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Cell Viability of C60 Fullerene with Three-dimensional Culture using Glass Fiber and Two-dimensional Culture 玻璃纤维三维培养和二维培养对C60富勒烯细胞活力的影响
Q4 Engineering Pub Date : 2020-01-01 DOI: 10.11344/NANO.12.110
Yasuhiko Matsushima, Y. Hoshino
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引用次数: 0
Role of Oral Sensory and Serotonergic Neurons in Dopamine-induced Tongue Movement in Rat 口腔感觉神经元和血清素能神经元在多巴胺诱导的大鼠舌运动中的作用
Q4 Engineering Pub Date : 2020-01-01 DOI: 10.11344/NANO.12.53
T. Harada, S. Iida, Y. Inada, Susumu Tanaka, Y. Hamada, M. Kogo
53 Introduction Oral dyskinesia is a condition in which oral organs exhibit involuntary movements. It is most commonly observed as tardive dyskinesia in patients taking certain neuroleptic drugs. It is also observed in edentulous patients not receiving these medications, which is sometimes termed as edentulous dyskinesia [1,2]. Unlike oral dyskinesia in tardive dyskinesia, edentulous dyskinesia is caused by ill-fitting dentures, malocclusion, and a lack of sensory contact, although the mechanism remains ill defined. However, it was reported that edentulous patients exhibit increased severity of oral dyskinesia when experiencing tardive dyskinesia [3]. Thus, oral sensation plays an important role in the occurrence or deterioration of oral dyskinesia, but the mechanism and oral factors have not yet been elucidated. Role of Oral Sensory and Serotonergic Neurons in Dopamine-induced Tongue Movement in Rat
口腔运动障碍是口腔器官出现不自主运动的一种疾病。在服用某些抗精神病药物的患者中,最常观察到迟发性运动障碍。在没有接受这些药物治疗的无牙患者中也可以观察到这种情况,有时被称为无牙运动障碍[1,2]。与迟发性运动障碍中的口腔运动障碍不同,无牙运动障碍是由假牙不合适、错牙合和缺乏感觉接触引起的,尽管其机制尚不明确。然而,据报道,无牙患者在经历迟发性运动障碍时,口腔运动障碍的严重程度会增加。因此,口腔感觉在口腔运动障碍的发生或恶化中起着重要作用,但其机制和口腔因素尚不清楚。口腔感觉神经元和血清素能神经元在多巴胺诱导的大鼠舌运动中的作用
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引用次数: 0
The Double-edged Effect of Silver Nanoparticles is Determined by Their Physical Characteristics 银纳米粒子的双刃效应是由其物理特性决定的
Q4 Engineering Pub Date : 2020-01-01 DOI: 10.11344/NANO.11.49
A. Fehaid, A. Taniguchi
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引用次数: 1
Tophaceous Pseudogout in the Temporomandibular Joint: A case report 颞下颌关节假脱位1例
Q4 Engineering Pub Date : 2020-01-01 DOI: 10.11344/NANO.12.115
Kazuma Harada, Susumu Tanaka, T. Uchihashi, Kaori Oya, H. Ohara, J. Miura, M. Kogo
115 Introduction Calcium pyrophosphate dihydrate (CPPD) deposition disorder is a general term for arthritis characterized in the precipitation of CPPD crystals in joint tissues which causes various pathological symptoms. When there is deposition of sodium urate on the joints, gout develops, but pseudogout is not caused by sodium urate—CPPD crystal is deposited in the synovial fluid showing an acute gout joint-like seizure, which indicates similarity in its pathological condition to those of gout; thus, it is has been termed “pseudogout.” Moreover, pseudogout refers only to CPPD crystal deposits that have acute gout attack-like symptoms [1]. CPPD crystal deposition disorder may be nodular in form; however, there is a rare pathological condition in which crystals are deposited in lump form yet present as a mass or nodule—this is called tophaceous pseudogout, a subtype of CPPD crystal deposition disorder, which is