Verfügbarkeit: Biological imaging and sensing

Biological imaging and sensing:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2004
Schriftenreihe:	Biological and medical physics, biomedical engineering
Schlagworte:	Beeldverwerkende diagnostiek Imagerie en biologie Imagerie médicale Medische fysica Biosensing Techniques Diagnostic Imaging > methods Imaging systems in biology Imaging systems in medicine Elektroanalyse Biologisches Material Bildgebendes Verfahren Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 298 S. Ill., graph. Darst.
ISBN:	354043898X 9783540438984

Internformat

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Datensatz im Suchindex

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adam_text	Contents 1 Biological Imaging and Sensing from Basic Techniques to Clinical Application S. Kawata, 0. Nakamura, T. Kaneko, M. Hashimoto, K. Goto, N.I. Smith, T. Sugiura, I. Fujimasa, H. Matsumoto 1 1.1 Introduction: A General View of the Electromagnetic Waves That Pass through the Living Body 1 1.2 Imaging Cells through a Multi Photon Process 2 1.2.1 Nonlinear Optics in Cells 2 1.2.2 The Imaging Property of Multi Photon Microscopy 3 1.2.3 Instrumentation 5 1.2.4 Calcium Ion Dynamics Revealed by Multi Photon Microscopy 6 1.3 Nonstaining Molecular Imaging (CARS) 9 1.3.1 The Fundamentals of Coherent Anti Stokes Raman Scattering 10 1.3.2 3D Resolution by CARS Microscopy 11 1.3.3 High Speed Image Acquisition 14 1.3.4 Molecular Imaging by CARS Microscopy 15 1.4 Transcutaneous Near Infrared Light Power/Information Transmission for Implantable Medical Devices 19 1.4.1 Feasibility of Powering, Controlling, and Monitoring Implantable Medical Devices Using Near Infrared Light ... 19 1.4.2 Transcutaneous Power Transmission by Near Infrared Light 21 1.4.3 Transcutaneous Information Transmission by Near Infrared Light 23 1.5 Cell and Nanosurgical Operation with Light 25 1.5.1 Introduction and Interactions between Ultra Short Pulses and Biological Materials 25 1.5.2 Laser Induced Disruption in Biomaterials 28 1.5.3 Cell Nanosurgery by Focused Light 28 1.6 The Manipulation of Living Bodies by Light 29 1.6.1 Photon Pressure 30 1.6.2 Three Dimensional Laser Trapping 31 VIII Contents 1.6.3 Force Measurement 32 1.6.4 Microscopy with a Laser Trapped Particle 35 1.7 Physiological Function Analysis of the Human Body and Organ Using Far Infrared Imaging 40 1.7.1 Static Analysis of Abnormal Temperature Distribution on the Skin [57] 40 1.7.2 Dynamic Analysis of Abnormal Temperature Distribution on the Skin [70] 46 1.7.3 Dynamic Analysis of the Surface Temperature of Internal Organs 49 1.7.4 Unsolved Problems 51 1.8 A New Technology for Detecting Coronary Artery Disease 52 1.8.1 Coronary Artery Disease 52 1.8.2 The Detection of Subclinical Coronary Stenosis 52 1.8.3 A Noninvasive Physiological Approach to the Detection of Coronary Artery Disease 53 1.8.4 The Rheological Basis 53 1.8.5 The Impossibility of Conventional Standard Phonocardiography Technology 55 1.8.6 The Theoretical Basis for the New Technology 56 1.8.7 The Principles of the New Laser Phonocardiography Technology 57 1.8.8 The New Laser Phonocardiography Technology Design .... 58 1.8.9 The Details of the Prototype Device 59 1.8.10 Data Acquisition of the Vibratory Signal of the Anterior Chest Wall 62 1.8.11 Signal Processing 62 1.8.12 The Future of the New Laser Phonocardiography Technology 64 References 65 2 Imaging of Tissue/Organs with Ultrasound M. Hori, T. Masuyama, K. Baba, O. Ohshiro, K. Ishihara, H. Kondo . . 69 2.1 Ultrasonic Biological Measurement (Ultrasonography) 69 2.1.1 The Principle of Ultrasonography 69 2.1.2 The Doppler Technique 71 2.1.3 Recent Advances in Ultrasound Imaging 72 2.1.4 The Ultrasonic Characterization of Myocardial Tissue .... 