Biotinylated Photopolymers for 3D-Printed Unibody Lab-on-a-Chip Optical Platforms
Anno: 2018
Autori: Credi C., Griffini G., Levi M., Turri S.
Affiliazione autori: Politecn Milan, Piazza Leonardo da Vinci 32, I-20133 Milan, Italy.
Abstract: The present work reports the first demonstration of straightforward fabrication of monolithic unibody lab-on-a-chip (ULOCs) integrating bioactive micrometric 3D scaffolds by means of multimaterial stereolithography (SL). To this end, a novel biotin-conjugated photopolymer is successfully synthesized and optimally formulated to achieve high-performance SL-printing resolution, as demonstrated by the SL-fabrication of biotinylated structures smaller than 100 mu m. By optimizing a multimaterial single-run SL-based 3D-printing process, such biotinylated microstructures are incorporated within perfusion microchambers whose excellent optical transparency enables real-time optical microscopy analyses. Standard biotin-binding assays confirm the existence of biotin-heads on the surfaces of the embedded 3D microstructures and allow to demonstrate that the biofunctionality of biotin is not altered during the SL-printing, thus making it exploitable for further conjugation with other biomolecules. As a step forward, an in-line optical detection system is designed, prototyped via SL-printing and serially connected to the perfusion microchambers through customized world-to-chip connectors. Such detection system is successfully employed to optically analyze the solution flowing out of the microchambers, thus enabling indirect quantification of the concentration of target interacting biomolecules. The successful application of this novel biofunctional photopolymer as SL-material enables to greatly extend the versatility of SL to directly fabricate ULOCs with intrinsic biofunctionality.
Giornale/Rivista: SMALL
Volume: 14 (1) Da Pagina: 1702831-1 A: 1702831-8
Parole chiavi: 3D printing; biotinylated scaffold; real-time optical analysis; stereolithography; unibody lab-on-a-chipDOI: 10.1002/smll.201702831Citazioni: 17dati da “WEB OF SCIENCE” (of Thomson Reuters) aggiornati al: 2025-06-29Riferimenti tratti da Isi Web of Knowledge: (solo abbonati)
