Applications of nanocomposite materials in orthopedics
2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with a...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Inamuddin - 1980- [herausgeberIn] Asiri, Abdullah M. [herausgeberIn] Mohammad, Ali [herausgeberIn] |
|---|
| Format: |
E-Book |
|---|---|
| Sprache: |
Englisch |
| Erschienen: |
Duxford, United Kingdom: Woodhead Publishing, an imprint of Elsevier ; 2019 ©2019 |
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| Ausgabe: |
First edition |
| Schlagwörter: |
Nanocomposites (Materials), Therapeutic use Nanocomposites, therapeutic use HEALTH & FITNESS ; Diseases ; General MEDICAL ; Evidence-Based Medicine |
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| Formangabe: |
Electronic books |
| Anmerkung: |
Includes bibliographical references and index |
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| Umfang: |
1 Online-Ressource |
| Reihe: |
Woodhead Publishing series in biomaterials |
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| Links: | |
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| ISBN: |
0-12-813757-6 |
| Katalog-ID: |
1683706609 |
|---|
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| 245 | 1 | 0 | |a Applications of nanocomposite materials in orthopedics |c edited by Inamuddin, Abdullah M. Asiri, Ali Mohammad |
| 250 | |a First edition | ||
| 264 | 1 | |a Duxford, United Kingdom |b Woodhead Publishing, an imprint of Elsevier |c [2019] | |
| 264 | 4 | |c ©2019 | |
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| 490 | 0 | |a Woodhead Publishing series in biomaterials | |
| 500 | |a Includes bibliographical references and index | ||
| 520 | |a 2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with antimicrobial activity; 2.4 Impact of various parameters on the electrospinning process for nanofiber morphology; 2.4.1 Polymer solution parameters; 2.4.2 Processing parameters; 2.4.3 Ambient parameters; 2.5 Inventions related to electrospun hydrogels for bone tissue engineering | ||
| 520 | |a 2.6 Future applications of electrospun hydrogels2.7 Conclusion; References; Further Reading; 3: Fabrication and applications of hydroxyapatite-based nanocomposites coating for bone tissue engineering; 3.1 Introduction; 3.2 Hydroxyapatite: Structure and properties; 3.3 Conventional orthopedic implants; 3.3.1 Metallic implants; 3.3.2 Nonmetallic implants; 3.4 Composites of hydroxyapatite with ceramics; 3.4.1 Hydroxyapatite-Al2O3 composites; 3.4.2 Hydroxyapatite-glass nanocomposites; 3.4.3 Hydroxyapatite-mullite composites; 3.4.4 Hydroxyapatite-YSZ nanocomposites | ||
| 520 | |a 3.5 Composites of hydroxyapatite with metals3.5.1 Hydroxyapatite-Pt nanocomposites; 3.5.2 Hydroxyapatite-Ti nanocomposites; 3.6 Composites of hydroxyapatite with polymers; 3.6.1 Hydroxyapatite-epoxy composites; 3.6.2 Hydroxyapatite-PVA nanocomposites; 3.6.3 Hydroxyapatite-polyamide nanocomposites; 3.6.4 Hydroxyapatite-PMMA composites; 3.6.5 Hydroxyapatite-polylactide composites; 3.6.6 Hydroxyapatite-PS composites; 3.6.7 Hydroxyapatite-PE nanocomposites; 3.6.8 Hydroxyapatite-collagen nanocomposites; 3.6.9 Hydroxyapatite-PEEK nanocomposites; 3.7 Conclusion; References | ||
| 520 | |a Front Cover; Applications of Nanocomposite Materials in Orthopedics; Copyright; Contents; List of contributors; Preface; 1: Biodegradable polymer matrix nanocomposites for bone tissue engineering; 1.1 Introduction; 1.2 Tissue engineering; 1.3 Bone tissue engineering; 1.4 Biodegradable polymers used in the design of nanocomposites for bone tissue engineering; 1.4.1 Natural biodegradable polymers; 1.4.1.1 Chitosan; 1.4.1.2 Alginates; 1.4.1.3 Starches; 1.4.1.4 Cellulose; 1.4.1.5 Collagen; 1.4.1.6 Gelatin; 1.4.1.7 Hyaluronic acid (HA); 1.4.1.8 Dextran | ||
| 650 | 0 | |a Nanocomposites (Materials) | |
| 650 | 0 | |a Nanocomposites (Materials) |x Therapeutic use | |
| 650 | 0 | |a Orthopedics | |
| 650 | 2 | |a Orthopedics | |
| 650 | 2 | |a Nanocomposites |x therapeutic use |0 https://id.nlm.nih.gov/mesh/D053761Q000627 | |
| 650 | 2 | |a Nanocomposites |0 (DNLM)D053761 | |
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| 650 | 4 | |a MEDICAL ; Evidence-Based Medicine | |
| 650 | 4 | |a MEDICAL ; Internal Medicine | |
| 650 | 4 | |a Nanocomposites (Materials) | |
