Biomaterials science and tissue engineering :
Basu, Bikramjit,
Biomaterials science and tissue engineering : principles and methods / Bikramjit Basu. - Cambridge, United Kingdom ; New York, NY, USA : Cambridge University Press, 2017. ©2017 - xxv, 696 pages ; 25 cm. - Cambridge - IISc series. .
Includes bibliographical references and index.
Materials for biomedical applications -- Tissue engineering scaffolds : principles and properties -- Conventional and advanced manufacturing of biomaterials -- Probing structure of materials at multiple length scales -- Mechanical properties : principles and assessment -- Cells, proteins and nucleic acids : structure and properties -- Cell-material interaction and biocompatibility -- Probing cell response, in vitro -- Bacterial growth and biofilm formation -- Probing tissue response, in vivo -- Case study : corrosion and wear of selected Ti-alloys -- Case study : calcium phosphate-mullite composites -- Case study : compression moulded HDPE-based hybrid biocomposites -- Case study : phase stability, bactericidal and cytocompatibility of HA-Ag -- Case study : HA-CaTiO3 based multifunctional composites -- Case study : compatibility of neuronal/cardiac cells with patterned substrates -- Perspectives. Materials for biomedical applications --
Tissue engineering scaffolds : principles and properties --
Conventional and advanced manufacturing of biomaterials --
Probing structure of materials at multiple length scales --
Mechanical properties : principles and assessment --
Cells, proteins and nucleic acids : structure and properties --
Cell-material interaction and biocompatibility --
Probing cell response, in vitro --
Bacterial growth and biofilm formation --
Probing tissue response, in vivo --
Case study : corrosion and wear of selected Ti-alloys --
Case study : calcium phosphate-mullite composites --
Case study : compression moulded HDPE-based hybrid biocomposites --
Case study : phase stability, bactericidal and cytocompatibility of HA-Ag --
Case study : HA-CaTiO3 based multifunctional composites --
Case study : compatibility of neuronal/cardiac cells with patterned substrates --
"Provides an encyclopedic coverage of biomaterials science which, at the same time, has enough to interest the biomedical scientists and engineers"--
9781108415156 (hardback : alk. paper)
Biocompatible Materials
Tissue Engineering
Molecular Probe Techniques--methods
610.28 / BAS
QT 37
Biomaterials science and tissue engineering : principles and methods / Bikramjit Basu. - Cambridge, United Kingdom ; New York, NY, USA : Cambridge University Press, 2017. ©2017 - xxv, 696 pages ; 25 cm. - Cambridge - IISc series. .
Includes bibliographical references and index.
Materials for biomedical applications -- Tissue engineering scaffolds : principles and properties -- Conventional and advanced manufacturing of biomaterials -- Probing structure of materials at multiple length scales -- Mechanical properties : principles and assessment -- Cells, proteins and nucleic acids : structure and properties -- Cell-material interaction and biocompatibility -- Probing cell response, in vitro -- Bacterial growth and biofilm formation -- Probing tissue response, in vivo -- Case study : corrosion and wear of selected Ti-alloys -- Case study : calcium phosphate-mullite composites -- Case study : compression moulded HDPE-based hybrid biocomposites -- Case study : phase stability, bactericidal and cytocompatibility of HA-Ag -- Case study : HA-CaTiO3 based multifunctional composites -- Case study : compatibility of neuronal/cardiac cells with patterned substrates -- Perspectives. Materials for biomedical applications --
Tissue engineering scaffolds : principles and properties --
Conventional and advanced manufacturing of biomaterials --
Probing structure of materials at multiple length scales --
Mechanical properties : principles and assessment --
Cells, proteins and nucleic acids : structure and properties --
Cell-material interaction and biocompatibility --
Probing cell response, in vitro --
Bacterial growth and biofilm formation --
Probing tissue response, in vivo --
Case study : corrosion and wear of selected Ti-alloys --
Case study : calcium phosphate-mullite composites --
Case study : compression moulded HDPE-based hybrid biocomposites --
Case study : phase stability, bactericidal and cytocompatibility of HA-Ag --
Case study : HA-CaTiO3 based multifunctional composites --
Case study : compatibility of neuronal/cardiac cells with patterned substrates --
"Provides an encyclopedic coverage of biomaterials science which, at the same time, has enough to interest the biomedical scientists and engineers"--
9781108415156 (hardback : alk. paper)
Biocompatible Materials
Tissue Engineering
Molecular Probe Techniques--methods
610.28 / BAS
QT 37