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Fabrication of Light-curing Type Fluorescent Orthodontic Bonding Materials using Europium-β-diketonate Complex 铕-β-二酮酸配合物制备光固化型荧光正畸键合材料
Q4 Engineering Pub Date : 2018-01-01 DOI: 10.11344/NANO.10.53
Shuichi Yamagata, Takaaki Yamamoto, Yoshiaki Sato, S. Abe, T. Akasaka, Y. Yoshida
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引用次数: 0
Reproducibility in Testing Method with Stirring for In Vitro Glass-ionomer Cement Research 体外玻璃离子水泥搅拌试验方法的重复性研究
Q4 Engineering Pub Date : 2018-01-01 DOI: 10.11344/NANO.10.48
S. Kakuda, S. Abe, P. Saikaew, A. Chowdhury, H. Sano
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引用次数: 0
Optical and Chromatic Evaluation of Fluorescent Orthodontic Bonding Materials Doped with a Europium β-diketonate Complex 掺杂β-二酮酸铕络合物的荧光正畸键合材料的光学和色度评价
Q4 Engineering Pub Date : 2018-01-01 DOI: 10.11344/NANO.10.3
Aiko Matsumoto, Shuichi Yamagata, S. Abe, T. Akasaka, Y. Yoshida, J. Iida
3 Introduction Orthodontic treatment using a multibracket appliance that consists of a set of brackets and wires attached to both the upper and lower teeth is one of the most popular and effective methods to correct malocclusions. Orthodontic brackets are usually bonded to the acid-etched surfaces of teeth (enamel) using methacrylate or dimethacrylate resins. The brackets and the residual bonding materials should be removed at the lowest possible iatrogenic damage to enamel surfaces after completing the active treatment. We have been actively attempting to introduce fluorescent imaging into orthodontic adhesives to minimize such damages, and have had some positive outcomes using different kinds of europium-doped nanophosphors [1, 2]. A large number of detailed studies have been performed on lanthanide complexes because of their particular luminescent properties [3–6]. Europium is one of the most useful lanthanides because of its very narrow emission band, large Stokes shift, and long decay time [4,7]. Moreover, the maximum excitation waveOptical and Chromatic Evaluation of Fluorescent Orthodontic Bonding Materials Doped with a Europium β-diketonate Complex
多托架矫治器是矫正上、下牙错最常用和最有效的方法之一。多托架矫治器由一组托架和金属丝连接在上、下牙上。正畸托架通常使用甲基丙烯酸酯或二甲基丙烯酸酯树脂粘合在牙齿(牙釉质)的酸蚀表面上。在完成主动治疗后,应尽可能在对牙釉质表面造成最小医源性损伤的情况下将托槽和残留的粘接材料移除。我们一直在积极尝试将荧光成像引入正畸粘接剂中,以尽量减少这种损害,并且使用不同种类的铕掺杂纳米荧光粉取得了一些积极的结果[1,2]。由于镧系配合物具有特殊的发光特性,人们对其进行了大量详细的研究[3-6]。铕是最有用的镧系元素之一,因为它的发射带很窄,斯托克斯位移大,衰变时间长[4,7]。此外,还研究了掺杂β-二酮酸铕络合物的荧光正畸键合材料的最大激发波光学和色度评价
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引用次数: 2
Bone Induction by α-tricalcium Phosphate Microparticle Emulsion Containing Simvastatin 含辛伐他汀α-磷酸三钙微颗粒乳剂的骨诱导作用
Q4 Engineering Pub Date : 2017-12-30 DOI: 10.11344/NANO.9.69
Akito Tateyama, Akihito Kato, H. Miyaji, Erika Nishida, Y. Iwasaki, S. Fujii, K. Kawamoto, Kanako Shitomi, Tomokazu Furihata, Kayoko Mayumi, T. Sugaya
69 Introduction Significant bone loss due to periodontal disease, tumors or cysts requires the alveolar bone reconstruction. Block-shaped bone substitute materials have been used clinically to fill large bone defects [1, 2]; however, their low shapeability leads to low operability. To improve their operability, paste-like bone filling agents (bone pastes) are anticipated to be developed as bone graft materials. Calcium phosphate bone paste has been already applied for clinical use [3, 4]; however, bone paste is non-absorbable and Bone Induction by α-tricalcium Phosphate Microparticle Emulsion Containing Simvastatin
由于牙周病、肿瘤或囊肿导致的严重骨质流失需要进行牙槽骨重建。块状骨替代材料已在临床上用于填充较大的骨缺损[1,2];然而,它们的低成形性导致了低操作性。为了提高其可操作性,膏状骨填充剂(骨膏)有望成为骨移植材料。磷酸钙骨膏已应用于临床[3,4];而含辛伐他汀的α-磷酸三钙微颗粒乳剂对骨膏具有不可吸收性和骨诱导作用
