainers on infection clearance and induction of an osteogenic membrane in an infected bone defect
SR Shah, BT Smith, AM Tatara, ER Molina, EJ Lee, TC Piepergerdes, ...
Tissue Engineering Part A 23 (3-4), 91-100, 2017
Mandates: US Department of Defense, US National Institutes of Health
Effects of shear stress gradients on ewing sarcoma cells using 3D printed scaffolds and flow perfusion
JE Trachtenberg, M Santoro, C Williams III, CM Piard, BT Smith, ...
ACS Biomaterials Science & Engineering 4 (2), 347-356, 2018
Mandates: US National Science Foundation, US Department of Defense, US National …
Multimaterial segmented fiber printing for gradient tissue engineering
L Diaz-Gomez, BT Smith, PD Kontoyiannis, SM Bittner, AJ Melchiorri, ...
Tissue Engineering Part C: Methods 25 (1), 12-24, 2019
Mandates: US National Science Foundation, US National Institutes of Health, Government …
Multimaterial dual gradient three-dimensional printing for osteogenic differentiation and spatial segregation
BT Smith, SM Bittner, E Watson, MM Smoak, L Diaz-Gomez, ER Molina, ...
Tissue Engineering Part A 26 (5-6), 239-252, 2020
Mandates: US National Science Foundation, US National Institutes of Health, Government …
Incorporation of fast dissolving glucose porogens and poly (lactic-co-glycolic acid) microparticles within calcium phosphate cements for bone tissue regeneration
BT Smith, A Lu, E Watson, M Santoro, AJ Melchiorri, EC Grosfeld, ...
Acta biomaterialia 78, 341-350, 2018
Mandates: US Department of Defense, US National Institutes of Health
Bilayered, peptide-biofunctionalized hydrogels for in vivo osteochondral tissue repair
JL Guo, YS Kim, GL Koons, J Lam, AM Navara, S Barrios, VY Xie, ...
Acta biomaterialia 128, 120-129, 2021
Mandates: US National Science Foundation, US National Institutes of Health
Click functionalized, tissue‐specific hydrogels for osteochondral tissue engineering
JL Guo, A Li, YS Kim, VY Xie, BT Smith, E Watson, G Bao, AG Mikos
Journal of Biomedical Materials Research Part A 108 (3), 684-693, 2020
Mandates: US National Institutes of Health, Cancer Prevention Research Institute of …
Multimodal pore formation in calcium phosphate cements
I Lodoso‐Torrecilla, NAP van Gestel, L Diaz‐Gomez, EC Grosfeld, ...
Journal of Biomedical Materials Research Part A 106 (2), 500-509, 2018
Mandates: US Department of Defense, US National Institutes of Health, Government of Spain
Multimodal porogen platforms for calcium phosphate cement degradation
I Lodoso‐Torrecilla, EC Grosfeld, A Marra, BT Smith, AG Mikos, ...
Journal of Biomedical Materials Research Part A 107 (8), 1713-1722, 2019
Mandates: US Department of Defense, US National Institutes of Health
Fast dissolving glucose porogens for early calcium phosphate cement degradation and bone regeneration
EC Grosfeld, BT Smith, M Santoro, I Lodoso-Torrecilla, JA Jansen, ...
Biomedical Materials 15 (2), 025002, 2020
Mandates: US Department of Defense, US National Institutes of Health
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