Additive Manufacturing in Biomedical Applications
Volume 23A provides a comprehensive review of established and emerging 3D printing and bioprinting approaches for biomedical applications, and expansive coverage of various feedstock materials for 3D printing. The Volume includes articles on 3D printing and bioprinting of surgical models, surgical implants, and other medical devices. The introductory section considers developments and trends in additively manufactured medical devices and material aspects of additively manufactured medical devices. The polymer section considers vat polymerization and powder-bed fusion of polymers. The ceramics section contains articles on binder jet additive manufacturing and selective laser sintering of ceramics for medical applications. The metals section includes articles on additive manufacturing of stainless steel, titanium alloy, and cobalt-chromium alloy biomedical devices. The bioprinting section considers laser-induced forward transfer, piezoelectric jetting, microvalve jetting, plotting, pneumatic extrusion, and electrospinning of biomaterials. Finally, the applications section includes articles on additive manufacturing of personalized surgical instruments, orthotics, dentures, crowns and bridges, implantable energy harvesting devices, and pharmaceuticals. For information on the print version of Volume 23A, ISBN: 978-1-62708-390-4, follow this link.
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Table of Contents
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Introduction to Additive Manufacturing in Biomedical Applications
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Developments and Trends in Additively Manufactured Medical DevicesByShervin Foroughi;Shervin ForoughiConcordia University (Canada)Search for other works by this author on:Mahdi Derayatifar;Mahdi DerayatifarConcordia University (Canada)Search for other works by this author on:Mohsen Habibi;Mohsen HabibiConcordia University (Canada)Search for other works by this author on:Muthukumaran PackirisamyMuthukumaran PackirisamyConcordia University (Canada)Search for other works by this author on:Published:12 September 2022
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Material Aspects of Additively Manufactured Medical DevicesByChee Kai ChuaChee Kai ChuaSingapore University of Technology and DesignSearch for other works by this author on:Published:12 September 2022
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Polymer Additive Manufacturing Processes in Biomedical Applications
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Vat PolymerizationByCaroline A. Murphy;Caroline A. MurphyUniversity of OtagoSearch for other works by this author on:Cesar R. Alcala-Orozco;Cesar R. Alcala-OrozcoUniversity of OtagoSearch for other works by this author on:Tim B. F. Woodfield;Tim B. F. WoodfieldUniversity of OtagoSearch for other works by this author on:Published:12 September 2022
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Medical Applications of Vat PolymerizationByHideyuki Kanematsu;Hideyuki KanematsuNational Institute of Technology (KOSEN), Suzuka CollegeSearch for other works by this author on:Dana M. Barry;Dana M. BarryClarkson University and The State University of New York at CantonSearch for other works by this author on:Rafiqul Noorani;Rafiqul NooraniLoyola Marymount UniversitySearch for other works by this author on:Published:12 September 2022
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Powder-Bed Fusion of PolymersByRuban Whenish;Ruban WhenishVellore Institute of TechnologySearch for other works by this author on:Pearlin Hameed;Pearlin HameedVellore Institute of TechnologySearch for other works by this author on:Revathi Alexander;Revathi AlexanderVellore Institute of TechnologySearch for other works by this author on:Joseph Nathanael;Joseph NathanaelVellore Institute of TechnologySearch for other works by this author on:Geetha ManivasagamGeetha ManivasagamVellore Institute of TechnologySearch for other works by this author on:Published:12 September 2022
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Ceramic Additive Manufacturing Processes in Biomedical Applications
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Binder Jet Additive Manufacturing of BiomaterialsByUjjayan Majumdar;Ujjayan MajumdarWashington State UniversitySearch for other works by this author on:Amit BandyopadhyayAmit BandyopadhyayWashington State UniversitySearch for other works by this author on:Published:12 September 2022
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Selective Laser Sintering of Hydroxyapatite-Based Materials for Tissue EngineeringByChristos SoftasChristos SoftasUniversity of BirminghamSearch for other works by this author on:Published:12 September 2022
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Production of Dicalcium Phosphate with Controlled Morphology and ReactivityByMasamoto Tafu;Masamoto TafuNational Institute of Technology, Toyama CollegeSearch for other works by this author on:Takeshi ToshimaTakeshi ToshimaNational Institute of Technology, Toyama CollegeSearch for other works by this author on:Published:12 September 2022
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Metal Additive Manufacturing Processes in Biomedical Applications
