Multivascular networks and functional intravascular topologies within biocompatible hydrogels

Bagrat Grigoryan; Samantha J. Paulsen; Daniel C. Corbett; Daniel W. Sazer; Chelsea L. Fortin; Alexander J. Zaita; Paul T. Greenfield; Nicholas J. Calafat; John Gounley; Anderson H. Ta; Fredrik Johansson; Amanda Randles; Jessica E. Rosenkrantz; Jesse D. Louis-Rosenberg; Peter A. Galie; Kelly R. Stevens; Jordan S. Miller

doi:10.1126/science.aav9750

Abstract

Routes to independent vessel networks In air-breathing vertebrates, the circulatory and pulmonary systems contain separate networks of channels that intertwine but do not intersect with each other. Recreating such structures within cell-compatible materials has been a major challenge; even a single vasculature system can be a burden to create. Grigoryan et al. show that natural and synthetic food dyes can be used as photoabsorbers that enable stereolithographic production of hydrogels containing intricate and functional vascular architectures. Using this approach, they demonstrate functional vascular topologies for studies of fluid mixers, valves, intervascular transport, nutrient delivery, and host engraftment. Science , this issue p. 458

Keywords

Self-healing hydrogelsBiocompatible materialExtravasationComputer scienceNanotechnologyBiomedical engineeringMaterials scienceChemistryMedicinePathology

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Publication Info

Year: 2019
Type: article
Volume: 364
Issue: 6439
Pages: 458-464
Citations: 1282
Access: Closed

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APA Style

                            
                                
                                    Bagrat Grigoryan, 
                                
                                    Samantha J. Paulsen, 
                                
                                    Daniel C. Corbett
                                
                                et al.
                            
                            (2019). 
                            Multivascular networks and functional intravascular topologies within biocompatible hydrogels. 
                            Science
                            , 364
                            (6439)
                            , 458-464.
                            https://doi.org/10.1126/science.aav9750
                        

Identifiers

DOI: 10.1126/science.aav9750