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008160324s2016 enka ob 001 0 eng d
019 ▼a 981962529
020 ▼a 9781849199650 ▼q (electronic bk.)
020 ▼a 1849199655 ▼q (electronic bk.)
020 ▼z 9781849199643 ▼q hardback
020 ▼z 1849199647 ▼q hardback
0291 ▼a CHVBK ▼b 482913126
0291 ▼a CHBIS ▼b 010889006
035 ▼a (OCoLC)966613556 ▼z (OCoLC)981962529
040 ▼a UAB ▼b eng ▼e rda ▼c UAB ▼d OCLCO ▼d BUF ▼d STF ▼d OCLCA ▼d YDX ▼d EBLCP ▼d IDEBK ▼d OCLCO ▼d DGU ▼d OCLCO ▼d MERUC ▼d OCLCO ▼d N$T ▼d OTZ ▼d CHVBK ▼d XPJ ▼d OCLCO ▼d UAB ▼d OCLCO ▼d ERL ▼d OCLCO ▼d ZCU ▼d OCLCO ▼d COO ▼d OCLCQ ▼d NJR ▼d OCLCO ▼d OCLCQ ▼d OCLCO ▼d 247004
050 4 ▼a T174.7 ▼b .B56 2016
06000 ▼a 2017 B-360
06010 ▼a QT 36.5
072 7 ▼a TEC ▼x 009000 ▼2 bisacsh
072 7 ▼a TEC ▼x 035000 ▼2 bisacsh
08204 ▼a 620.5 ▼2 23
24500 ▼a Biomedical nanomaterials : ▼b from design to implementation/ ▼c edited by Thomas J Webster and Hilal Yazici.
264 1 ▼a London : ▼b Institution of Engineering and Technology, ▼c 2016.
264 4 ▼c ?016
300 ▼a 1 online resource (xiii, 337 pages): ▼b illustrations.
336 ▼a text ▼b txt ▼2 rdacontent
337 ▼a computer ▼b c ▼2 rdamedia
338 ▼a online resource ▼b cr ▼2 rdacarrier
4901 ▼a Healthcare technologies series; ▼v 4
504 ▼a Includes bibliographical references and index.
5050 ▼a Biographies; Preface; Part I. Nanomaterials for hard tissue engineering; 1. Biomimetic coatings of calcium phosphates on titanium alloys -- Bengi Yilmaz and Zafer Evis; 2. Surface modifications of orthopedic implant materials using an electroplating process -- Yardnapar Parcharoen and Sirinrath Sirivisoot; 3. Carbon-based nano biomaterials: design, fabrication and application -- Xiao Lin, Aaron Clasky, Kalyn Lai and Lei Yang; Part II. Nanomaterials for soft tissue engineering; 4. Usage of stem cells in bone and cartilage tissue engineering -- Gorke G. Pekozer and Gamze T. Kose
5058 ▼a 5. Nanobiomaterials and 3D bioprinting for osteochondral regeneration -- Nathan J. Castro and Lijie Grace Zhang6. Self-assembling peptide hydrogels for biomedical applications -- Seren Hamsici and Mustafa O. Guler; Part III. Nanomaterials for bacterial infections and their toxicity; 7. Antimicrobial properties of nanomaterials -- Nhu-Y. Nguyen and Hiunan Liu; 8. Nanoparticle-enhanced radiation killing of bacteria -- Yang Luo, Yong Qiao, Sichao Hou and Ming Su
5058 ▼a 9. Conventional and nano-based approaches to prevent bacterial infection -- Hilal Yazici, Ece Alpaslan, Garima Bhardwaj and Thomas J. Webster10. Nanomaterials used in implant technology and their toxicity -- Mine Altunbek, Gamze Kuku and Mustafa Culha; Part IV. Current and future clinical applications of nanomaterials; 11. Nanotechnology and consumer products: challenges of risk assessment of nanomaterials and current regulatory status -- Haiou Qu; 12. The scientific rationale for using silicon nitride in biomedical implants -- Giuseppe Pezzotti, Bryan McEntire, Wenliang Zhu and B. Sonny Bal
520 ▼a Nanomaterials are able to penetrate nanoscale pores of tissues, possess prolonged circulation, enter cells, and have increased surface area per volume allowing for greater drug loading. For these reasons, nanomaterials are finding numerous uses in medicine including fighting cancer, promoting tissue regeneration, reversing aging, inhibiting infection, limiting inflammation or scar tissue growth, and many others. This book describes the engineering applications and challenges of using nanostructured surfaces and nanomaterials in healthcare. Topics covered include biomimetic coating of calcium phosphates on Ti metals; surface modifications of orthopaedic implant materials using an electroplating process; design, fabrication and application of carbon-based nano biomaterials; usage of stem cells in bone and cartilage tissue engineering; nanobiomaterials and 3D bioprinting for osteochondral regeneration; self- assembled peptide hydrogels for biomedical applications; antimicrobial properties of nanomaterials; nanoparticle enhanced radiation therapy for bacterial infection; nanomaterials used in implant technology and their toxicity; challenges of risk assessment of nanomaterials in consumer products and current regulatory status; and the clinical rationale for silicon nitride bioceramics in orthopedics. With contributions from an international selection of researchers this book is essential reading for researchers in industry and academia working at the interfaces of healthcare, engineering and nanotechnology.
590 ▼a eBooks on EBSCOhost ▼b All EBSCO eBooks
650 0 ▼a Nanotechnology.
650 7 ▼a Nanotechnology. ▼2 fast ▼0 (OCoLC)fst01032639
650 7 ▼a antibacterial activity. ▼2 inspect
650 7 ▼a biological tissues. ▼2 inspect
650 7 ▼a carbon. ▼2 inspect
650 7 ▼a cellular biophysics. ▼2 inspect
650 7 ▼a cellular effects of radiation. ▼2 inspect
650 7 ▼a hydrogels. ▼2 inspect
650 7 ▼a microorganisms. ▼2 inspect
650 7 ▼a nanomedicine. ▼2 inspect
650 7 ▼a orthopaedics. ▼2 inspect
650 7 ▼a prosthetics. ▼2 inspect
650 7 ▼a tissue engineering. ▼2 inspect
650 7 ▼a toxicology. ▼2 inspect
650 7 ▼a TECHNOLOGY & ENGINEERING / Engineering (General) ▼2 bisacsh
650 7 ▼a TECHNOLOGY & ENGINEERING / Reference ▼2 bisacsh
65012 ▼a Theranostic Nanomedicine ▼x methods.
65022 ▼a Nanostructures ▼x therapeutic use.
655 4 ▼a Electronic books.
7001 ▼a Webster, Thomas J., ▼d 1971- ▼e editor,
7001 ▼a Yazici, Hilal, ▼e editor,
77608 ▼c Original ▼z 9781849199643 ▼z 1849199647 ▼w (OCoLC)945647409
830 0 ▼a Healthcare technologies series ; ▼v 4.
85640 ▼u http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1385549
938 ▼a ProQuest MyiLibrary Digital eBook Collection ▼b IDEB ▼n cis35395666
938 ▼a EBL - Ebook Library ▼b EBLB ▼n EBL4827462
938 ▼a YBP Library Services ▼b YANK ▼n 13778583
938 ▼a EBSCOhost ▼b EBSC ▼n 1385549
990 ▼a ***1012033
994 ▼a 92 ▼b KRDHU