| 650 | 4 | |a Orthopedics | |
| 650 | 4 | |a Matériaux nanocomposites |0 (CaQQLa)000269981 | |
| 650 | 4 | |a Matériaux nanocomposites - Emploi en thérapeutique |0 (CaQQLa)000269981 | |
| 650 | 4 | |a Orthopédie |0 (CaQQLa)201-0033762 | |
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0128137576 electronic bk. 0-12-813757-6 (DE-627)1683706609 (DE-576)518001407 (DE-599)KEP027485455 (OCoLC)059577065 (EBP)027485455 (ELSEVIER)on1059577065 DE-627 eng DE-627 rda eng XA-GB RD732 HEA039000 bisacsh MED014000 bisacsh MED022000 bisacsh MED112000 bisacsh MED045000 bisacsh HEA 039000 bisacsh MED 014000 bisacsh MED 022000 bisacsh MED 112000 bisacsh MED 045000 bisacsh MED 045000 bisacsh MED 112000 bisacsh HEA 039000 bisacsh MED 014000 bisacsh MED 022000 bisacsh Applications of nanocomposite materials in orthopedics edited by Inamuddin, Abdullah M. Asiri, Ali Mohammad First edition Duxford, United Kingdom Woodhead Publishing, an imprint of Elsevier [2019] ©2019 1 Online-Ressource Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Woodhead Publishing series in biomaterials Includes bibliographical references and index 2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with antimicrobial activity; 2.4 Impact of various parameters on the electrospinning process for nanofiber morphology; 2.4.1 Polymer solution parameters; 2.4.2 Processing parameters; 2.4.3 Ambient parameters; 2.5 Inventions related to electrospun hydrogels for bone tissue engineering 2.6 Future applications of electrospun hydrogels2.7 Conclusion; References; Further Reading; 3: Fabrication and applications of hydroxyapatite-based nanocomposites coating for bone tissue engineering; 3.1 Introduction; 3.2 Hydroxyapatite: Structure and properties; 3.3 Conventional orthopedic implants; 3.3.1 Metallic implants; 3.3.2 Nonmetallic implants; 3.4 Composites of hydroxyapatite with ceramics; 3.4.1 Hydroxyapatite-Al2O3 composites; 3.4.2 Hydroxyapatite-glass nanocomposites; 3.4.3 Hydroxyapatite-mullite composites; 3.4.4 Hydroxyapatite-YSZ nanocomposites 3.5 Composites of hydroxyapatite with metals3.5.1 Hydroxyapatite-Pt nanocomposites; 3.5.2 Hydroxyapatite-Ti nanocomposites; 3.6 Composites of hydroxyapatite with polymers; 3.6.1 Hydroxyapatite-epoxy composites; 3.6.2 Hydroxyapatite-PVA nanocomposites; 3.6.3 Hydroxyapatite-polyamide nanocomposites; 3.6.4 Hydroxyapatite-PMMA composites; 3.6.5 Hydroxyapatite-polylactide composites; 3.6.6 Hydroxyapatite-PS composites; 3.6.7 Hydroxyapatite-PE nanocomposites; 3.6.8 Hydroxyapatite-collagen nanocomposites; 3.6.9 Hydroxyapatite-PEEK nanocomposites; 3.7 Conclusion; References Front Cover; Applications of Nanocomposite Materials in Orthopedics; Copyright; Contents; List of contributors; Preface; 1: Biodegradable polymer matrix nanocomposites for bone tissue engineering; 1.1 Introduction; 1.2 Tissue engineering; 1.3 Bone tissue engineering; 1.4 Biodegradable polymers used in the design of nanocomposites for bone tissue engineering; 1.4.1 Natural biodegradable polymers; 1.4.1.1 Chitosan; 1.4.1.2 Alginates; 1.4.1.3 Starches; 1.4.1.4 Cellulose; 1.4.1.5 Collagen; 1.4.1.6 Gelatin; 1.4.1.7 Hyaluronic acid (HA); 1.4.1.8 Dextran Nanocomposites (Materials) Nanocomposites (Materials) Therapeutic use Orthopedics Orthopedics Nanocomposites therapeutic use https://id.nlm.nih.gov/mesh/D053761Q000627 Nanocomposites (DNLM)D053761 HEALTH & FITNESS ; Diseases ; General MEDICAL ; Clinical Medicine MEDICAL ; Diseases MEDICAL ; Evidence-Based Medicine MEDICAL ; Internal Medicine Nanocomposites (Materials) Orthopedics Matériaux nanocomposites (CaQQLa)000269981 Matériaux nanocomposites - Emploi en thérapeutique (CaQQLa)000269981 Orthopédie (CaQQLa)201-0033762 Electronic books Electronic books Inamuddin 1980- herausgeberin edt Asiri, Abdullah M. herausgeberin edt Mohammad, Ali herausgeberin edt 9780128137406 Erscheint auch als Druck-Ausgabe Applications of nanocomposite materials in orthopedics Duxford, United Kingdom : Woodhead Publishing, an imprint of Elsevier, [2019] 0128137401 9780128137406 https://www.sciencedirect.com/science/book/9780128137406 X:ELSEVIER Verlag lizenzpflichtig Volltext http://www.sciencedirect.com/science/book/9780128137406 Verlag Volltext (DE-627)1041417713 GBV-33-Freedom 2022 BSZ-33-EBS-HSAA