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引用次数: 1
Mutagenicity of Titanium Grinding Powder Corroded with Hydrofluoric Acid using Umu-test 用umu试验研究氢氟酸腐蚀钛磨粉的致突变性
Q4 Engineering Pub Date : 2017-01-01 DOI: 10.11344/NANO.9.89
H. Shimizu, Fumihiro Sanada, Y. Taniyama, R. Morishita
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引用次数: 0
Effect of Metal Nanoparticles on Biofilm formation of Streptococcus mutans 金属纳米颗粒对变形链球菌生物膜形成的影响
Q4 Engineering Pub Date : 2017-01-01 DOI: 10.11344/NANO.9.61
M. Hashimoto, Hirotomo Yanagiuchi, H. Kitagawa, S. Yamaguchi, Y. Honda, S. Imazato
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引用次数: 3
Characterization of the Mechanism by Which Papain Suppresses Tooth Discoloration 木瓜蛋白酶抑制牙齿变色机制的研究
Q4 Engineering Pub Date : 2017-01-01 DOI: 10.11344/NANO.9.83
Yoshihiro Yoshikawa, Akari Teramoto, Ayano Nishida, Ema Okamoto, Hiroko Kinosada, Wakana Sugimoto, T. Hirose, Tsuyoshi Shimaoka, A. Kamada, Eisuke Domae, Yuya Hirai, Susumu Tsuda, T. Ikeo
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引用次数: 1
Montipora digitata Exoskeleton Derived Aragonite Particles are useful Scaffold for Tissue-engineered Vascular Graft in Vitro 文石颗粒是体外组织工程血管移植的有效支架材料
Q4 Engineering Pub Date : 2017-01-01 DOI: 10.11344/NANO.9.105
Tomoharu Okamura, K. Tominaga, A. Tanaka, Naoya Uemura, S. Baba, N. Yasuda, H. Yamashiro, K. Imai, T. Nishikawa, H. Shimizu, M. Shida
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引用次数: 2
Autonomic Nerve Reaction by Taste Stimulus of the Recognition Threshold Density 味觉刺激对识别阈值密度的自主神经反应
Q4 Engineering Pub Date : 2017-01-01 DOI: 10.11344/NANO.9.50
Y. Ono, Masataka Yoshioka, Eiji Tanaka, Y. Komasa
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引用次数: 0
Adhesion of Osteoblast-like Cells (Saos-2) on Micro-/Submicro-Patterned Apatite Scaffolds Fabricated with Apatite Cement Paste by Micro-Molding 成骨细胞样细胞(Saos-2)在磷灰石水泥浆料微模塑制备的微/亚微图案磷灰石支架上的粘附
Q4 Engineering Pub Date : 2016-12-01 DOI: 10.11344/NANO.8.112
T. Akasaka, H. Miyaji, N. Kaga, A. Yokoyama, S. Abe, Y. Yoshida
112 Introduction Calcium phosphate materials have been widely used in several medical scaffolds and coatings of dental implants for bone tissue repair and augmentation because of their excellent osteoconductivity and osteoinductivity. Nowadays, calcium phosphate materials have been designed in various forms including nanoparticles, nanofibers, cements, and coatings in tissue engineering [1-3]. Many micro-/nano-structures composed of calcium phosphate, such as bone and teeth in the body, play an important role in bone and teeth architecture [4, 5]. The organization of collagen and hydroxyapatite (HAp) is suggested in bone architecture, where nanohydroxyapatites are oriented to organic collagen fibers and are hierarchically organized with collagen bundles [6, 7]. Dental enamel is a highly organized array of apatite nanocrystals. It is composed of parallel Adhesion of Osteoblast-like Cells (Saos-2) on Micro-/Submicro-Patterned Apatite Scaffolds Fabricated with Apatite Cement Paste by Micro-Molding
磷酸钙材料由于其优异的骨导电性和成骨诱导性,已广泛应用于多种医用支架和牙种植体涂层中,用于骨组织修复和增强。目前,在组织工程中,磷酸钙材料的设计形式多种多样,包括纳米颗粒、纳米纤维、水泥和涂层等[1-3]。磷酸钙组成的许多微/纳米结构,如人体内的骨和牙,在骨和牙的构建中起着重要作用[4,5]。胶原和羟基磷灰石(HAp)的组织在骨结构中被提出,其中纳米羟基磷灰石面向有机胶原纤维,并与胶原束分层组织[6,7]。牙釉质是一种高度有序的磷灰石纳米晶体。它是由成骨细胞样细胞(Saos-2)平行粘附在由磷灰石水泥膏体微模塑制成的微/亚微图案磷灰石支架上组成的
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引用次数: 6
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Nano Biomedicine
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