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001449550 001__ 1449550
001449550 003__ OCoLC
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001449550 019__ $$a1344542463
001449550 020__ $$a9789811661983$$q(electronic bk.)
001449550 020__ $$a9811661987$$q(electronic bk.)
001449550 020__ $$z9811661979
001449550 020__ $$z9789811661976
001449550 0247_ $$a10.1007/978-981-16-6198-3$$2doi
001449550 035__ $$aSP(OCoLC)1344536616
001449550 040__ $$aYDX$$beng$$cYDX$$dGW5XE$$dEBLCP$$dOCLCF$$dOCLCQ
001449550 049__ $$aISEA
001449550 050_4 $$aR857.T55
001449550 08204 $$a612/.028$$223/eng/20220927
001449550 24500 $$aApplication of nanoparticles in tissue engineering /$$cSarah Afaq, Arshi Malik, Mohammed Tarique, editors.
001449550 260__ $$aSingapore :$$bSpringer,$$c2022.
001449550 300__ $$a1 online resource
001449550 504__ $$aReferences
001449550 5050_ $$aIntro -- Contents -- 1: Nanoparticles for Tissue Engineering: Type, Properties, and Characterization -- 1.1 Introduction -- 1.2 History of Nanoparticles -- 1.3 Types of Nanoparticles -- 1.3.1 Organic Nanoparticles -- 1.3.1.1 Liposomes -- 1.3.1.2 Polymeric Nanoparticles -- 1.3.2 Dendrimers -- 1.3.3 Inorganic Nanoparticles -- 1.3.3.1 Silica Nanoparticles -- 1.3.3.2 Metallic Nanoparticles -- Gold Nanoparticle -- 1.3.4 Magnetic Nanoparticle -- 1.3.4.1 Bio-ceramics and Bioactive Glass Nanoparticles -- 1.3.4.2 Carbon Nanotubes -- 1.4 Physiochemical Properties of Nanoparticles
001449550 5058_ $$a1.4.1 Electronic and Optical Properties -- 1.4.2 Mechanical Properties -- 1.4.3 Magnetic Properties -- 1.4.4 Thermal Properties -- 1.5 Characterization of Nanoparticles -- 1.5.1 Particle Size -- 1.5.2 Surface Charge -- 1.5.3 Hydrophobicity -- 1.5.4 Drug Release -- 1.6 Application of Nanoparticles -- 1.6.1 Biological Property Enhancement -- 1.6.2 Mechanical Property Enhancement -- 1.6.3 3D Tissue Construction -- 1.6.4 Antibacterial Applications -- 1.6.5 Cells Stimulation for Mechano-transduction -- 1.6.6 Gene Delivery -- 1.7 Challenges and Future Perspective -- 1.8 Conclusion -- References
001449550 5058_ $$a2: Nanoparticles and Bioceramics Used in Hard Tissue Engineering -- 2.1 Introduction -- 2.2 Nanoparticles Used in Hard Tissue Engineering -- 2.2.1 Organic Nanoparticles -- 2.2.1.1 Liposomes -- 2.2.1.2 Polymeric Nanoparticles -- 2.2.2 Inorganic Nanoparticles -- 2.2.2.1 Silica NPs -- 2.2.2.2 Metallic NPs -- 2.2.2.3 Bioactive Glass -- 2.2.2.4 Carbon Nanotubes -- 2.2.2.5 Quantum Dots -- 2.3 Bioceramics Used in Tissue Engineering -- 2.3.1 Classification Based on Origin -- 2.3.2 Classification Based on Tissue Response -- 2.3.3 Classification Based on Composition -- 2.3.3.1 Zirconium-Based Bioceramics
001449550 5058_ $$a2.3.3.2 Alumina-Based Bioceramics -- 2.3.3.3 Carbon-Based Bioceramics -- 2.4 Properties of Nanoparticles and Bioceramic Materials -- 2.5 Current Challenges and Future Perspective -- 2.6 Conclusion -- References -- 3: Application of Nanoparticles in Soft Tissue Engineering -- 3.1 Introduction -- 3.2 Nanofibers for Soft Tissue Engineering -- 3.2.1 Nature-Derived Nanofibers -- 3.2.2 Synthetic Nanofibers -- 3.3 Inorganic Nanoparticles -- 3.3.1 Silver Nanoparticles -- 3.3.2 Gold Nanoparticles -- 3.3.3 Iron Nanoparticles -- 3.3.4 Aluminum Nanoparticles -- 3.3.5 Zinc Nanomaterial
001449550 5058_ $$a3.3.6 Magnesium Nanoparticles -- 3.3.7 Titanium -- 3.4 Nanomaterial Applications in Specific Areas of Tissue Engineering -- 3.4.1 Application of Nanomaterials for Soft Tissue Engineering in Dentistry -- 3.4.2 Applications of Nanomaterials for Soft Tissue Engineering in Stem Cells -- 3.4.3 Application of Nanomaterials for Soft Tissue Engineering in Osteology -- 3.4.4 Application of Nanomaterials for Soft Tissue Engineering in Cardiac Muscles -- 3.4.5 Application of Nanomaterials for Soft Tissue Engineering in Neurology -- 3.5 Future Directions in Soft Tissue Engineering -- 3.6 Conclusion
001449550 506__ $$aAccess limited to authorized users.
001449550 520__ $$aThis book discusses advancements in the applications of nanoparticles in tissue engineering. It examines the applications of nanobiomaterials in hard tissue regeneration, fabrication, and characterization. The book also analyzes the implication of three-dimensional and four-dimensional fabrication techniques for the production of the scaffold in tissue engineering and their advantages over conventional scaffold production techniques. Further, it presents smart materials used in making 4-D scaffolds that imitate the dynamic response of tissue against natural stimuli and adapt to the microenvironment by changing their conformation or other properties. It also summarizes the growing field of biomolecular detection and biosensors in tissue engineering and the increasing prominence of nanoparticles in the biosensors. Further, it provides the future outlook and associated challenges of the application of nanomaterials in tissue engineering.
001449550 588__ $$aOnline resource; title from PDF title page (SpringerLink, viewed September 27, 2022).
001449550 650_0 $$aTissue engineering.
001449550 650_0 $$aNanoparticles.
001449550 655_0 $$aElectronic books.
001449550 7001_ $$aAfaq, Sarah.
001449550 7001_ $$aMalik, Arshi.
001449550 7001_ $$aTarique, Mohammed$$c(Of Jamia Millia Islamia)
001449550 77608 $$iPrint version: $$z9811661979$$z9789811661976$$w(OCoLC)1264138222
001449550 852__ $$bebk
001449550 85640 $$3Springer Nature$$uhttps://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-981-16-6198-3$$zOnline Access$$91397441.1
001449550 909CO $$ooai:library.usi.edu:1449550$$pGLOBAL_SET
001449550 980__ $$aBIB
001449550 980__ $$aEBOOK
001449550 982__ $$aEbook
001449550 983__ $$aOnline
001449550 994__ $$a92$$bISE