GBV-33-EBS-MRI GBV-33-EBS-ZHB GBV-33-Freedom 2021 ZDB-33-CEN 2018 ZDB-33-EBS ZDB-33-ESD BSZ-33-EBS-C1UB GBV_ILN_105 ISIL_DE-841 SYSFLAG_1 GBV_KXP GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2020 ISIL_DE-Ch1 GBV_ILN_2111 ISIL_DE-944 BO 045F 616.706 045F 616.706 105 01 0841 4074452278 OLR-ELV-TEST Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Die Weitergabe an Dritte sowie systematisches Downloaden sind untersagt. Testzugang ZHB Lübeck z 26-02-22 370 01 4370 4540272675 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 20-06-24 2020 01 DE-Ch1 4520353580 00 --%%-- --%%-- n n Campuslizenz l01 03-05-24 2111 02 DE-944 4046037369 00 --%%-- E-Book Elsevier --%%-- n Elektronischer Volltext - Campuslizenz l01 27-01-22 105 01 0841 http://www.sciencedirect.com/science/book/9780128137406 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von außerhalb nur für HCU-Angehörige möglich https://www.sciencedirect.com/science/book/9780128137406 2020 01 DE-Ch1 https://www.sciencedirect.com/science/book/9780128137406 2111 02 DE-944 https://www.sciencedirect.com/science/book/9780128137406 105 01 0841 OLR-ELV-TEST 370 01 4370 EBS Elsevier |
| spelling |
0128137576 electronic bk. 0-12-813757-6 (DE-627)1683706609 (DE-576)518001407 (DE-599)KEP027485455 (OCoLC)059577065 (EBP)027485455 (ELSEVIER)on1059577065 DE-627 eng DE-627 rda eng XA-GB RD732 HEA039000 bisacsh MED014000 bisacsh MED022000 bisacsh MED112000 bisacsh MED045000 bisacsh HEA 039000 bisacsh MED 014000 bisacsh MED 022000 bisacsh MED 112000 bisacsh MED 045000 bisacsh MED 045000 bisacsh MED 112000 bisacsh HEA 039000 bisacsh MED 014000 bisacsh MED 022000 bisacsh Applications of nanocomposite materials in orthopedics edited by Inamuddin, Abdullah M. Asiri, Ali Mohammad First edition Duxford, United Kingdom Woodhead Publishing, an imprint of Elsevier [2019] ©2019 1 Online-Ressource Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Woodhead Publishing series in biomaterials Includes bibliographical references and index 2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with antimicrobial activity; 2.4 Impact of various parameters on the electrospinning process for nanofiber morphology; 2.4.1 Polymer solution parameters; 2.4.2 Processing parameters; 2.4.3 Ambient parameters; 2.5 Inventions related to electrospun hydrogels for bone tissue engineering 2.6 Future applications of electrospun hydrogels2.7 Conclusion; References; Further Reading; 3: Fabrication and applications of hydroxyapatite-based nanocomposites coating for bone tissue engineering; 3.1 Introduction; 3.2 Hydroxyapatite: Structure and properties; 3.3 Conventional orthopedic implants; 3.3.1 Metallic implants; 3.3.2 Nonmetallic implants; 3.4 Composites of hydroxyapatite with ceramics; 3.4.1 Hydroxyapatite-Al2O3 composites; 3.4.2 Hydroxyapatite-glass nanocomposites; 3.4.3 Hydroxyapatite-mullite composites; 3.4.4 Hydroxyapatite-YSZ nanocomposites 3.5 Composites of hydroxyapatite with metals3.5.1 Hydroxyapatite-Pt nanocomposites; 3.5.2 Hydroxyapatite-Ti nanocomposites; 3.6 Composites of hydroxyapatite with polymers; 3.6.1 Hydroxyapatite-epoxy composites; 3.6.2 Hydroxyapatite-PVA nanocomposites; 3.6.3 Hydroxyapatite-polyamide nanocomposites; 3.6.4 Hydroxyapatite-PMMA composites; 3.6.5 Hydroxyapatite-polylactide composites; 3.6.6 Hydroxyapatite-PS composites; 3.6.7 Hydroxyapatite-PE nanocomposites; 3.6.8 Hydroxyapatite-collagen nanocomposites; 3.6.9 Hydroxyapatite-PEEK nanocomposites; 3.7 Conclusion; References Front Cover; Applications of Nanocomposite Materials in Orthopedics; Copyright; Contents; List of contributors; Preface; 1: Biodegradable polymer matrix nanocomposites for bone tissue engineering; 1.1 Introduction; 1.2 Tissue engineering; 1.3 Bone tissue engineering; 1.4 Biodegradable polymers used in the design of nanocomposites for bone tissue engineering; 1.4.1 Natural biodegradable polymers; 1.4.1.1 Chitosan; 1.4.1.2 Alginates; 1.4.1.3 Starches; 1.4.1.4 Cellulose; 1.4.1.5 Collagen; 1.4.1.6 Gelatin; 1.4.1.7 Hyaluronic acid (HA); 1.4.1.8 Dextran Nanocomposites (Materials) Nanocomposites (Materials) Therapeutic use Orthopedics Orthopedics Nanocomposites therapeutic use https://id.nlm.nih.gov/mesh/D053761Q000627 Nanocomposites (DNLM)D053761 HEALTH & FITNESS ; Diseases ; General MEDICAL ; Clinical Medicine MEDICAL ; Diseases MEDICAL ; Evidence-Based Medicine MEDICAL ; Internal Medicine Nanocomposites (Materials) Orthopedics Matériaux nanocomposites (CaQQLa)000269981 Matériaux nanocomposites - Emploi en thérapeutique (CaQQLa)000269981 Orthopédie (CaQQLa)201-0033762 Electronic books Electronic books Inamuddin 1980- herausgeberin edt Asiri, Abdullah M. herausgeberin edt Mohammad, Ali herausgeberin edt 9780128137406 Erscheint auch als Druck-Ausgabe Applications of nanocomposite materials in orthopedics Duxford, United Kingdom : Woodhead Publishing, an imprint of Elsevier, [2019] 0128137401 9780128137406 https://www.sciencedirect.com/science/book/9780128137406 X:ELSEVIER Verlag lizenzpflichtig Volltext http://www.sciencedirect.com/science/book/9780128137406 Verlag Volltext (DE-627)1041417713 GBV-33-Freedom 2022 BSZ-33-EBS-HSAA GBV-33-EBS-MRI GBV-33-EBS-ZHB GBV-33-Freedom 2021 ZDB-33-CEN 2018 ZDB-33-EBS ZDB-33-ESD BSZ-33-EBS-C1UB GBV_ILN_105 ISIL_DE-841 SYSFLAG_1 GBV_KXP GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2020 ISIL_DE-Ch1 GBV_ILN_2111 ISIL_DE-944 BO 045F 616.706 045F 616.706 105 01 0841 4074452278 OLR-ELV-TEST Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Die Weitergabe an Dritte sowie systematisches Downloaden sind untersagt. Testzugang ZHB Lübeck z 26-02-22 370 01 4370 4540272675 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 20-06-24 2020 01 DE-Ch1 4520353580 00 --%%-- --%%-- n n Campuslizenz l01 03-05-24 2111 02 DE-944 4046037369 00 --%%-- E-Book Elsevier --%%-- n Elektronischer Volltext - Campuslizenz l01 27-01-22 105 01 0841 http://www.sciencedirect.com/science/book/9780128137406 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von außerhalb nur für HCU-Angehörige möglich https://www.sciencedirect.com/science/book/9780128137406 2020 01 DE-Ch1 https://www.sciencedirect.com/science/book/9780128137406 2111 02 DE-944 https://www.sciencedirect.com/science/book/9780128137406 105 01 0841 OLR-ELV-TEST 370 01 4370 EBS Elsevier |
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Asiri, Ali Mohammad First edition Duxford, United Kingdom Woodhead Publishing, an imprint of Elsevier [2019] ©2019 1 Online-Ressource Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Woodhead Publishing series in biomaterials Includes bibliographical references and index 2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with antimicrobial activity; 2.4 Impact of various parameters on the electrospinning process for nanofiber morphology; 2.4.1 Polymer solution parameters; 2.4.2 Processing parameters; 2.4.3 Ambient parameters; 2.5 Inventions related to electrospun hydrogels for bone tissue engineering 2.6 Future applications of electrospun hydrogels2.7 Conclusion; References; Further Reading; 3: Fabrication and applications of hydroxyapatite-based nanocomposites coating for bone tissue engineering; 3.1 Introduction; 3.2 Hydroxyapatite: Structure and properties; 3.3 Conventional orthopedic implants; 3.3.1 Metallic implants; 3.3.2 Nonmetallic implants; 3.4 Composites of hydroxyapatite with ceramics; 3.4.1 Hydroxyapatite-Al2O3 composites; 3.4.2 Hydroxyapatite-glass nanocomposites; 3.4.3 Hydroxyapatite-mullite composites; 3.4.4 Hydroxyapatite-YSZ nanocomposites 3.5 Composites of hydroxyapatite with metals3.5.1 Hydroxyapatite-Pt nanocomposites; 3.5.2 Hydroxyapatite-Ti nanocomposites; 3.6 Composites of hydroxyapatite with polymers; 3.6.1 Hydroxyapatite-epoxy composites; 3.6.2 Hydroxyapatite-PVA nanocomposites; 3.6.3 Hydroxyapatite-polyamide nanocomposites; 3.6.4 Hydroxyapatite-PMMA composites; 3.6.5 Hydroxyapatite-polylactide composites; 3.6.6 Hydroxyapatite-PS composites; 3.6.7 Hydroxyapatite-PE nanocomposites; 3.6.8 Hydroxyapatite-collagen nanocomposites; 3.6.9 Hydroxyapatite-PEEK nanocomposites; 3.7 Conclusion; References Front Cover; Applications of Nanocomposite Materials in Orthopedics; Copyright; Contents; List of contributors; Preface; 1: Biodegradable polymer matrix nanocomposites for bone tissue engineering; 1.1 Introduction; 1.2 Tissue engineering; 1.3 Bone tissue engineering; 1.4 Biodegradable polymers used in the design of nanocomposites for bone tissue engineering; 1.4.1 Natural biodegradable polymers; 1.4.1.1 Chitosan; 1.4.1.2 Alginates; 1.4.1.3 Starches; 1.4.1.4 