&lt;p&gt;Enhanced Osseointegration of Titanium Implants by Surface Modification with Silicon-doped Titania Nanotubes&lt;/p&gt;

Zhao, Xixi; You, Linna; Wang, Tao; Zhang, Xianjun; Li, Zexi; Ding, Luguang; Chu, Xiao; Han, Fengxuan; Li, Bin

doi:10.2147/ijn.s270311

Cited by 22 publications

(16 citation statements)

References 41 publications

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“…From the perspective of molecular biology of osteoblasts, osteoclasts, fibroblasts, and mesenchymal stem cells, the mechanisms of bone aggregation, osteoinduction, and osseointegration on titanium implants have been deeply studied [ 116 , 117 , 118 , 119 ]. However, in recent years, there have been more and more explorations of the role of integrins on the surface of bone cells.…”

Section: Discussionmentioning

confidence: 99%

Titanium Implants and Local Drug Delivery Systems Become Mutual Promoters in Orthopedic Clinics

Gao

Zhao

et al. 2021

Nanomaterials

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Titanium implants have always been regarded as one of the gold standard treatments for orthopedic applications, but they still face challenges such as pain, bacterial infections, insufficient osseointegration, immune rejection, and difficulty in personalizing treatment in the clinic. These challenges may lead to the patients having to undergo a painful second operation, along with increased economic burden, but the use of drugs is actively solving these problems. The use of systemic drug delivery systems through oral, intravenous, and intramuscular injection of various drugs with different pharmacological properties has effectively reduced the levels of inflammation, lowered the risk of endophytic bacterial infection, and regulated the progress of bone tumor cells, processing and regulating the balance of bone metabolism around the titanium implants. However, due to the limitations of systemic drug delivery systems—such as pharmacokinetics, and the characteristics of bone tissue in the event of different forms of trauma or disease—sometimes the expected effect cannot be achieved. Meanwhile, titanium implants loaded with drugs for local administration have gradually attracted the attention of many researchers. This article reviews the latest developments in local drug delivery systems in recent years, detailing how various types of drugs cooperate with titanium implants to enhance antibacterial, antitumor, and osseointegration effects. Additionally, we summarize the improved technology of titanium implants for drug loading and the control of drug release, along with molecular mechanisms of bone regeneration and vascularization. Finally, we lay out some future prospects in this field.

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Section: Discussionmentioning

confidence: 99%

Titanium Implants and Local Drug Delivery Systems Become Mutual Promoters in Orthopedic Clinics

Gao

Zhao

et al. 2021

Nanomaterials

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“…The energy of the injected ions is gradually lost and the ions stay within the implant, causing changes in its surface composition, structure, and performance. Zhao et al 65 Runx2), calcium deposition, and implant-tissue interface bonding strength.…”

Section: Plasma Immersion Ion Implantation (Piii)mentioning

confidence: 99%

Advances in implant surface modifications to improve osseointegration

Zhu

Wang

2021

Mater. Adv.

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“…Si, another bioactive trace element, possesses a bone affinity that has been shown to enhance osteoblast proliferation and differentiation, stimulate collagen synthesis and bone mineralization [ 292 , 293 ], and to further inhibit the osteoclastogenesis and bone resorption processes [ 294 ]. Zhao et al [ 277 ] fabricated Ti substrates (discs and screws) modified with silicon doped TiO 2 NTs (Si-TiO 2 -NTs) by in situ anodization and Si plasma immersion ion implantation (PIII) technique and compared their activities with those for Ti and TiO 2 NTs. The in vivo results, in line with the in vitro findings, showed that the Si-TiO 2 -NTs surface increased pre-osteoblast cell proliferation and differentiation, indicated extensive bone apposition between the screw threads at the spongy level on this surface and the formation of more new trabecular bone as compared to bare Ti and TiO 2 -NTs screws.…”

Section: Tailoring Osteoinduction With Anodic Tio 2 Nanotubesmentioning

confidence: 99%

Anodic TiO2 Nanotubes: Tailoring Osteoinduction via Drug Delivery

et al. 2021

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TiO2 nanostructures and more specifically nanotubes have gained significant attention in biomedical applications, due to their controlled nanoscale topography in the sub-100 nm range, high surface area, chemical resistance, and biocompatibility. Here we review the crucial aspects related to morphology and properties of TiO2 nanotubes obtained by electrochemical anodization of titanium for the biomedical field. Following the discussion of TiO2 nanotopographical characterization, the advantages of anodic TiO2 nanotubes will be introduced, such as their high surface area controlled by the morphological parameters (diameter and length), which provides better adsorption/linkage of bioactive molecules. We further discuss the key interactions with bone-related cells including osteoblast and stem cells in in vitro cell culture conditions, thus evaluating the cell response on various nanotubular structures. In addition, the synergistic effects of electrical stimulation on cells for enhancing bone formation combining with the nanoscale environmental cues from nanotopography will be further discussed. The present review also overviews the current state of drug delivery applications using TiO2 nanotubes for increased osseointegration and discusses the advantages, drawbacks, and prospects of drug delivery applications via these anodic TiO2 nanotubes.

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<p>Enhanced Osseointegration of Titanium Implants by Surface Modification with Silicon-doped Titania Nanotubes</p>

Cited by 22 publications

References 41 publications

Titanium Implants and Local Drug Delivery Systems Become Mutual Promoters in Orthopedic Clinics

Titanium Implants and Local Drug Delivery Systems Become Mutual Promoters in Orthopedic Clinics

Advances in implant surface modifications to improve osseointegration

Anodic TiO2 Nanotubes: Tailoring Osteoinduction via Drug Delivery

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