Effects of titanium surfaces with nano-network structures formed by treatment with various deposition time on vascular endothelial cells

Persistent ID (NDL): info:ndljp/pid/12297234

Material type: 博士論文

Author: 胥, 航

Publisher: -

Publication date: 2021-06-23

Material Format: Digital

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Name of awarding university/degree: 大阪歯科大学,博士（歯学）

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Note (General)：: Zirconia ceramics such as ceria-stabilized zirconia/alumina nanocomposites (nano-ZR) are applied as implant materials due to their excellent mechanica...

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Material Type: 博士論文
Title: Effects of titanium surfaces with nano-network structures formed by treatment with various deposition time on vascular endothelial cells
Author/Editor: 胥, 航
Author Heading: 胥, 航
Publication Date: 2021-06-23
Publication Date (W3CDTF): 2021-06-23
Alternative Title: 浸漬時間によりナノ構造を形成させた純チタン金属が血管内皮細胞に与える影響について
Degree grantor/type: 大阪歯科大学
Date Granted: 2021-06-23
Date Granted (W3CDTF): 2021-06-23
Dissertation Number: 乙第1633号
Degree Type: 博士（歯学）
Conferring No. (Dissertation): 乙第1633号
Text Language Code: eng
Subject Heading: Ce-stabilised zirconia/alumina nanocomposite｜plasma treatment｜implant｜bone｜surface roughness｜superhydrophilicity
Target Audience: 一般
Note (General): Zirconia ceramics such as ceria-stabilized zirconia/alumina nanocomposites (nano-ZR) are applied as implant materials due to their excellent mechanical properties. However, surface treatment is required to obtain sucient biocompatibility. In the present study, we explored the material surface functionalization and assessed the initial adhesion of rat bone marrow mesenchymal stem cells, their osteogenic dierentiation, and production of hard tissue, on plasma-treated alkali-modified nano-ZR. Superhydrophilicity was observed on the plasma-treated surface of alkali-treated nano-ZR along with hydroxide formation and reduced surface carbon. A decreased contact angle was also observed as nano-ZR attained an appropriate wettability index. Treated samples showed higher in vitro bovine serum albumin (BSA) adsorption, initial adhesion of bone marrow and endothelial vascular cells, high alkaline phosphatase activity, and increased expression of bone dierentiation-related factors. Furthermore, the in vivo performance of treated nano-ZR was evaluated by implantation in the femur of male Sprague–Dawley rats. The results showed that the amount of bone formed after the plasma treatment of alkali-modified nano-ZR was higher than that of untreated nano-ZR. Thus, induction of superhydrophilicity in nano-ZR via atmospheric pressure plasma treatment aects bone marrow and vascular cell adhesion and promotes bone formation without altering other surface properties.
2021年度
Persistent ID (NDL): info:ndljp/pid/12297234
https://dl.ndl.go.jp/pid/12297234
Collection: 障害者向け資料
Collection (Materials For Handicapped People:1): テキストデータ
Collection (particular): 国立国会図書館デジタルコレクション > デジタル化資料 > 博士論文
https://dl.ndl.go.jp/collections/A00014
Acquisition Basis: 博士論文（自動収集）
Date Accepted (W3CDTF): 2022-06-05T18:01:14+09:00
Date Created (W3CDTF): 2021-08-11
Format (IMT): application/pdf
Access Restrictions: 国立国会図書館内限定公開
Service for the Digitized Contents Transmission Service: 図書館・個人送信対象外
Availability of remote photoduplication service: 可
Periodical Title (URI): http://id.nii.ac.jp/1392/00000284/
Data Provider (Database): 国立国会図書館 : 国立国会図書館デジタルコレクション
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