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3D bioprinting of collagen to rebuild components of the human heart

by Hinton, T J , Campbell, P G , Yerneni, S , Shiwarski, D J , Feinberg, A W , Hudson, A R , Lee, A , Tashman, J W , Bliley, J M

in 3-D printers / Action potential / Bioprinting - methods / Capillaries / Cardiac ventricles / Cardiomyocytes / Collagen / Computed tomography / Embedding / Extracellular Matrix / Fabrication / Gelatin / Gelation / Heart / Heart Ventricles - anatomy & histology / Humans / Hydrogels / Hydrogen-Ion Concentration / Mechanical properties / Microvessels / Models, Anatomic / Myocytes, Cardiac / Neovascularization, Physiologic / Organs / Perfusion / pH effects / Printing / Printing, Three-Dimensional / Replication / Scaffolds / Structure-function relationships / Systole / Thickening / Three dimensional printing / Tissue engineering / X-Ray Microtomography

2019

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3D bioprinting of collagen to rebuild components of the human heart

by Hinton, T J , Campbell, P G , Yerneni, S , Shiwarski, D J , Feinberg, A W , Hudson, A R , Lee, A , Tashman, J W , Bliley, J M

2019

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3D bioprinting of collagen to rebuild components of the human heart

by Hinton, T J , Campbell, P G , Yerneni, S , Shiwarski, D J , Feinberg, A W , Hudson, A R , Lee, A , Tashman, J W , Bliley, J M

2019

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Journal Article

3D bioprinting of collagen to rebuild components of the human heart

Hinton, T J,

Campbell, P G,

Yerneni, S,

Shiwarski, D J,

Feinberg, A W,

Hudson, A R,

Lee, A,

Tashman, J W,

Bliley, J M

2019

Overview

Collagen is the primary component of the extracellular matrix in the human body. It has proved challenging to fabricate collagen scaffolds capable of replicating the structure and function of tissues and organs. We present a method to 3D-bioprint collagen using freeform reversible embedding of suspended hydrogels (FRESH) to engineer components of the human heart at various scales, from capillaries to the full organ. Control of pH-driven gelation provides 20-micrometer filament resolution, a porous microstructure that enables rapid cellular infiltration and microvascularization, and mechanical strength for fabrication and perfusion of multiscale vasculature and tri-leaflet valves. We found that FRESH 3D-bioprinted hearts accurately reproduce patient-specific anatomical structure as determined by micro-computed tomography. Cardiac ventricles printed with human cardiomyocytes showed synchronized contractions, directional action potential propagation, and wall thickening up to 14% during peak systole.

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Publisher

The American Association for the Advancement of Science

Subject

3-D printers

/ Action potential

/ Bioprinting - methods