Collagen scaffolds for orthopedic regenerative medicine
@article{Cunniffe2011CollagenSF,
title={Collagen scaffolds for orthopedic regenerative medicine},
author={Gr{\'a}inne M. Cunniffe and Fergal Joseph O'Brien},
journal={JOM},
year={2011},
volume={63},
pages={66-73}
}Collagen and collagen-based scaffolds offer distinct advantages when selected as biomaterials for use across a broad spectrum of regenerative medicine applications. However, relatively poor mechanical properties are often perceived to limit their usefulness for orthopedic applications. These problems can be overcome through enhanced crosslinking mechanisms or through the addition of a second, stiffer phase such as hydroxyapatite, thus allowing tailored composite scaffolds to meet specific…
52 Citations
Collagen-Based Scaffolds for Bone Tissue Engineering Applications
- Biology, Materials Science
- 2017
This chapter presents a brief background on BTE and highlights the advantages and limitations of using collagen type I as a biomaterial for BTE applications, and describes the most common scaffold fabrication methodologies that have been employed for the synthesis of collagen-based scaffolds for Bte applications.
An Overview of Various Biomimetic Scaffolds: Challenges and Applications in Tissue Engineering
- Medicine, Biology
- 2014
Different biomaterials used for tissue regeneration or tissue restoration and their methods of fabrication as well as their application in bone, nerve, cartilage, skin tissue engineering are focused on.
Biodegradable polymer matrix nanocomposites for bone tissue engineering
- Materials Science, BiologyApplications of Nanocomposite Materials in Orthopedics
- 2019
Biodegradable Composite Scaffold for Bone Tissue Regeneration
- Materials Science, EngineeringBiomedical Engineering and its Applications in Healthcare
- 2019
In tissue engineering, biodegradable scaffolds play a crucial role, where matrix degradation and tissue in growth are of immense phenomenon for decisive performance of tissue-scaffold system during regenerative process.
Rheological and Microstructural Evaluation of Collagen-Based Scaffolds Crosslinked with Fructose
- Materials SciencePolymers
- 2021
Collagen-based scaffolds were developed with different concentrations and processing techniques, by obtaining hydrogels and aerogels that were characterized with an emphasis on their morphology and mechanical properties, and revealed that the scaffolds with higher collagen concentrations were more rigid and deformable.
Gold Nanoparticle-Collagen Gels for Soft Tissue Augmentation.
- Biology, EngineeringTissue engineering. Part A
- 2018
It may be possible to utilize AuNPs to stabilize and increase the longevity of CC while still achieving biocompatibility, according to the results of the study.
Review on carbon nanomaterials as typical candidates for orthopaedic coatings
- Materials ScienceSN Applied Sciences
- 2018
Implants are frequently administered devices to provide mechanical support to restore the function of diseased tissues and supports the natural healing process. The new concept of coated implants…
References
SHOWING 1-10 OF 120 REFERENCES
Biomedical applications of collagen.
- Biology, EngineeringInternational journal of pharmaceutics
- 2001
Complexity in biomaterials for tissue engineering.
- BiologyNature materials
- 2009
The molecular and physical information coded within the extracellular milieu is informing the development of a new generation of biomaterials for tissue engineering, and exciting developments are likely to help reconcile the clinical and commercial pressures on tissue engineering.
Nanotechnological strategies for engineering complex tissues.
- Biology, EngineeringNature nanotechnology
- 2011
The nanocomposite nature of the extracellular matrix is reviewed, the design considerations for different tissues are described, and the impact of nanostructures on the properties of scaffolds and their uses in monitoring the behaviour of engineered tissues are discussed.
Collagen--biomaterial for drug delivery.
- BiologyEuropean journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V
- 1998
Addition of hydroxyapatite improves stiffness, interconnectivity and osteogenic potential of a highly porous collagen-based scaffold for bone tissue regeneration.
- Biology, EngineeringEuropean cells & materials
- 2010
These findings demonstrate the regenerative potential of these biodegradable scaffolds as viable bone graft substitute materials, comprised only of bone's natural constituent materials, and capable of promoting osteogenesis in vitro and in vivo repair of critical-sized bone defects.
Influence of a novel calcium-phosphate coating on the mechanical properties of highly porous collagen scaffolds for bone repair.
- Biology, Materials ScienceJournal of the mechanical behavior of biomedical materials
- 2009
Collagen sponges for bone regeneration with rhBMP-2.
- Biology, MedicineAdvanced drug delivery reviews
- 2003