Digital Light Processing Bioprinting Advances for Microtissue Models

Digital light processing (DLP) bioprinting has been widely introduced as a fastand robust biofabrication method in tissue engineering. The technique holds a great promisefor creating tissue models because it can replicate the resolution and complexity of naturaltissues and constructs. A DLP system projects 2D images onto layers of bioink using a digitalphotomask. The resolution of DLP bioprinting strongly depends on the characteristics of theprojected light and the photo-cross-linking response of the bioink microenvironment. In thisreview, we present a summary of DLP fundamentals with a focus on bioink properties,photoinitiator selection, and light characteristics in resolution of bioprinted constructs. Asimple guideline is provided for bioengineers interested in using DLP platforms andcustomizing technical specifications for its design. The literature review reveals the promisingfuture of DLP bioprinting for disease modeling and biofabrication