2018
DOI: 10.1002/jbm.a.36387
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Effects of the hierarchical macro/mesoporous structure on the osteoblast‐like cell response

Abstract: To improve the success of medical devices, implants with strong surface bioactivity are urgently required. Coatings with a macroporous structure produced by micro-arc oxidation possess advantages, such as strong adhesion to substrate and excellent resistance to wear and corrosion. Mesoporous structures contain pores with sizes of 2-50 nm, which can endow the biomaterials with the ability to enhance osteogenesis and to be loaded with diverse drugs. Thus, in this study, we aimed to evaluate the effects of both m… Show more

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Cited by 18 publications
(10 citation statements)
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“…32 The La-MCS/CTS scaffolds harboured the mesoporous structure, the pore size of which was approximately 200 μm, which permitted the rapid adhesion and spreading of rBSMCs. [33][34][35] In previous work, it was found that both CS and CTS possessed prominent biocompatibility and latent capacity for biomedical applications. [36][37][38] Interestingly, both the structure and chemical composition of the La-MSC/ CTS scaffolds provided a basis for rapid cell adhesion and proliferation.…”
Section: Ca3la1/cts Scaffolds Promote Rbmsc Proliferation In Vitromentioning
confidence: 99%
“…32 The La-MCS/CTS scaffolds harboured the mesoporous structure, the pore size of which was approximately 200 μm, which permitted the rapid adhesion and spreading of rBSMCs. [33][34][35] In previous work, it was found that both CS and CTS possessed prominent biocompatibility and latent capacity for biomedical applications. [36][37][38] Interestingly, both the structure and chemical composition of the La-MSC/ CTS scaffolds provided a basis for rapid cell adhesion and proliferation.…”
Section: Ca3la1/cts Scaffolds Promote Rbmsc Proliferation In Vitromentioning
confidence: 99%
“…Material surface roughness and topography are amongst the physicochemical properties that conditions the adhesion of cells to the scaffolds among other cell functions [43,44]. A topography for scaffolds combining cells-material contact at the microscale and nanoscale is necessary to reach effective tissue integration [45]. The high porosity of the starch aerogels in the nanoscale (Figure 2) can mimic the extracellular matrix and significantly contribute to the number of anchoring sites in the scaffolds for surface adhesion of cells [43,46], to influence the cell behavior and to promote certain biological pathways for tissue growth [45,47,48,49].…”
Section: Resultsmentioning
confidence: 99%
“…Deposition of calcium phosphates on Ti‐based implants has previously been reported (Kuroda & Okido, ; Mavis & Taş, ); however, in this study, the synthesis parameters were adjusted in such a way that the hydroxyapatite phase would uniformly be formed with bimodal pore size distribution, both mesoporous and macroporous structures. It has also previously been shown that the hierarchical macro‐/mesoporous structure strongly impacts on the protein interactions with the implant surface, consequently affecting cell behavior as compared with its counterpart with a single mode of porosity (Zhang et al, ). In addition, the open and interconnected mesoporous architecture was obtained using nonionic surfactant C 12 E 10 as a template.…”
Section: Discussionmentioning
confidence: 99%