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Powder-Bed FusionByLeon Pope;Leon PopeRoyal Melbourne Institute of Technology UniversitySearch for other works by this author on:Darpan Shidid;Darpan ShididRoyal Melbourne Institute of Technology UniversitySearch for other works by this author on:Kate FoxKate FoxRoyal Melbourne Institute of Technology UniversitySearch for other works by this author on:Published:12 September 2022
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Directed-Energy DepositionByMohan Sai Kiran Kumar Yadav Nartu;Mohan Sai Kiran Kumar Yadav NartuUniversity of North TexasSearch for other works by this author on:Shashank Sharma;Shashank SharmaUniversity of North TexasSearch for other works by this author on:Srinivas Aditya Mantri;Srinivas Aditya MantriUniversity of North TexasSearch for other works by this author on:Sameehan S. Joshi;Sameehan S. JoshiUniversity of North TexasSearch for other works by this author on:Mangesh V. Pantawane;Mangesh V. PantawaneUniversity of North TexasSearch for other works by this author on:Sangram Mazumder;Sangram MazumderUniversity of North TexasSearch for other works by this author on:Narendra B. Dahotre;Narendra B. DahotreUniversity of North TexasSearch for other works by this author on:Rajarshi BanerjeeRajarshi BanerjeeUniversity of North TexasSearch for other works by this author on:Published:12 September 2022
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Development of Alloy Powders for Biomedical Additive ManufacturingPublished:12 September 2022
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Additive Manufacturing of Stainless Steel Biomedical DevicesByNicholas Ury;Nicholas UryCalifornia State Polytechnic UniversitySearch for other works by this author on:Samad Firdosy;Samad FirdosyCalifornia State Polytechnic UniversitySearch for other works by this author on:Vilupanur RaviVilupanur RaviCalifornia State Polytechnic UniversitySearch for other works by this author on:Published:12 September 2022
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Additive Manufacturing of Cobalt-Chromium Alloy Biomedical DevicesByAmit Bandyopadhyay;Amit BandyopadhyayWashington State UniversitySearch for other works by this author on:Indranath Mitra;Indranath MitraWashington State UniversitySearch for other works by this author on:Susmita BoseSusmita BoseWashington State UniversitySearch for other works by this author on:Published:12 September 2022
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Additive Manufacturing of Titanium and Titanium Alloy Biomedical DevicesByW.Y. YeongW.Y. YeongNanyang Technological UniversitySearch for other works by this author on:Published:12 September 2022
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Material Aspects of Additively Manufactured Orthopedic Implants of Titanium AlloysByPrashant N. KumtaPrashant N. KumtaUniversity of PittsburghSearch for other works by this author on:Published:12 September 2022
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Biomaterials and Bioprinting
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In Situ Bioprinting—Current Applications and Future ChallengesByGabriele Maria Fortunato;Gabriele Maria FortunatoUniversity of PisaSearch for other works by this author on:Amedeo Franco Bonatti;Amedeo Franco BonattiUniversity of PisaSearch for other works by this author on:Giovanni VozziGiovanni VozziUniversity of PisaSearch for other works by this author on:Published:12 September 2022
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Rational Design of Materials for 3D Bioprinting of Bioinks for Fabricating Human TissuesByRoland KaunasRoland KaunasTexas A&M UniversitySearch for other works by this author on:Published:12 September 2022
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Stereolithographic Additive Manufacturing of Biological ScaffoldsPublished:12 September 2022
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Laser-Induced Forward Transfer of BiomaterialsByDouglas B. ChriseyDouglas B. ChriseyTulane UniversitySearch for other works by this author on:Published:12 September 2022
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Inkjetting of BiomaterialsBySrimanta BaruiSrimanta BaruiIndian Institute of Science BangaloreSearch for other works by this author on:Published:12 September 2022
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Piezoelectric Jetting of BiomaterialsPublished:12 September 2022
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Microvalve Jetting of BiomaterialsByMin WangMin WangThe University of Hong KongSearch for other works by this author on:Published:12 September 2022
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Micro/Nanoscale Plotting of BiomaterialsByParthiban Rajan;Parthiban RajanNorth Carolina State UniversitySearch for other works by this author on:Michael Daniele;Michael DanieleNorth Carolina State University and University of North Carolina at Chapel HillSearch for other works by this author on:Ashley C. BrownAshley C. BrownNorth Carolina State University and University of North Carolina at Chapel HillSearch for other works by this author on:Published:12 September 2022
