Other Publications (1)
Articles by Xiao Zhang in JoVE
Locust AntennaeにおけるRNAによる嗅覚受容体遺伝子の局在 Xiao Xu1, Yinwei You1,2, Long Zhang1 1Department of Entomology, China Agricultural University, 2Bio-tech Research Center, Shandong Academy of Agricultural Sciences この論文では、ジゴキシゲニン（DIG）標識またはビオチン標識プローブを用いた昆虫アンテナにおいて、特に低レベル発現匂い受容体（OR）遺伝子ならびに他の遺伝子の詳細かつ非常に有効なRNA in situハイブリダイゼーションプロトコルについて記載している。
麻酔下のマウスから脳脊髄液のコレクションのための改良法 Nastasia K-H Lim1,2, Visse Moestrup3,4, Xiao Zhang1, Wen-An Wang5, Arne Møller3,4,6, Fu-De Huang1,4 1Shanghai Advanced Research Institute, University of Chinese Academy of Sciences, Chinese Academy of Science, 2Shanghai Institute of Materia Medica, University of Chinese Academy of Sciences, Chinese Academy of Science, 3Center of Functionally Integrative Neuroscience, Department of Clinical Medicine, Aarhus University, 4Sino-Danish Center for Education and Research (SDC), 5Department of Neurology, Xinhua Hospital Chongming Branch Affiliated to Shanghai Jiao Tong University School of Medicine, 6Department of Nuclear Medicine and PET-centre, Aarhus University Hospital このプロトコルではない汚染血液から脳脊髄液 (CSF) の豊富なコレクションのための改善された技術について説明します。大きいサンプル コレクションと純度で、脳や脊髄に影響を与える病気の私達の理解を促進するため CSF を使用してより分析を実行できます。
Other articles by Xiao Zhang on PubMed
Influence of Custom-made Implant Designs on the Biomechanical Performance for the Case of Immediate Post-extraction Placement in the Maxillary Esthetic Zone: a Finite Element Analysis Computer Methods in Biomechanics and Biomedical Engineering. | Pubmed ID: 28132525 Due to the increasing adoption of immediate implantation strategies and the rapid development of the computer aided design/computer aided manufacturing technology, a therapeutic concept based on patient-specific implant dentistry has recently been reintroduced by many researchers. However, little information is available on the designs of custom-made dental implant systems, especially their biomechanical behavior. The influence of the custom-made implant designs on the biomechanical performance for both an immediate and a delayed loading protocol in the maxillary esthetic zone was evaluated by means of the finite element (FE) method. FE models of three dental implants were considered: a state of the art cylindrical implant and two custom-made implants designed by reverse engineering technology, namely a root-analogue implant and a root-analogue threaded implant. The von Mises stress distributions and micro-motions around the bone-implant interfaces were calculated using ANSYS software. In a comparison of the three implant designs for both loading protocols, a favorable biomechanical performance was observed for the use of root-analogue threaded implant which approximated the geometry of natural anterior tooth and maintained the original long-axis. The results indicated that bone-implant interfacial micro-motion was reduced and a favorable stress distribution after osseointegration was achieved.