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3D Bioprinted Spheroidal Droplets for Engineering the Heterocellular Coupling between Cardiomyocytes and Cardiac Fibroblasts

Raven El Khoury, Naveen Nagiah, Joel A. Mudloff, Vikram Thakur, Munmun Chattopadhyay, Binata Joddar

2021Cyborg and Bionic Systems32 citationsDOIOpen Access PDF

Abstract

Since conventional human cardiac two-dimensional (2D) cell culture and multilayered three-dimensional (3D) models fail in recapitulating cellular complexity and possess inferior translational capacity, we designed and developed a high-throughput scalable 3D bioprinted cardiac spheroidal droplet-organoid model with cardiomyocytes and cardiac fibroblasts that can be used for drug screening or regenerative engineering applications. This study helped establish the parameters for bioprinting and cross-linking a gelatin-alginate-based bioink into 3D spheroidal droplets. A flattened disk-like structure developed in prior studies from our laboratory was used as a control. The microstructural and mechanical stability of the 3D spheroidal droplets was assessed and was found to be ideal for a cardiac scaffold. Adult human cardiac fibroblasts and AC16 cardiomyocytes were mixed in the bioink and bioprinted. Live-dead assay and flow cytometry analysis revealed robust biocompatibility of the 3D spheroidal droplets that supported the growth and proliferation of the cardiac cells in the long-term cultures. Moreover, the heterocellular gap junctional coupling between the cardiomyocytes and cardiac fibroblasts further validated the 3D cardiac spheroidal droplet model.

Topics & Concepts

3D bioprintingScaffoldRegenerative medicineTissue engineeringSpheroidBiomedical engineeringCell biologyOrganoidBiocompatibilityChemistryNanotechnologyBiophysicsMaterials scienceStem cellBiologyIn vitroMedicineBiochemistryOrganic chemistry3D Printing in Biomedical ResearchTissue Engineering and Regenerative MedicineAdditive Manufacturing and 3D Printing Technologies
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