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Pneumatic Extrusion of BiomaterialsByMahsius Sami;Mahsius SamiUniversity of California–IrvineSearch for other works by this author on:Rahim EsfandyarpourRahim EsfandyarpourUniversity of California–IrvineSearch for other works by this author on:Published:12 September 2022
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Extrusion-Based Three-Dimensional Bioprinting TechnologyByKanchan Maji;Kanchan MajiNational Institute of Technology RourkelaSearch for other works by this author on:Krishna PramanikKrishna PramanikNational Institute of Technology RourkelaSearch for other works by this author on:Published:12 September 2022
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High-Throughput Electrospinning of BiomaterialsByPelagia-Irene GoumaPelagia-Irene GoumaThe Ohio State UniversitySearch for other works by this author on:Published:12 September 2022
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Bioprinting/Biofabrication with Alginate/Gelatin-Based BioinksBySonja Kuth;Sonja KuthFriedrich-Alexander University of Erlangen-NurembergSearch for other works by this author on:Faina Bider;Faina BiderFriedrich-Alexander University of Erlangen-NurembergSearch for other works by this author on:Aldo R. BoccacciniAldo R. BoccacciniFriedrich-Alexander University of Erlangen-NurembergSearch for other works by this author on:Published:12 September 2022
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Three-Dimensional Bioprinting of Naturally Derived Protein-Based BiopolymersByShowan N. NazhatShowan N. NazhatMcGill UniversitySearch for other works by this author on:Published:12 September 2022
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Biomedical Applications of Additively Manufactured Materials
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Bioprinting for Bone Tissue EngineeringByChi Chun Pan;Chi Chun PanStanford University Masahiro Maruyama, Stanford University and Yamagata UniversitySearch for other works by this author on:Carolyn Kim;Carolyn KimStanford University Masahiro Maruyama, Stanford University and Yamagata UniversitySearch for other works by this author on:Jiannan Li;Jiannan LiStanford University Masahiro Maruyama, Stanford University and Yamagata UniversitySearch for other works by this author on:Elaine Lui;Elaine LuiStanford University Masahiro Maruyama, Stanford University and Yamagata UniversitySearch for other works by this author on:Brett Salazar;Brett SalazarStanford University Masahiro Maruyama, Stanford University and Yamagata UniversitySearch for other works by this author on:Stuart B. Goodman;Stuart B. GoodmanStanford University Masahiro Maruyama, Stanford University and Yamagata UniversitySearch for other works by this author on:Yunzhi P. YangYunzhi P. YangStanford University Masahiro Maruyama, Stanford University and Yamagata UniversitySearch for other works by this author on:Published:12 September 2022
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Anatomical Modeling at the Point of CarePublished:12 September 2022
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Personalized Surgical InstrumentsByAlejandro A. Espinoza OríasAlejandro A. Espinoza OríasRush UniversitySearch for other works by this author on:Published:12 September 2022
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Additive Manufacturing of Medical DevicesByTakayoshi Nakano;Takayoshi NakanoOsaka University and Osaka University Anisotropic Design and AM Research CenterSearch for other works by this author on:Koji HagiharaKoji HagiharaNagoya Institute of Technology, Osaka University and Osaka University Anisotropic Design and AM Research CenterSearch for other works by this author on:Published:12 September 2022
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Additively Manufactured OrthoticsByHarish Kumar Banga;Harish Kumar BangaNational Institute of Fashion Technology,Mumbai, IndiaSearch for other works by this author on:Published:12 September 2022
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Additively Manufactured Biomedical Energy HarvestersByAbbas Z. KouzaniAbbas Z. KouzaniDeakin UniversitySearch for other works by this author on:Published:12 September 2022
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Additive Manufacturing in Medicine and Craniofacial Applications of 3D PrintingByPublished:12 September 2022
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Additively Manufactured Dental AppliancesByRooz KhosraviRooz KhosraviUniversity of WashingtonSearch for other works by this author on:Published:12 September 2022
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Additively Manufactured Dentures, Crowns, and BridgesByZhaohui Geng;Zhaohui GengThe University of Texas–Rio Grande ValleySearch for other works by this author on:Bopaya BidandaBopaya BidandaUniversity of PittsburghSearch for other works by this author on:Published:12 September 2022
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Zirconia for Dental ImplantsBySaurabh GuptaSaurabh GuptaThe International Academy of Ceramic Implantology, Universitat Jaume I, COHO Biotechnology, Clean Implant FoundationSearch for other works by this author on:Published:12 September 2022
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