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Dual-modality imaging system for monitoring human heart organoids beating in vitro

Senyue Hao, Chao Ren, Fei Wang, Kibeom Park, Brett Volmert, Aitor Aguirre, Chao Zhou

2023Optics Letters19 citationsDOIOpen Access PDF

Abstract

To reveal the three-dimensional microstructure and calcium dynamics of human heart organoids (hHOs), we developed a dual-modality imaging system combining the advantages of optical coherence tomography (OCT) and fluorescence microscopy. OCT provides high-resolution volumetric structural information, while fluorescence imaging indicates the electrophysiology of the hHOs' beating behavior. We verified that concurrent OCT motion mode (M-mode) and calcium imaging retrieved the same beating pattern from the heart organoids. We further applied dynamic contrast OCT (DyC-OCT) analysis to strengthen the verification and localize the beating clusters inside the hHOs. This imaging platform provides a powerful tool for studying and assessing hHOs in vitro, with potential applications in disease modeling and drug screening.

Topics & Concepts

Optical coherence tomographyOrganoidBiomedical engineeringModality (human–computer interaction)Fluorescence-lifetime imaging microscopyMolecular imagingFluorescence microscopeMicroscopyMaterials scienceComputer scienceOpticsFluorescenceMedicineArtificial intelligenceIn vivoNeurosciencePhysicsBiologyBiotechnologyCardiac electrophysiology and arrhythmiasAdvanced Fluorescence Microscopy TechniquesOptical Coherence Tomography Applications
Dual-modality imaging system for monitoring human heart organoids beating in vitro | Litcius