distinguished from false gout [2, 3]. Tophaceous pseudogout is diagnosed when the joints involve a clinically detectable mass lesion showing radiographically evident tumor-like deposition of CPPD crystals [2, 4]. The most common sites of nodular pseudogout are the knee joints of the ankles and wrists, and this type of gout rarely occurs in the temporomandibular joint (TMJ) [5]. In the present study, we describe an unusual case of Tophaceous Pseudogout in the Temporomandibular Joint: A case report
二水焦磷酸钙(CPPD)沉积障碍是关节炎的总称,其特征是CPPD晶体在关节组织中沉积,引起各种病理症状。当关节上有尿酸钠沉积时,发生痛风,但假性痛风并非由尿酸钠- cppd晶体沉积在滑液中引起,表现为急性痛风样关节发作,其病理情况与痛风相似;因此,它被称为“伪out”。此外,伪痛风仅指具有急性痛风发作样症状[1]的CPPD晶体沉积。CPPD晶体沉积紊乱可呈结节状;然而,有一种罕见的病理情况,即晶体以块状沉积,但以肿块或结节的形式存在,这被称为痛风性假痛风,是CPPD晶体沉积障碍的一种亚型,与假痛风不同[2,3]。当关节出现临床可检测到的肿块病变,影像学上表现出明显的肿瘤样CPPD晶体沉积时,可诊断为白垩性假脱位[2,4]。结节性假性痛风最常见的部位是踝关节和手腕的膝关节,这种类型的痛风很少发生在颞下颌关节(TMJ) bb0。在目前的研究中,我们描述了一个不寻常的情况下,假性假牙在颞下颌关节:一个病例报告
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引用次数: 0
Preliminary Study of Cell Viability at Three Cell Differentiation Levels of Mouse ES Cells using Nano-sized Titanium Dioxide 纳米二氧化钛对小鼠胚胎干细胞三种分化水平下细胞活力的初步研究
Q4 Engineering Pub Date : 2020-01-01 DOI: 10.11344/NANO.12.83
Y. Hoshino, Yasuhiko Matsushima
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引用次数: 0
Study of Cytotoxicity Level by Combining Nanomaterials and Chemical Substances Dissolved in Culture Medium 纳米材料与溶解在培养基中的化学物质结合对细胞毒性水平的研究
Q4 Engineering Pub Date : 2020-01-01 DOI: 10.11344/NANO.12.120
Tsubasa Shirai, Y. Hashimoto, K. Imai
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引用次数: 0
Determining the Tumor Suppressive Effects of a New Drug Delivery System Loaded with Iron Oxide Nanoparticles 确定一种新型载氧化铁纳米颗粒给药系统的肿瘤抑制作用
Q4 Engineering Pub Date : 2020-01-01 DOI: 10.11344/NANO.12.43
Akiko Ohki, Yuhki Yokoyama, T. Yasuda, Shihori Kouda, Satoshi Shibata, Yukihiro Shimomura, Xin Wu, Y. Hamada, S. Mori, T. Takeda, K. Murase, Susumu Tanaka, Hirofumi Yamamoto
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引用次数: 0
Desorption and Ionization of Amino Acid Compounds Observed by Negative Ion Mode Surface-Assisted Laser Desorption/Ionization Mass Spectrometry (SALDI-MS) using Titanium Oxide Nanoparticles 用负离子模式表面辅助激光解吸/电离质谱(SALDI-MS)观察氧化钛纳米颗粒对氨基酸化合物的解吸和电离
Q4 Engineering Pub Date : 2020-01-01 DOI: 10.11344/NANO.12.101
T. Yonezawa, T. Asano, Mai Thanh Nguyen
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引用次数: 1
Study of Cell Viability by Six Kinds of Denture Base Lining Materials and Platinum Nanocolloid-containing Dentifrices using Tissue Model with Collagen Scaffold 六种义齿基托衬里材料和含铂纳米胶体的牙体在胶原支架组织模型中的细胞活力研究
Q4 Engineering Pub Date : 2020-01-01 DOI: 10.11344/NANO.12.33
T. Yokoyama, Y. Hashimoto, K. Imai
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引用次数: 0
Effects of Alzheimer's Disease on the Ability of Titanium Surface to Induce Hard Tissue Differentiation 阿尔茨海默病对钛表面诱导硬组织分化能力的影响
Q4 Engineering Pub Date : 2020-01-01 DOI: 10.11344/NANO.12.11
T. Kusumoto, S. Takao, Zeng Yuhao, Yang Yuanyuan, Lian-qiu Min, Yan Sifan, Y. Tashiro, Satsuki Yamamoto, S. Yoshimine, Hirsohi Nishizaki, J. Okazaki, Y. Komasa, S. Komasa
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引用次数: 0
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