Cellulose; 1.4.1.5 Collagen; 1.4.1.6 Gelatin; 1.4.1.7 Hyaluronic acid (HA); 1.4.1.8 Dextran Nanocomposites (Materials) Nanocomposites (Materials) Therapeutic use Orthopedics Orthopedics Nanocomposites therapeutic use https://id.nlm.nih.gov/mesh/D053761Q000627 Nanocomposites (DNLM)D053761 HEALTH & FITNESS ; Diseases ; General MEDICAL ; Clinical Medicine MEDICAL ; Diseases MEDICAL ; Evidence-Based Medicine MEDICAL ; Internal Medicine Nanocomposites (Materials) Orthopedics Matériaux nanocomposites (CaQQLa)000269981 Matériaux nanocomposites - Emploi en thérapeutique (CaQQLa)000269981 Orthopédie (CaQQLa)201-0033762 Electronic books Electronic books Inamuddin 1980- herausgeberin edt Asiri, Abdullah M. herausgeberin edt Mohammad, Ali herausgeberin edt 9780128137406 Erscheint auch als Druck-Ausgabe Applications of nanocomposite materials in orthopedics Duxford, United Kingdom : Woodhead Publishing, an imprint of Elsevier, [2019] 0128137401 9780128137406 https://www.sciencedirect.com/science/book/9780128137406 X:ELSEVIER Verlag lizenzpflichtig Volltext http://www.sciencedirect.com/science/book/9780128137406 Verlag Volltext (DE-627)1041417713 GBV-33-Freedom 2022 BSZ-33-EBS-HSAA GBV-33-EBS-MRI GBV-33-EBS-ZHB GBV-33-Freedom 2021 ZDB-33-CEN 2018 ZDB-33-EBS ZDB-33-ESD BSZ-33-EBS-C1UB GBV_ILN_105 ISIL_DE-841 SYSFLAG_1 GBV_KXP GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2020 ISIL_DE-Ch1 GBV_ILN_2111 ISIL_DE-944 BO 045F 616.706 045F 616.706 105 01 0841 4074452278 OLR-ELV-TEST Vervielfältigungen (z.B. 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Asiri, Ali Mohammad First edition Duxford, United Kingdom Woodhead Publishing, an imprint of Elsevier [2019] ©2019 1 Online-Ressource Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Woodhead Publishing series in biomaterials Includes bibliographical references and index 2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with antimicrobial activity; 2.4 Impact of various parameters on the electrospinning process for nanofiber morphology; 2.4.1 Polymer solution parameters; 2.4.2 Processing parameters; 2.4.3 Ambient parameters; 2.5 Inventions related to electrospun hydrogels for bone tissue engineering 2.6 Future applications of electrospun hydrogels2.7 Conclusion; References; Further Reading; 3: Fabrication and applications of hydroxyapatite-based nanocomposites coating for bone tissue engineering; 3.1 Introduction; 3.2 Hydroxyapatite: Structure and properties; 3.3 Conventional orthopedic implants; 3.3.1 Metallic implants; 3.3.2 Nonmetallic implants; 3.4 Composites of hydroxyapatite with ceramics; 3.4.1 Hydroxyapatite-Al2O3 composites; 3.4.2 Hydroxyapatite-glass nanocomposites; 3.4.3 Hydroxyapatite-mullite composites; 3.4.4 Hydroxyapatite-YSZ nanocomposites 3.5 Composites of hydroxyapatite with metals3.5.1 Hydroxyapatite-Pt nanocomposites; 3.5.2 Hydroxyapatite-Ti nanocomposites; 3.6 Composites of hydroxyapatite with polymers; 3.6.1 Hydroxyapatite-epoxy composites; 3.6.2 Hydroxyapatite-PVA nanocomposites; 3.6.3 Hydroxyapatite-polyamide nanocomposites; 3.6.4 Hydroxyapatite-PMMA composites; 3.6.5 Hydroxyapatite-polylactide composites; 3.6.6 Hydroxyapatite-PS composites; 3.6.7 Hydroxyapatite-PE nanocomposites; 3.6.8 Hydroxyapatite-collagen nanocomposites; 3.6.9 Hydroxyapatite-PEEK nanocomposites; 3.7 Conclusion; References Front Cover; Applications of Nanocomposite Materials in Orthopedics; Copyright; Contents; List of contributors; Preface; 1: Biodegradable polymer matrix nanocomposites for bone tissue engineering; 1.1 Introduction; 1.2 Tissue engineering; 1.3 Bone tissue engineering; 1.4 Biodegradable polymers used in the design of nanocomposites for bone tissue engineering; 1.4.1 Natural biodegradable polymers; 1.4.1.1 Chitosan; 1.4.1.2 Alginates; 1.4.1.3 Starches; 1.4.1.4 Cellulose; 1.4.1.5 Collagen; 1.4.1.6 Gelatin; 1.4.1.7 Hyaluronic acid (HA); 1.4.1.8 Dextran Nanocomposites (Materials) Nanocomposites (Materials) Therapeutic use Orthopedics Orthopedics Nanocomposites therapeutic use https://id.nlm.nih.gov/mesh/D053761Q000627 Nanocomposites (DNLM)D053761 HEALTH & FITNESS ; Diseases ; General MEDICAL ; Clinical Medicine MEDICAL ; Diseases MEDICAL ; Evidence-Based Medicine MEDICAL ; Internal Medicine Nanocomposites (Materials) Orthopedics Matériaux