Bioprinting in microgravity

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dc.contributor.authorid0000-0003-4604-217X
dc.contributor.authorid0000-0002-5295-5701
dc.contributor.coauthorYetisen, Ali K.
dc.contributor.departmentDepartment of Mechanical Engineering
dc.contributor.departmentN/A
dc.contributor.kuauthorTaşoğlu, Savaş
dc.contributor.kuauthorSarabi, Misagh Rezapour
dc.contributor.kuprofileFaculty Member
dc.contributor.kuprofilePhD Student
dc.contributor.researchcenterKU Arçelik Research Center for Creative Industries (KUAR) / KU Arçelik Yaratıcı Endüstriler Uygulama ve Araştırma Merkezi (KUAR)
dc.contributor.researchcenterKoç University Research Center for Translational Medicine (KUTTAM) / Koç Üniversitesi Translasyonel Tıp Araştırma Merkezi (KUTTAM)
dc.contributor.schoolcollegeinstituteCollege of Engineering
dc.contributor.schoolcollegeinstituteGraduate School of Sciences and Engineering
dc.contributor.yokid291971
dc.contributor.yokidN/A
dc.date.accessioned2025-01-19T10:34:08Z
dc.date.issued2023
dc.description.abstractBioprinting as an extension of 3D printing offers capabilities for printing tissues and organs for application in biomedical engineering. Conducting bioprinting in space, where the gravity is zero, can enable new frontiers in tissue engineering. Fabrication of soft tissues, which usually collapse under their own weight, can be accelerated in microgravity conditions as the external forces are eliminated. Furthermore, human colonization in space can be supported by providing critical needs of life and ecosystems by 3D bioprinting without relying on cargos from Earth, e.g., by development and long-term employment of living engineered filters (such as sea sponges-known as critical for initiating and maintaining an ecosystem). This review covers bioprinting methods in microgravity along with providing an analysis on the process of shipping bioprinters to space and presenting a perspective on the prospects of zero-gravity bioprinting.
dc.description.indexedbyWoS
dc.description.indexedbyScopus
dc.description.indexedbyPubMed
dc.description.issue6
dc.description.openaccessGreen Published, hybrid
dc.description.publisherscopeInternational
dc.description.sponsorsS.T. acknowledges Tubitak 2232 International Fellowship for Outstanding Researchers Award (118C391), Alexander von Humboldt Research Fellowship for Experienced Researchers, Marie Sklodowska-Curie Individual Fellowship (101003361), and Royal Academy Newton-Katip Celebi Transforming Systems Through Partnership award (120N019) for financial support of this research. This work was partially supported by Science Academy's Young Scientist Awards Program (BAGEP), Outstanding Young Scientists Awards (GEBI.P), and Bilim Kahramanlari Dernegi The Young Scientist Award. This study was conducted using the service and infrastructure of Koc University Translational Medicine Research Center (KUTTAM). TOC image was created using free resources from flaticon.com.
dc.description.volume9
dc.identifier.doi10.1021/acsbiomaterials.3c00195
dc.identifier.issn2373-9878
dc.identifier.quartileQ2
dc.identifier.scopus2-s2.0-85159610153
dc.identifier.urihttps://doi.org/10.1021/acsbiomaterials.3c00195
dc.identifier.urihttps://hdl.handle.net/20.500.14288/26741
dc.identifier.wos986584600001
dc.keywords3D bioprinting
dc.keywordsMicrogravity
dc.keywordsSpace exploration
dc.keywordsTissue engineering
dc.keywordsRegenerative medicine
dc.languageen
dc.publisherAmer Chemical Soc
dc.relation.grantnoTubitak 2232 International Fellowship for Outstanding Researchers Award [118C391]; Alexander von Humboldt Research Fellowship for Experienced Researchers; Marie Sklodowska-Curie Individual Fellowship [101003361]; Royal Academy Newton-Katip Celebi Transforming Systems Through Partnership award [120N019]; Science Academy's Young Scientist Awards Program (BAGEP); Outstanding Young Scientists Awards (GEBI.P); Bilim Kahramanlari Dernegi The Young Scientist Award
dc.sourceACS Biomaterials Science & Engineering
dc.subjectMaterials Science
dc.subjectBiomaterials
dc.titleBioprinting in microgravity
dc.typeReview

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