Proceedings of the Final Symposium of the Tohoku University 21st Century Center of Excellence Program, Sendai International Center, Japan 7-9 January 2007
Proceedings of the Final Symposium of the Tohoku University 21st Century Center of Excellence Program, Sendai International Center, Japan 7-9 January 2007
Combining engineering and medicine research projects with biological applications, the contributions in this volume constitute the efforts of both distinguished scientists and young investigators in various fields of biomedical engineering at Tohoku University, one of Japan''s leading scientific research universities. The Tohoku University 21st Century COE Program OC Future Medical Engineering Based on BionanotechnologyOCO is OCo out of 113 programmes chosen by the Ministry of Education, Culture, Sports, Science and Technology in 2002 OCo the only one program devoted to biomedical engineering. This book comprises the proceedings of the final closing symposium to be held in January 2007, and summarizes all the efforts of the program in a comprehensive manner. In total, more than 100 authors from the engineering and medical schools of Tohoku University have contributed to this volume, through which readers can understand all the research results carried out under the umbrella of the program. Sample Chapter(s). Chapter 1: An Electrochemical Microsystem for Manipulating Living Cells (910 KB). Contents: Cellular Function and Molecular Operation: Progress of Our Research in Auditory Mechnaics (H Wada); Generation of Stable Chinese Hamster Ovary Cell Lines Expressing the Motor Protein Prestin (K Iida et al.); Protection of Outer Hair Cells from Traumatic Noise by Conditioning with Heat Stress (M Murakoshi et al.); Time-Lapse Observation of Neural Epithelium Cell Behavior in Slice Culture (N Nakamura et al.); Nano-Medicine: Development of Novel Medical Engineering Using Micro-Nanomachining (M Esashi); Biomimetic Artificial Myocardium Using Nano Technology (T Yambe); MEMS-Based Fuel Cell for Portable Medical Applications (K-B Min et al.); Lithium Niobate Bulk Micromachining for Medical Sensors (A Randles et al.); Imaging of the Biological Molecule and Structure: Brain Imaging of Quality of Life Using Positron Emission Tomography (M Itoh & M Tashiro); Human Brain Metabolic Changes Induced by Actual Car-Driving (M Jeong et al.); Automatic Medical Image Registration Using Mutual Information (K Kumagai et al.); The Comparison of Brain Structure Between Exercised and Non-Exercised Students (H Sensui et al.); Medical Informatics: Computational Approaches to Hemodynamics Analysis from Micro to Macro Scales (T Yamaguchi); A Fluid-Solid Interaction Study of the Pulse Wave Velocity in Uniform Arteries (T Fukui et al.); CFD Tools in Engineering Design Studies and Medical Sciences (P S Kulkarni); Evaluation of an Index for Cardiac Function During Assitance with a Rotary Blood Pump (D Ogawa et al.); and other papers. Readership: Postgraduate students and researchers in biomedical engineering.
The development of near-field optics marked a major advance in microscopy and our ability to develop nanoscale technologies. However, the tapered optical fiber widely in use as the optical near-field probe has serious limitations in its fabrication, its optical transmission efficiency, and its use in arrays. Fabrication of Silicon Microprobes for Optical Near-Field Applications reports on several technological approaches to using silicon micromachining techniques for fabricating microprobes without the drawbacks of conventional optical fiber probes. The authors have developed a simple, effective method for batch-process production of silicon cantilevered probes with apertures as small as 20 nanometers. They have investigated in detail the probes' optical performance characteristics and show how the silicon probes overcome the limitations of the optical fiber probes in terms of production throughput, optical throughput, reproducibility, simplicity of instrumentation, and mechanical performance.
Proceedings of the Final Symposium of the Tohoku University 21st Century Center of Excellence Program, Sendai International Center, Japan 7-9 January 2007
Proceedings of the Final Symposium of the Tohoku University 21st Century Center of Excellence Program, Sendai International Center, Japan 7-9 January 2007
Combining engineering and medicine research projects with biological applications, the contributions in this volume constitute the efforts of both distinguished scientists and young investigators in various fields of biomedical engineering at Tohoku University, one of Japan's leading scientific research universities.The Tohoku University 21st Century COE Program ?Future Medical Engineering Based on Bionanotechnology? is ? out of 113 programmes chosen by the Ministry of Education, Culture, Sports, Science and Technology in 2002 - the only one program devoted to biomedical engineering. This book comprises the proceedings of the final closing symposium to be held in January 2007, and summarizes all the efforts of the program in a comprehensive manner. In total, more than 100 authors from the engineering and medical schools of Tohoku University have contributed to this volume, through which readers can understand all the research results carried out under the umbrella of the program.
The development of near-field optics marked a major advance in microscopy and our ability to develop nanoscale technologies. However, the tapered optical fiber widely in use as the optical near-field probe has serious limitations in its fabrication, its optical transmission efficiency, and its use in arrays. Fabrication of Silicon Microprobes for Optical Near-Field Applications reports on several technological approaches to using silicon micromachining techniques for fabricating microprobes without the drawbacks of conventional optical fiber probes. The authors have developed a simple, effective method for batch-process production of silicon cantilevered probes with apertures as small as 20 nanometers. They have investigated in detail the probes' optical performance characteristics and show how the silicon probes overcome the limitations of the optical fiber probes in terms of production throughput, optical throughput, reproducibility, simplicity of instrumentation, and mechanical performance.
In the last decades, the Shape Memory Alloys, with their peculiar thermo-mechanical properties, high corrosion and extraordinary fatigue resistance, have become more popular in research and engineering applications. This book contains a number of relevant international contributions related to their properties, constitutive models and numerical simulation, medical and civil engineering applications, as well as aspects related to their processing.
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