3D Bioprinting of heterogeneous aortic valve conduits with alginate/gelatin hydrogels
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Abstract
Heart valve disease is a serious and growing public health problem for which prosthetic replacement is most commonly indicated. Current prosthetic devices are inadequate for younger adults and growing children. Tissue engineered living aortic valve conduits have potential for remodeling, regeneration, and growth, but fabricating natural anatomical complexity with cellular heterogeneity remain challenging. In the current study, we implement 3D bioprinting to fabricate living alginate/gelatin hydrogel valve conduits with anatomical architecture and direct incorporation of dual cell types in a regionally constrained manner. Encapsulated aortic root sinus smooth muscle cells (SMC) and aortic valve leaflet…
Citation impact
985
total citations
- FWCI
- 15.30
- Percentile
- 100%
- References
- 59
Citations per year
Authors
4Topics & keywords
Topics
Keywords
- Self-healing hydrogels
- 3D bioprinting
- Gelatin
- Biomedical engineering
- Aortic valve
- Heart valve
- Materials science
- Collagen fiber
UN Sustainable Development Goals
- Good health and well-being
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