J
Jason A. Burdick
Researcher at University of Pennsylvania
Publications - 363
Citations - 42498
Jason A. Burdick is an academic researcher from University of Pennsylvania. The author has contributed to research in topics: Self-healing hydrogels & Tissue engineering. The author has an hindex of 103, co-authored 335 publications receiving 34137 citations. Previous affiliations of Jason A. Burdick include Duke University & University of Kentucky.
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Enhanced nutrient transport improves the depth-dependent properties of tri-layered engineered cartilage constructs with zonal co-culture of chondrocytes and MSCs
TL;DR: This study demonstrates that a layer-by-layer fabrication scheme, including co-cultures of zone-specific articular CHs and MSCs, can reproduce the depth-dependent characteristics and mechanical properties of native cartilage while minimizing the need for large numbers of chondrocytes.
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Effects of using the unloaded configuration in predicting the in vivo diastolic properties of the heart
Amir Nikou,Shauna M. Dorsey,Jeremy R. McGarvey,Joseph H. Gorman,Jason A. Burdick,James J. Pilla,Robert C. Gorman,Jonathan F. Wenk +7 more
TL;DR: The results show that when using the unloaded reference configuration, the computational method predicts material properties for LV myocardium that are softer and less anisotropic than when uses the early-diastolic filling reference configuration.
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Nanofiber-nanorod composites exhibiting light-induced reversible lower critical solution temperature transitions.
TL;DR: In this work, a photo-crosslinkable, thermoresponsive macromer was electrospun into fibrous scaffolds containing gold nanorods, suggesting that light-responsive fibrous nanocomposites can be utilized in applications such as drug delivery.
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Methods to Characterize Granular Hydrogel Rheological Properties, Porosity, and Cell Invasion.
TL;DR: Detailed methods that can be used to quantitatively characterize the rheological behavior and porosity of granular hydrogels using reagents, tools, and equipment that are typically available in biomedical engineering laboratories are described.
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Ordered, adherent layers of nanofibers enabled by supramolecular interactions
TL;DR: Stable user-defined multi-layered scaffolds were formed for cell culture or tissue engineering by exploiting the guest-host interactions of CD and Ad for macroscopic assembly.