Reprint
Editorial Board Members’ Collection Series: Biomaterials Design
Edited by
August 2024
214 pages
- ISBN978-3-7258-1691-0 (Hardback)
- ISBN978-3-7258-1692-7 (PDF)
This is a Reprint of the Special Issue Editorial Board Members’ Collection Series: Biomaterials Design that was published in
Engineering
Summary
This reprint aims to present the latest achievements in biomaterials science regarding the repair or replacement of tissue functions in the human body. In this reprint, leading experts describe their latest research in the field, including innovative methods for the design of enhanced cochlear implants, cranial implants, and bone implants (jaw, tibia, femur, knee, and hip). Other research works presented in this reprint describe novel methods for the detection of lung cancer, the monitoring of blood glucose, the use of adhesives for orthopedic applications, and the 3D printing of artificial organs.
Format
- Hardback
License and Copyright
© 2024 by the authors; CC BY-NC-ND license
Keywords
adhesion; bio-based adhesives; bio-polymers; ceramics; orthopedic; biomaterials; bio-lubricant; lubrication parameter; bone drilling; blood; bioactive kinetic screw; calciumphosphate cement; CPC; β-TCP; 3D printing; mechanical properties; sinter ceramics; biomimicry; strategy; Voronoi; 3D printing; mechanical behavior; compression; finite element analysis; FEM; basilar membrane; clarion processor; cochlear implant; equivalent rectangular bandwidth (ERB); gammatone filter (GTF) bank; pseudo-resonant frequency; lung cancer detection; DenseNet; attention mechanism; CT scans; histopathological images; total knee arthroplasty; tibia bone; finite element method; meshless methods; bone remodeling; patient-specific implant; medical imaging; cranial implant; biomaterial; PMMA; PEEK; finite element analysis; reverse engineering; CAD modeling; accuracy; turbine blade; helical gear; anatomical model; additive manufacturing; personalized medicine; bioprinting; medical education; orthognathic surgery; mandibular osteotomy; 3D design; DICOM; blood glucose monitoring; embedded systems; heartbeat sensor; near-IR sensors; n/a