Anatomy, modeling and biomaterial fabrication for dental and maxillofacial applications
Biomedical materials Ceramics in medicine Dental implants e-böcker
Bentham Science Publishers
2018
EISBN 9781681086910
Dental implants and human anatomy. Introduction ; Bone structure ; Functional anatomy of the skull.
Mathematical modeling. Intorduction ; Biomechanics of the mandible ; Mathematical analysis of the mandible.
Computational model. Finite element method ; Patient matching ; Bone fracture healing ; Bone remodeling.
dental implants.
Biomaterial production and surface modification. Dental bioceramics ; Bone tissue engineering and scaffolds ; Surface modifications.
Ceramics have been used as biomaterials for oral and maxillofacial applications due to their excellent bioactivity, high hardness and wear resistance. One of the key drawbacks of synthetic implants is their failure to adapt to the local tissue environment. Improvements in reliability and biocompatibility of implants and prostheses can be achieved through surface modifications including the use of biomaterial thin films and nanocoatings. This book provides readers with information about dental implants and biomateriual fabrication for maxillofacial procedures and dental bone / tissue repair. It is an ideal reference for medical and dental students and professionals (dentists, oral and maxillofacial surgeons, orthopedic surgeons, prosthodontics) who are involved in implantology and tissue engineering. It will also provide valuable insights into the application and production of bioactive materials for any researchers and apprentices in materials science and biomedical engineering.
Mathematical modeling. Intorduction ; Biomechanics of the mandible ; Mathematical analysis of the mandible.
Computational model. Finite element method ; Patient matching ; Bone fracture healing ; Bone remodeling.
dental implants.
Biomaterial production and surface modification. Dental bioceramics ; Bone tissue engineering and scaffolds ; Surface modifications.
Ceramics have been used as biomaterials for oral and maxillofacial applications due to their excellent bioactivity, high hardness and wear resistance. One of the key drawbacks of synthetic implants is their failure to adapt to the local tissue environment. Improvements in reliability and biocompatibility of implants and prostheses can be achieved through surface modifications including the use of biomaterial thin films and nanocoatings. This book provides readers with information about dental implants and biomateriual fabrication for maxillofacial procedures and dental bone / tissue repair. It is an ideal reference for medical and dental students and professionals (dentists, oral and maxillofacial surgeons, orthopedic surgeons, prosthodontics) who are involved in implantology and tissue engineering. It will also provide valuable insights into the application and production of bioactive materials for any researchers and apprentices in materials science and biomedical engineering.