74 2.2 Three Dimensional Ultrasound Imaging of the Fetus 76 2.2.1 Conventional Ultrasound Imaging of the Fetus 76 2.2.2 The Development of Three Dimensional Ultrasound 79 2.2.3 Clinical Applications of Three Dimensional Ultrasound in Obstetrics 81 Contents IX 2.2.4 The Advantages and Limitations of Three Dimensional Ultrasound 82 2.2.5 The Future Development of Three Dimensional Ultrasound 83 2.3 Imaging by a Spherical Ultrasound Wave 84 2.3.1 An Instantaneous Imaging Method 85 2.3.2 Laser Induced Breakdown 86 2.3.3 Ultrasound Generated by Laser Induced Breakdown 87 2.3.4 Imaging Using Laser Induced Breakdown 89 2.3.5 Summary 93 2.4 Imaging Tissues Using an Ultrasound Wave and Light 93 2.4.1 An Ultrasound Wave and Light for Tissues 93 2.4.2 Ultrasound Assisted Optical Imaging 94 2.4.3 The Experimental Setup 94 2.4.4 An Experiment for Weak Scattering Samples 97 2.4.5 An Experiment in a Strongly Scattering Medium 100 2.4.6 Conclusions 101 2.5 An Ultrasonic Drug Delivery System Using Microcapsules 102 2.5.1 The Requirement for a Drug Delivery System 102 2.5.2 The Acoustic Characteristics of Microcapsules as Drug Carriers 103 2.5.3 A Noninvasive Measurement System for DDS 104 2.5.4 Collapse Monitoring of Microcapsules 105 2.5.5 Conclusion 107 2.6 The Biological Effects of Ultrasound 107 2.6.1 The Utilization of Ultrasound Energy for Therapeutics.... 108 2.6.2 The Biological Effects of Diagnostic Ultrasound 108 2.6.3 The Effect of Ultrasound on the Cell Membrane 109 2.6.4 Ultrasound for Gene Therapy 110 2.6.5 Direct Effects on Cell Components Ill 2.6.6 The Stress Induced Cellular Response Ill 2.6.7 Potential Applications of Low Power Ultrasound 113 References 114 3 The Imaging of a Magnetic Source H. Kado, H. Ogata, Y. Haruta, M. Higuchi, M. Shimogawara, J. Kawai, Y. Adachi, C. Bertrand, G. Uehara 117 3.1 The Principle of Magnetic Field Measurement 117 3.1.1 The Magnetic Field 117 3.1.2 The Magnetic Dipole 118 3.1.3 Magnetic Flux 119 3.1.4 The Electromagnetic Coil 119 3.1.5 The Current Dipole 120 3.1.6 Time Varying Magnetic Fields 120 X Contents 3.1.7 The Search Coil Magnetometer 121 3.1.8 The Proton Magnetometer and Other Magnetometers 122 3.1.9 Magnetic Source Analysis 124 3.2 A High Sensitivity Magnetic Field Sensor 125 3.2.1 The SQUID 125 3.2.2 A System for Biomagnetic Measurement 137 3.3 Magnetic Source Analysis 149 3.3.1 The Forward Problem 149 3.3.2 The Inverse Problem 154 3.3.3 Visualization 170 3.4 Biomagnetic Measurement 177 3.4.1 Magnetoencephalography 177 3.4.2 Other Biomagnetic Measurements 192 3.5 Other Applications of Magnetic Source Imaging 194 3.5.1 Field Observation 195 References 200 4 Bioanalyses Using Electrochemical and Electrophysiological Methods E. Tamiya, K. Mabuchi, K. Yokoyama, Y. Murakami, M. Kobayashi, M. Suzuki, H. Suzuki, T. Suzuki, M. Kunimoto 205 4.1 Introduction 205 4.2 The Electrochemical DNA Chip Sensor 209 4.2.1 Introduction 209 4.2.2 The Multiplexed Electrochemical DNA Sensor 209 4.2.3 The Microfluidic PCR Chamber and the Electrochemical Detector 214 4.3 Enzyme Based Electrochemical Biosensors 219 4.3.1 Introduction 219 4.3.2 Biosensors Based on Redox Active Polymers 220 4.3.3 Glucose Sensors on the Market 225 4.3.4 Conclusion 230 4.4 Cell and Tissue Monitoring and Their Applications: The Whole Cell Sensor 231 4.4.1 Overview of Cell Based Sensor 231 4.4.2 The Surface PhotoVoltage (SPV) and Its Application 232 4.5 Neural Network, Neural, or Brain Analyses: Measurements of Neural Activity and Their Application for Analyses of the Neural Network System in the Living Body . .. 