nanocomposites (CaQQLa)000269981 Matériaux nanocomposites - Emploi en thérapeutique (CaQQLa)000269981 Orthopédie (CaQQLa)201-0033762 Electronic books Electronic books Inamuddin 1980- herausgeberin edt Asiri, Abdullah M. herausgeberin edt Mohammad, Ali herausgeberin edt 9780128137406 Erscheint auch als Druck-Ausgabe Applications of nanocomposite materials in orthopedics Duxford, United Kingdom : Woodhead Publishing, an imprint of Elsevier, [2019] 0128137401 9780128137406 https://www.sciencedirect.com/science/book/9780128137406 X:ELSEVIER Verlag lizenzpflichtig Volltext http://www.sciencedirect.com/science/book/9780128137406 Verlag Volltext (DE-627)1041417713 GBV-33-Freedom 2022 BSZ-33-EBS-HSAA GBV-33-EBS-MRI GBV-33-EBS-ZHB GBV-33-Freedom 2021 ZDB-33-CEN 2018 ZDB-33-EBS ZDB-33-ESD BSZ-33-EBS-C1UB GBV_ILN_105 ISIL_DE-841 SYSFLAG_1 GBV_KXP GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2020 ISIL_DE-Ch1 GBV_ILN_2111 ISIL_DE-944 BO 045F 616.706 045F 616.706 105 01 0841 4074452278 OLR-ELV-TEST Vervielfältigungen (z.B. 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Zugriff von außerhalb nur für HCU-Angehörige möglich https://www.sciencedirect.com/science/book/9780128137406 2020 01 DE-Ch1 https://www.sciencedirect.com/science/book/9780128137406 2111 02 DE-944 https://www.sciencedirect.com/science/book/9780128137406 105 01 0841 OLR-ELV-TEST 370 01 4370 EBS Elsevier |
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0128137576 electronic bk. 0-12-813757-6 (DE-627)1683706609 (DE-576)518001407 (DE-599)KEP027485455 (OCoLC)059577065 (EBP)027485455 (ELSEVIER)on1059577065 DE-627 eng DE-627 rda eng XA-GB RD732 HEA039000 bisacsh MED014000 bisacsh MED022000 bisacsh MED112000 bisacsh MED045000 bisacsh HEA 039000 bisacsh MED 014000 bisacsh MED 022000 bisacsh MED 112000 bisacsh MED 045000 bisacsh MED 045000 bisacsh MED 112000 bisacsh HEA 039000 bisacsh MED 014000 bisacsh MED 022000 bisacsh Applications of nanocomposite materials in orthopedics edited by Inamuddin, Abdullah M. Asiri, Ali Mohammad First edition Duxford, United Kingdom Woodhead Publishing, an imprint of Elsevier [2019] ©2019 1 Online-Ressource Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Woodhead Publishing series in biomaterials Includes bibliographical references and index 2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with antimicrobial activity; 2.4 Impact of various parameters on the electrospinning process for nanofiber morphology; 2.4.1 Polymer solution parameters; 2.4.2 Processing parameters; 2.4.3 Ambient parameters; 2.5 Inventions related to electrospun hydrogels for bone tissue engineering 2.6 Future applications of electrospun hydrogels2.7 Conclusion; References; Further Reading; 3: Fabrication and applications of hydroxyapatite-based nanocomposites coating for bone tissue engineering; 3.1 Introduction; 3.2 Hydroxyapatite: Structure and properties; 3.3 Conventional orthopedic implants; 3.3.1 Metallic implants; 3.3.2 Nonmetallic implants; 3.4 Composites of hydroxyapatite with ceramics; 3.4.1 Hydroxyapatite-Al2O3 composites; 3.4.2 Hydroxyapatite-glass nanocomposites; 3.4.3 Hydroxyapatite-mullite composites; 3.4.4 Hydroxyapatite-YSZ nanocomposites 3.5 Composites of hydroxyapatite with metals3.5.1 Hydroxyapatite-Pt nanocomposites; 3.5.2 Hydroxyapatite-Ti nanocomposites; 3.6 Composites of hydroxyapatite with polymers; 3.6.1 Hydroxyapatite-epoxy composites; 3.6.2 Hydroxyapatite-PVA nanocomposites; 3.6.3 Hydroxyapatite-polyamide nanocomposites; 3.6.4 Hydroxyapatite-PMMA composites; 3.6.5 Hydroxyapatite-polylactide composites; 3.6.6 Hydroxyapatite-PS composites; 3.6.7 Hydroxyapatite-PE nanocomposites; 3.6.8 Hydroxyapatite-collagen nanocomposites; 3.6.9 Hydroxyapatite-PEEK nanocomposites; 3.7 Conclusion; References Front Cover; Applications of Nanocomposite Materials in Orthopedics; Copyright; Contents; List of contributors; Preface; 1: Biodegradable polymer matrix nanocomposites for bone tissue engineering; 1.1 Introduction; 1.2 Tissue engineering; 1.3 Bone tissue engineering; 1.4 Biodegradable polymers used in the design of nanocomposites for bone tissue engineering; 1.4.1 Natural biodegradable polymers; 1.4.1.1 Chitosan; 1.4.1.2 Alginates; 1.4.1.3 Starches; 1.4.1.4 Cellulose; 1.4.1.5 Collagen; 1.4.1.6 Gelatin; 1.4.1.7 Hyaluronic