David T. Corr

Biomechanical behavior of scar tissue and uninjured skin in a porcine model.

The mechanical properties of Drosophila jump muscle expressing wild-type and embryonic Myosin isoforms.

Laser-based direct-write techniques for cell printing.

Gelatin-based laser direct-write technique for the precise spatial patterning of cells.

The maintenance of pluripotency following laser direct-write of mouse embryonic stem cells.

Laser direct-write of single microbeads into spatially-ordered patterns.

Locked plate fixation of the comminuted distal fibula: a biomechanical study.

Engineering cellular fibers for musculoskeletal soft tissues using directed self-assembly.

Force enhancement in lengthening contractions of cat soleus muscle in situ: transient and steady-state aspects.

Biomechanics of Scar Tissue and Uninjured Skin.

A new experimental model to study force depression: the Drosophila jump muscle.

Recent advances in bioprinting and applications for biosensing.

A new experimental model for force enhancement: steady-state and transient observations of the Drosophila jump muscle.

3D brown adipogenesis to create "Brown-Fat-in-Microstrands".

A cross-bridge based model of force depression: Can a single modification address both transient and steady-state behaviors?

Study of Impingement Types and Printing Quality during Laser Printing of Viscoelastic Alginate Solutions.

Microcapsules and 3D customizable shelled microenvironments from laser direct-written microbeads.

The influence of specimen thickness and alignment on the material and failure properties of electrospun polycaprolactone nanofiber mats.

Advanced quantitative imaging and biomechanical analyses of periosteal fibers in accelerated bone growth.

Stem cell bioprinting for applications in regenerative medicine.

The effect of engineered nanotopography of electrospun microfibers on fiber rigidity and macrophage cytokine production.

Cyclic Uniaxial Tensile Strain Enhances the Mechanical Properties of Engineered, Scaffold-Free Tendon Fibers.

Multi-modal characterization of polymeric gels to determine the influence of testing method on observed elastic modulus.

Laser-based 3D bioprinting for spatial and size control of tumor spheroids and embryoid bodies.

Solvent retention in electrospun fibers affects scaffold mechanical properties.

Characterization of Spatially Graded Biomechanical Scaffolds.

Enzymatic Polymerization of Poly(glycerol-1,8-octanediol-sebacate): Versatile Poly(glycerol sebacate) Analogues that Form Monocomponent Biodegradable Fiber Scaffolds.

Non-Destructive Tumor Aggregate Morphology and Viability Quantification at Cellular Resolution, During Development and in Response to Drug.

On-Demand Radial Electrodeposition of Alginate Tubular Structures.

Poly-l-lactic acid--poly(pentadecalactone) Electrospun Fibers Result in Greater Neurite Outgrowth of Chick Dorsal Root Ganglia in Vitro Compared to Poly-l-lactic Acid Fibers.

Mechanobiology in Tendon, Ligament, and Skeletal Muscle Tissue Engineering.

A Bioreactor for Controlled Electrical and Mechanical Stimulation of Developing Scaffold-Free Constructs.

Lipase-Catalyzed Poly(glycerol-1,8-octanediol-sebacate): Biomaterial Engineering by Combining Compositional and Crosslinking Variables.

Sophorolipids: Anti-cancer activities and mechanisms.