Nanomaterials as scaffolds in bone tissue engineering in dental medicine
Само за регистроване кориснике
2016
Аутори
Marković, DejanPetrović, Bojan
Jokanović, Vukoman
Perić, Tamara
Čolović, Božana
Karadžić, Ivana
Поглавље у монографији (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
Traditional strategies for skeletal regeneration in the orofacial region involve the use of autogenous and allogenic bone grafts that may not always be available or safe. One alternative is to develop materials for use as scaffolds for tissue engineering. These calcium-phosphate-based materials are porous, have a large surface area to volume ratio, and can be used to deliver drugs or cells. This enables the development of scaffolds for applications in tissue engineering and bone regeneration. Nanostructured materials promote greater amounts of specific protein interactions and more efficiently stimulate new bone formation. When features of scaffolds are nanoscaled, a variety of interactions can be stimulated at the cellular level. The main requirements for bone tissue engineering scaffolds are discussed, as well as the main types and design strategies. The mechanism by which nanomaterials promote bone formation is explained and the current research status of main types of nanostructure...d scaffolds is reviewed.
Кључне речи:
Bone regeneration / Bone tissue engineering / Dentistry / Nanostructure / Scaffold / Tissue engineering strategiesИзвор:
Nanobiomaterials in Hard Tissue Engineering: Applications of Nanobiomaterials, 2016, 413-442Издавач:
- Elsevier Inc.
Колекције
Институција/група
Stomatološki fakultetTY - CHAP AU - Marković, Dejan AU - Petrović, Bojan AU - Jokanović, Vukoman AU - Perić, Tamara AU - Čolović, Božana AU - Karadžić, Ivana PY - 2016 UR - https://smile.stomf.bg.ac.rs/handle/123456789/2163 AB - Traditional strategies for skeletal regeneration in the orofacial region involve the use of autogenous and allogenic bone grafts that may not always be available or safe. One alternative is to develop materials for use as scaffolds for tissue engineering. These calcium-phosphate-based materials are porous, have a large surface area to volume ratio, and can be used to deliver drugs or cells. This enables the development of scaffolds for applications in tissue engineering and bone regeneration. Nanostructured materials promote greater amounts of specific protein interactions and more efficiently stimulate new bone formation. When features of scaffolds are nanoscaled, a variety of interactions can be stimulated at the cellular level. The main requirements for bone tissue engineering scaffolds are discussed, as well as the main types and design strategies. The mechanism by which nanomaterials promote bone formation is explained and the current research status of main types of nanostructured scaffolds is reviewed. PB - Elsevier Inc. T2 - Nanobiomaterials in Hard Tissue Engineering: Applications of Nanobiomaterials T1 - Nanomaterials as scaffolds in bone tissue engineering in dental medicine SP - 413 EP - 442 DO - 10.1016/B978-0-323-42862-0.00014-6 ER -
@inbook{ author = "Marković, Dejan and Petrović, Bojan and Jokanović, Vukoman and Perić, Tamara and Čolović, Božana and Karadžić, Ivana", year = "2016", abstract = "Traditional strategies for skeletal regeneration in the orofacial region involve the use of autogenous and allogenic bone grafts that may not always be available or safe. One alternative is to develop materials for use as scaffolds for tissue engineering. These calcium-phosphate-based materials are porous, have a large surface area to volume ratio, and can be used to deliver drugs or cells. This enables the development of scaffolds for applications in tissue engineering and bone regeneration. Nanostructured materials promote greater amounts of specific protein interactions and more efficiently stimulate new bone formation. When features of scaffolds are nanoscaled, a variety of interactions can be stimulated at the cellular level. The main requirements for bone tissue engineering scaffolds are discussed, as well as the main types and design strategies. The mechanism by which nanomaterials promote bone formation is explained and the current research status of main types of nanostructured scaffolds is reviewed.", publisher = "Elsevier Inc.", journal = "Nanobiomaterials in Hard Tissue Engineering: Applications of Nanobiomaterials", booktitle = "Nanomaterials as scaffolds in bone tissue engineering in dental medicine", pages = "413-442", doi = "10.1016/B978-0-323-42862-0.00014-6" }
Marković, D., Petrović, B., Jokanović, V., Perić, T., Čolović, B.,& Karadžić, I.. (2016). Nanomaterials as scaffolds in bone tissue engineering in dental medicine. in Nanobiomaterials in Hard Tissue Engineering: Applications of Nanobiomaterials Elsevier Inc.., 413-442. https://doi.org/10.1016/B978-0-323-42862-0.00014-6
Marković D, Petrović B, Jokanović V, Perić T, Čolović B, Karadžić I. Nanomaterials as scaffolds in bone tissue engineering in dental medicine. in Nanobiomaterials in Hard Tissue Engineering: Applications of Nanobiomaterials. 2016;:413-442. doi:10.1016/B978-0-323-42862-0.00014-6 .
Marković, Dejan, Petrović, Bojan, Jokanović, Vukoman, Perić, Tamara, Čolović, Božana, Karadžić, Ivana, "Nanomaterials as scaffolds in bone tissue engineering in dental medicine" in Nanobiomaterials in Hard Tissue Engineering: Applications of Nanobiomaterials (2016):413-442, https://doi.org/10.1016/B978-0-323-42862-0.00014-6 . .