Quantitative Evaluation of Closed-Loop-Shaped Cardiomyocyte Network by Using Ring-Shaped Electrode (Special Issue : Microprocesses and Nanotechnology)
スポンサーリンク
概要
著者
-
Nomura Fumimasa
Department Of Biomedical Information Institute Of Biomaterials And Bioengineering Tokyo Medical And
-
Hamada Tomoyo
Tmdu Ibb
関連論文
- 3P-192 オンチップ心筋ネットワークにおける細胞外電位の異方性伝導(細胞生物学的課題(3),第46回日本生物物理学会年会)
- 2P-222 細胞ネットワークモデルのための一細胞レベルでの心筋細胞伝導速度の測定(細胞生物学的課題(2),第46回日本生物物理学会年会)
- 2P211 Community effect to the drug sensitivity on geometrical patterned cardiomyocytes network by using On-Chip MEA system(The 48th Annual Meeting of the Biophysical Society of Japan)
- 2P-154 多電極チップを用いた心筋細胞小集団による長期的心毒性評価法の開発(細胞生物的課題(接着,運動,骨格,伝達,膜),第47回日本生物物理学会年会)
- 2P-153 オンチップ多電極電位計測システムを用いたマウス胎仔心筋細胞における細胞外電位の波形解析(細胞生物的課題(接着,運動,骨格,伝達,膜),第47回日本生物物理学会年会)
- 2P210 電気刺激による心筋細胞ネットワークのコミュニティ・エフェクトの解析(細胞生物的課題(接着,運動,骨格,伝達,膜),第48回日本生物物理学会年会)
- 2P-155 多電極計測システムを用いた心筋細胞ネットワークの集団化効果の理解(細胞生物的課題(接着,運動,骨格,伝達,膜),第47回日本生物物理学会年会)
- 2P-200 オンチップ・アガロースマイクロチャンバー内での細胞数を制御した心筋細胞集団の拍動ゆらぎの計測(細胞生物学的課題(2),第46回日本生物物理学会年会)
- Orientation and Community Size Dependences of Pulsatile Electrical Field Stimulation on Lined-Up and Rod-Shaped Single Cardiomyocytes
- Quasi-In vivo Heart Electrocardiogram Measurement of ST Period Using Convolution of Cell Network Extracellular Field Potential Propagation in Lined-Up Cardiomyocyte Cell-Network Circuit
- Orientation and community size dependences of pulsatile electrical field stimulation on lined-up and rod-shaped single cardiomyocytes
- Quasi-in vivo heart electrocardiogram measurement of ST period using convolution of cell network extracellular field potential propagation in lined-up cardiomyocyte cell-network circuit
- 2J1424 オンチップ細胞計測技術を用いた薬剤の心毒性評価システムの開発(計測、その他,第49回日本生物物理学会年会)
- 2J1436 オンチップ多電極計測システムを用いたヒトES細胞由来心筋細胞塊の細胞外電位計測(計測、その他,第49回日本生物物理学会年会)
- 2J1448 Quasi-in vivo heart electrocardiogram measurement using convolution of field potential propagation in cardiomyocyte network circuit(Measurements, Miscellaneous topics,The 48th Annual Meeting of the Biophysical Society of Japan)
- Quantitative Evaluation of Closed-Loop-Shaped Cardiomyocyte Network by Using Ring-Shaped Electrode (Special Issue : Microprocesses and Nanotechnology)
- Importance of Thickness in Human Cardiomyocyte Network for Effective Electrophysiological Stimulation Using On-Chip Extracellular Microelectrodes (Special Issue : Microprocesses and Nanotechnology)
- Improvement of Electrical Stimulation Protocol for Simultaneous Measurement of Extracellular Potential with On-Chip Multi-Electrode Array System (Special Issue : Microprocesses and Nanotechnology)
- Quantitative Evaluation of Closed-Loop-Shaped Cardiomyocyte Network by Using Ring-Shaped Electrode
- Advanced Ring-Shaped Microelectrode Assay Combined with Small Rectangular Electrode for Quasi-In vivo Measurement of Cell-to-Cell Conductance in Cardiomyocyte Network
- On-Chip Single-Cell-Shape Control Technology for Understanding Contractile Motion of Cardiomyocytes Measured Using Optical Image Analysis System
- Advanced Ring-Shaped Microelectrode Assay Combined with Small Rectangular Electrode for Quasi-In vivo Measurement of Cell-to-Cell Conductance in Cardiomyocyte Network (Special Issue : Microprocesses and Nanotechnology)
- On-Chip Single-Cell-Shape Control Technology for Understanding Contractile Motion of Cardiomyocytes Measured Using Optical Image Analysis System (Special Issue : Microprocesses and Nanotechnology)