acid (HA); 1.4.1.8 Dextran Nanocomposites (Materials) Nanocomposites (Materials) Therapeutic use Orthopedics Orthopedics Nanocomposites therapeutic use https://id.nlm.nih.gov/mesh/D053761Q000627 Nanocomposites (DNLM)D053761 HEALTH & FITNESS ; Diseases ; General MEDICAL ; Clinical Medicine MEDICAL ; Diseases MEDICAL ; Evidence-Based Medicine MEDICAL ; Internal Medicine Nanocomposites (Materials) Orthopedics Matériaux nanocomposites (CaQQLa)000269981 Matériaux nanocomposites - Emploi en thérapeutique (CaQQLa)000269981 Orthopédie (CaQQLa)201-0033762 Electronic books Electronic books Inamuddin 1980- herausgeberin edt Asiri, Abdullah M. herausgeberin edt Mohammad, Ali herausgeberin edt 9780128137406 Erscheint auch als Druck-Ausgabe Applications of nanocomposite materials in orthopedics Duxford, United Kingdom : Woodhead Publishing, an imprint of Elsevier, [2019] 0128137401 9780128137406 https://www.sciencedirect.com/science/book/9780128137406 X:ELSEVIER Verlag lizenzpflichtig Volltext http://www.sciencedirect.com/science/book/9780128137406 Verlag Volltext (DE-627)1041417713 GBV-33-Freedom 2022 BSZ-33-EBS-HSAA GBV-33-EBS-MRI GBV-33-EBS-ZHB GBV-33-Freedom 2021 ZDB-33-CEN 2018 ZDB-33-EBS ZDB-33-ESD BSZ-33-EBS-C1UB GBV_ILN_105 ISIL_DE-841 SYSFLAG_1 GBV_KXP GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2020 ISIL_DE-Ch1 GBV_ILN_2111 ISIL_DE-944 BO 045F 616.706 045F 616.706 105 01 0841 4074452278 OLR-ELV-TEST Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Die Weitergabe an Dritte sowie systematisches Downloaden sind untersagt. Testzugang ZHB Lübeck z 26-02-22 370 01 4370 4540272675 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 20-06-24 2020 01 DE-Ch1 4520353580 00 --%%-- --%%-- n n Campuslizenz l01 03-05-24 2111 02 DE-944 4046037369 00 --%%-- E-Book Elsevier --%%-- n Elektronischer Volltext - Campuslizenz l01 27-01-22 105 01 0841 http://www.sciencedirect.com/science/book/9780128137406 370 01 4370 E-Book: Zugriff im HCU-Netz. 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2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with antimicrobial activity; 2.4 Impact of various parameters on the electrospinning process for nanofiber morphology; 2.4.1 Polymer solution parameters; 2.4.2 Processing parameters; 2.4.3 Ambient parameters; 2.5 Inventions related to electrospun hydrogels for bone tissue engineering 2.6 Future applications of electrospun hydrogels2.7 Conclusion; References; Further Reading; 3: Fabrication and applications of hydroxyapatite-based nanocomposites coating for bone tissue engineering; 3.1 Introduction; 3.2 Hydroxyapatite: Structure and properties; 3.3 Conventional orthopedic implants; 3.3.1 Metallic implants; 3.3.2 Nonmetallic implants; 3.4 Composites of hydroxyapatite with ceramics; 3.4.1 Hydroxyapatite-Al2O3 composites; 3.4.2 Hydroxyapatite-glass nanocomposites; 3.4.3 Hydroxyapatite-mullite composites; 3.4.4 Hydroxyapatite-YSZ nanocomposites 3.5 Composites of hydroxyapatite with metals3.5.1 Hydroxyapatite-Pt nanocomposites; 3.5.2 Hydroxyapatite-Ti nanocomposites; 3.6 Composites of hydroxyapatite with polymers; 3.6.1 Hydroxyapatite-epoxy composites; 3.6.2 Hydroxyapatite-PVA nanocomposites; 3.6.3 Hydroxyapatite-polyamide nanocomposites; 3.6.4 Hydroxyapatite-PMMA composites; 3.6.5 Hydroxyapatite-polylactide composites; 3.6.6 Hydroxyapatite-PS composites; 3.6.7 Hydroxyapatite-PE nanocomposites; 3.6.8 Hydroxyapatite-collagen nanocomposites; 3.6.9 Hydroxyapatite-PEEK nanocomposites; 3.7 Conclusion; References Front Cover; Applications of Nanocomposite Materials in Orthopedics; Copyright; Contents; List of contributors; Preface; 1: Biodegradable polymer matrix nanocomposites for bone tissue engineering; 1.1 Introduction; 1.2 Tissue engineering; 1.3 Bone tissue engineering; 1.4 Biodegradable polymers used in the design of nanocomposites for bone tissue engineering; 1.4.1 Natural biodegradable polymers; 1.4.1.1 Chitosan; 1.4.1.2 Alginates; 1.4.1.3 Starches; 1.4.1.4 Cellulose; 1.4.1.5 Collagen; 1.4.1.6 Gelatin; 1.4.1.7 Hyaluronic acid (HA); 1.4.1.8 Dextran Includes bibliographical references and index |
