00987nam 2200313 450 99624013360331620230406163835.0978-1-10700-217-320171222d2016----km y0itay5003 baengGBy 00 yQuantum computation and quantum informationMichael A. Nielsen & Isaac L. Chuang10.th Anniversary editionCambridgeCambridge University Press2016XXXI, 676 p.ill.25 cmInformatica quantisticaBNCFMeccanica quantisticaBNCF511.8NIELSENMichael A.65700CHIANGIsaac L.752336ITsalbcISBD996240133603316511.8 NIE 140508 Sci.511.800332348511.8 NIE 1 a41361 Sci.511.800337293BKSCIQuantum computation and quantum information1512767UNISA01887nam 2200493I 450 991070960240332120180613153248.0(CKB)5470000002472217(OCoLC)1040037828(EXLCZ)99547000000247221720180613d2017 ua 0engurmn|||||||||txtrdacontentcrdamediacrrdacarrierEvaluation of noise exposures in the knockoff areas of an iron foundry /Scott E. BrueckCincinnati, OH :U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health,2017.1 online resource (iv, 23 pages) color illustrationsReport ;no. 2009-0224-3274"March 2017."Includes bibliographical references (page 21).Health hazard evaluation report 2009-0224-3274Iron and steel workersHealth and hygieneUnited StatesIron foundingUnited StatesIron foundriesUnited StatesNoisePhysiological effectUnited StatesNoiseUnited StatesMeasurementNoise controlUnited StatesIron and steel workersHealth and hygieneIron foundingIron foundriesNoisePhysiological effectNoiseMeasurement.Noise controlBrueck Scott E.1405294National Institute for Occupational Safety and Health,Health Hazard Evaluation Program (U.S.),GPOGPOBOOK9910709602403321Evaluation of noise exposures in the knockoff areas of an iron foundry3504059UNINA04446nam 22006735 450 991055274060332120251113212721.03-030-92014-310.1007/978-3-030-92014-2(MiAaPQ)EBC6914959(Au-PeEL)EBL6914959(CKB)21382873600041(PPN)261524437(OCoLC)1303085758(DE-He213)978-3-030-92014-2(EXLCZ)992138287360004120220307d2022 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierBone Tissue Engineering Bench to Bedside Using 3D Printing /edited by Fernando P.S. Guastaldi, Bhushan Mahadik1st ed. 2022.Cham :Springer International Publishing :Imprint: Springer,2022.1 online resource (318 pages)Biomedical and Life Sciences SeriesPrint version: Guastaldi, Fernando P. S. Bone Tissue Engineering Cham : Springer International Publishing AG,c2022 9783030920135 Includes bibliographical references and index.1. Introduction (market, clinical need, bone grafts) a. Choice 1: Alan S Herford, DDS, MD (Loma Linda University) -- 2. Basic bone biology a. Choice 1: David T Scadden, MD (Massachusetts General Hospital) -- 3. Principles of bone tissue engineering a. Choice 1: Antonios G Mikos, PhD (Rice University) b. Choice 2: Susmita Bose, PhD (Washington State University) -- 4. Additive manufacturing technologies a. Choice 1: Anthony Atala, MD (Wake Forest School of Medicine) b. Choice 2: Jennifer A Lewis, ScD (Harvard University) -- 5. 3D printing scaffolds for oral and maxillofacial regeneration a. Choice 1: Fernando PS Guastaldi, PhD (Massachusetts General Hospital) and Maria J Troulis, MsC (Massachusetts General Hospital) -- 6. 3D printing scaffolds for orthopedic joint tissue engineering a. Choice 1: Anthony J Melchiorri, PhD (Rice University) -- 7. 3D bioprinting and nanotechnology for bone tissue engineering a. Choice 1: Bhushan Mahadik, PhD (University of Maryland) -- 8. Bioreactors and scale-up in bone tissue engineering a. Choice 1: John P Fisher, PhD (University of Maryland) -- 9. Commercialization, legal, and regulatory considerations to translate 3D printing-based products to the marketplace and the clinic a. Choice 1: Anthony Ratcliffe, PhD (Synthasome, Inc.) -- 10. Future directions and challenges a. Choice 1: James J Yoo, PhD (Wake Forest School of Medicine) b. Choice 2: Fernando PS Guastaldi, PhD (Massachusetts General Hospital) and Bhushan Mahadik, PhD (University of Maryland).This book provides a comprehensive overview of the state-of-the-art research as well as current challenges and strategies to reconstruct large bone defects employing 3D printing technology. Various topics covered include different 3D printing technologies that can be applied for bioengineering bone, the aspects of basic bone biology critical for clinical translation, tissue engineering platforms to investigate the bone niche microenvironment, the pathway to clinical translation, and regulatory hurdles. Bone Tissue Engineering: State-of-the-Art in 3D Printing is an ideal book for students and researchers interested in learning more about the latest advances in employing different 3D printing technologies for bone tissue engineering. .Biomedical and Life Sciences SeriesRegenerative medicineBiotechnologyBiomaterialsBiomedical engineeringRegenerative Medicine and Tissue EngineeringBiotechnologyBiomaterialsBiomedical Engineering and BioengineeringRegenerative medicine.Biotechnology.Biomaterials.Biomedical engineering.Regenerative Medicine and Tissue Engineering.Biotechnology.Biomaterials.Biomedical Engineering and Bioengineering.571.538617.9Guastaldi Fernando P. S.Mahadik BhushanMiAaPQMiAaPQMiAaPQBOOK9910552740603321Bone Tissue Engineering2803984UNINA