239 4.5.1 Ultra Microglutamate Sensors for Brain Analyses 239 4.6 The Application of Micromachining Techniques to Chemical Sensors, Biosensors, and Microanalysis Systems 242 4.6.1 Introduction 242 4.6.2 Basic Technologies 242 Contents XI 4.6.3 Microsensors for Dissolved Gases and Electrolytes 243 4.6.4 Microfabricated Biosensors 247 4.6.5 The Integration of Sensors and Micro Electrochemical Systems 248 4.7 Microneurography: Measurements and Stimulation of a Single Peripheral Nerve Fiber 250 4.7.1 Introduction 250 4.7.2 The History of Microneurography 250 4.7.3 The Technique of Microneurography 251 4.7.4 The Advantages and Disadvantages of Microneurography . . 255 4.7.5 Summary 256 4.8 A Microelectrode for the Neural Interface 257 4.8.1 Introduction 257 4.8.2 The Nerve Electrode (Handmade) 258 4.8.3 A Microelectrode for the Neural Interface 260 4.8.4 Conclusion 263 4.9 Regulation: On Line Measurements of Humoral and Neural Information from the Living Body and Their Application for the Control of Artificial Organs and Limbs 263 4.9.1 The Control of Artificial Hearts Using Humoral Information 263 4.9.2 Control of Artificial Hearts Using Autonomic Nervous Signals 270 4.9.3 The Control of Somatic Sensations and the Generation of Artificial Sensations by Direct Stimulation of the Neural System 275 4.9.4 Control of the Motor Function of Artificial Limbs (by Neural Signals) 286 References 287 Index 295
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spelling	Biological imaging and sensing T. Furukawa (ed.) Berlin [u.a.] Springer 2004 XV, 298 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Biological and medical physics, biomedical engineering Beeldverwerkende diagnostiek gtt Imagerie en biologie Imagerie médicale Medische fysica gtt Biosensing Techniques Diagnostic Imaging methods Imaging systems in biology Imaging systems in medicine Elektroanalyse (DE-588)4014237-1 gnd rswk-swf Biologisches Material (DE-588)4145633-6 gnd rswk-swf Bildgebendes Verfahren (DE-588)4006617-4 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Biologisches Material (DE-588)4145633-6 s Bildgebendes Verfahren (DE-588)4006617-4 s DE-604 Elektroanalyse (DE-588)4014237-1 s Furukawa, Toshiyuki 1931- Sonstige (DE-588)124002226 oth HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010015230&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Biological imaging and sensing Beeldverwerkende diagnostiek gtt Imagerie en biologie Imagerie médicale Medische fysica gtt Biosensing Techniques Diagnostic Imaging methods Imaging systems in biology Imaging systems in medicine Elektroanalyse (DE-588)4014237-1 gnd Biologisches Material (DE-588)4145633-6 gnd Bildgebendes Verfahren (DE-588)4006617-4 gnd
subject_GND	(DE-588)4014237-1 (DE-588)4145633-6 (DE-588)4006617-4 (DE-588)4143413-4
title	Biological imaging and sensing
title_auth	Biological imaging and sensing
title_exact_search	Biological imaging and sensing
title_full	Biological imaging and sensing T. Furukawa (ed.)
title_fullStr	Biological imaging and sensing T. Furukawa (ed.)
title_full_unstemmed	Biological imaging and sensing T. Furukawa (ed.)
title_short	Biological imaging and sensing
title_sort	biological imaging and sensing
topic	Beeldverwerkende diagnostiek gtt Imagerie en biologie Imagerie médicale Medische fysica gtt Biosensing Techniques Diagnostic Imaging methods Imaging systems in biology Imaging systems in medicine Elektroanalyse (DE-588)4014237-1 gnd Biologisches Material (DE-588)4145633-6 gnd Bildgebendes Verfahren (DE-588)4006617-4 gnd
topic_facet	Beeldverwerkende diagnostiek Imagerie en biologie Imagerie médicale Medische fysica Biosensing Techniques Diagnostic Imaging methods Imaging systems in biology Imaging systems in medicine Elektroanalyse Biologisches Material Bildgebendes Verfahren Aufsatzsammlung
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