2024
DOI: 10.3389/fbioe.2024.1342340
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Current developments and future perspectives of nanotechnology in orthopedic implants: an updated review

Wenqing Liang,
Chao Zhou,
Juqin Bai
et al.

Abstract: Orthopedic implants are the most commonly used fracture fixation devices for facilitating the growth and development of incipient bone and treating bone diseases and defects. However, most orthopedic implants suffer from various drawbacks and complications, including bacterial adhesion, poor cell proliferation, and limited resistance to corrosion. One of the major drawbacks of currently available orthopedic implants is their inadequate osseointegration at the tissue-implant interface. This leads to loosening a… Show more

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Cited by 7 publications
(2 citation statements)
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“…CPC ultrafine nanofibers, akin to cortical bone, improve fracture resistance. Pores and interconnecting channels for bone ingrowth are created by fiber degradation ( Canal and Ginebra, 2011 ) When PMMA is blended with a 2% aqueous gel solution of sodium hyaluronate, its elastic modulus and yield strength decrease ( Liang et al, 2024 ). The addition of CNTs to CPC increases its strength, as does the bio-mineralization of CNTs ( Wang et al, 2007 ).…”
Section: Materials For Bone Restorationmentioning
confidence: 99%
See 1 more Smart Citation
“…CPC ultrafine nanofibers, akin to cortical bone, improve fracture resistance. Pores and interconnecting channels for bone ingrowth are created by fiber degradation ( Canal and Ginebra, 2011 ) When PMMA is blended with a 2% aqueous gel solution of sodium hyaluronate, its elastic modulus and yield strength decrease ( Liang et al, 2024 ). The addition of CNTs to CPC increases its strength, as does the bio-mineralization of CNTs ( Wang et al, 2007 ).…”
Section: Materials For Bone Restorationmentioning
confidence: 99%
“…Nanostructures designed for orthopedic treatments often exhibit unique surface morphologies, such as high porosity or specific topographies that encourage bone cell adherence and proliferation, thereby aiding in bone tissue integration ( Liang et al, 2024 ). The internal structure, potentially visible through high-resolution imaging, might include a strategic arrangement of pores or channels that supports nutrient flow and waste removal, mimicking natural bone architecture.…”
Section: Materials For Bone Restorationmentioning
confidence: 99%