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2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with antimicrobial activity; 2.4 Impact of various parameters on the electrospinning process for nanofiber morphology; 2.4.1 Polymer solution parameters; 2.4.2 Processing parameters; 2.4.3 Ambient parameters; 2.5 Inventions related to electrospun hydrogels for bone tissue engineering 2.6 Future applications of electrospun hydrogels2.7 Conclusion; References; Further Reading; 3: Fabrication and applications of hydroxyapatite-based nanocomposites coating for bone tissue engineering; 3.1 Introduction; 3.2 Hydroxyapatite: Structure and properties; 3.3 Conventional orthopedic implants; 3.3.1 Metallic implants; 3.3.2 Nonmetallic implants; 3.4 Composites of hydroxyapatite with ceramics; 3.4.1 Hydroxyapatite-Al2O3 composites; 3.4.2 Hydroxyapatite-glass nanocomposites; 3.4.3 Hydroxyapatite-mullite composites; 3.4.4 Hydroxyapatite-YSZ nanocomposites 3.5 Composites of hydroxyapatite with metals3.5.1 Hydroxyapatite-Pt nanocomposites; 3.5.2 Hydroxyapatite-Ti nanocomposites; 3.6 Composites of hydroxyapatite with polymers; 3.6.1 Hydroxyapatite-epoxy composites; 3.6.2 Hydroxyapatite-PVA nanocomposites; 3.6.3 Hydroxyapatite-polyamide nanocomposites; 3.6.4 Hydroxyapatite-PMMA composites; 3.6.5 Hydroxyapatite-polylactide composites; 3.6.6 Hydroxyapatite-PS composites; 3.6.7 Hydroxyapatite-PE nanocomposites; 3.6.8 Hydroxyapatite-collagen nanocomposites; 3.6.9 Hydroxyapatite-PEEK nanocomposites; 3.7 Conclusion; References Front Cover; Applications of Nanocomposite Materials in Orthopedics; Copyright; Contents; List of contributors; Preface; 1: Biodegradable polymer matrix nanocomposites for bone tissue engineering; 1.1 Introduction; 1.2 Tissue engineering; 1.3 Bone tissue engineering; 1.4 Biodegradable polymers used in the design of nanocomposites for bone tissue engineering; 1.4.1 Natural biodegradable polymers; 1.4.1.1 Chitosan; 1.4.1.2 Alginates; 1.4.1.3 Starches; 1.4.1.4 Cellulose; 1.4.1.5 Collagen; 1.4.1.6 Gelatin; 1.4.1.7 Hyaluronic acid (HA); 1.4.1.8 Dextran Includes bibliographical references and index |
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2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with antimicrobial activity; 2.4 Impact of various parameters on the electrospinning process for nanofiber morphology; 2.4.1 Polymer solution parameters; 2.4.2 Processing parameters; 2.4.3 Ambient parameters; 2.5 Inventions related to electrospun hydrogels for bone tissue engineering 2.6 Future applications of electrospun hydrogels2.7 Conclusion; References; Further Reading; 3: Fabrication and applications of hydroxyapatite-based nanocomposites coating for bone tissue engineering; 3.1 Introduction; 3.2 Hydroxyapatite: Structure and properties; 3.3 Conventional orthopedic implants; 3.3.1 Metallic implants; 3.3.2 Nonmetallic implants; 3.4 Composites of hydroxyapatite with ceramics; 3.4.1 Hydroxyapatite-Al2O3 composites; 3.4.2 Hydroxyapatite-glass nanocomposites; 3.4.3 Hydroxyapatite-mullite composites; 3.4.4 Hydroxyapatite-YSZ nanocomposites 3.5 Composites of hydroxyapatite with metals3.5.1 Hydroxyapatite-Pt nanocomposites; 3.5.2 Hydroxyapatite-Ti nanocomposites; 3.6 Composites of hydroxyapatite with polymers; 3.6.1 Hydroxyapatite-epoxy composites; 3.6.2 Hydroxyapatite-PVA nanocomposites; 3.6.3 Hydroxyapatite-polyamide nanocomposites; 3.6.4 Hydroxyapatite-PMMA composites; 3.6.5 Hydroxyapatite-polylactide composites; 3.6.6 Hydroxyapatite-PS composites; 3.6.7 Hydroxyapatite-PE nanocomposites; 3.6.8 Hydroxyapatite-collagen nanocomposites; 3.6.9 Hydroxyapatite-PEEK nanocomposites; 3.7 Conclusion; References Front Cover; Applications of Nanocomposite Materials in Orthopedics; Copyright; Contents; List of contributors; Preface; 1: Biodegradable polymer matrix nanocomposites for bone tissue engineering; 1.1 Introduction; 1.2 Tissue engineering; 1.3 Bone tissue engineering; 1.4 Biodegradable polymers used in the design of nanocomposites for bone tissue engineering; 1.4.1 Natural biodegradable polymers; 1.4.1.1 Chitosan; 1.4.1.2 Alginates; 1.4.1.3 Starches; 1.4.1.4 Cellulose; 1.4.1.5 Collagen; 1.4.1.6 Gelatin; 1.4.1.7 Hyaluronic acid (HA); 1.4.1.8 Dextran Includes bibliographical references and index |
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| title_short |
Applications of nanocomposite materials in orthopedics |
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