Verfügbarkeit: Implantable bioelectronics

Implantable bioelectronics:

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Bibliographische Detailangaben
Weitere Verfasser:	Katz, Evgeny (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2014
Schlagworte:	Implantiertes medizinisches Gerät Medizinische Elektronik Aufsatzsammlung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXII, 449 S. 130 schw.-w. Ill., 20 farb. Ill. 244 mm x 170 mm
ISBN:	3527335250 9783527335251 9783527673148

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE XV LIST OF CONTRIBUTORS XVII 1 IMPLANTABLE BIOELECTRONICS - EDITORIAL INTRODUCTION 1 EVGENY KATZ REFERENCES 5 2 MAGNETICALLY FUNCTIONALIZED CELLS: FABRICATION, CHARACTERIZATION, AND BIOMEDICAL APPLICATIONS 7 EKATERINA A. NAUMENKO, MARIA R. DZAMUKOVA, AND RAWIL F. FAKHRULLIN 2.1 INTRODUCTION 7 2.2 MAGNETIC MICROBIAL CELLS 8 2.2.1 DIRECT DEPOSITION OF MNPS ONTO MICROBIAL CELLS 8 2.2.2 POLYMER-MEDIATED DEPOSITION OF MNPS ONTO MICROBIAL CELLS 9 2.2.2.1 LAYER-BY-LAYER MAGNETIC FUNCTIONALIZATION OF MICROBIAL CELLS 9 2.2.2.2 SINGLE-STEP POLYMER-MEDIATED MAGNETIC FUNCTIONALIZATION OF MICROBIAL CELLS 11 2.2.3 APPLICATIONS OF MAGNETICALLY MODIFIED MICROBIAL CELLS 15 2.2.3.1 BIOSORBENTS AND BIOCATALYSTS 15 2.2.3.2 WHOLE-CELL BIOSENSORS AND MICROFLUIDIC DEVICES 15 2.2.3.3 REMOTELY CONTROLLED ORGANISMS 16 2.3 MAGNETIC LABELING OF MAMMAL (HUMAN) CELLS 18 2.3.1 INTRACELLULAR LABELING OF CELLS 18 2.3.1.1 LABELING WITH ANIONIC MAGNETIC NANOPARTICLES 18 2.3.1.2 LABELING WITH CATIONIC MAGNETIC NANOPARTICLES 19 2.3.2 EXTRACELLULAR LABELING OF CELLS 20 2.3.3 APPLICATIONS OF MAGNETICALLY LABELED CELLS IN BIOMEDICINE 20 2.3.3.1 MRI IMAGING OF MNPS-LABELED CELLS 21 2.3.3.2 MNPS-MEDIATED CELL DELIVERY AND TISSUE ENGINEERING 21 HTTP://D-NB.INFO/1042297460 VII CONTENTS 2.4 CONCLUSION 23 ACKNOWLEDGMENT 23 REFERENCES 23 3 UNTETHERED INSECT INTERFACES 27 AMOL JADHAV, MICHEL M. MAHARBIZ, AND HIROTAKA SATO 3.1 INTRODUCTION 27 3.2 SYSTEMS FOR TETHERLESS INSECT FLIGHT CONTROL 30 3.2.1 VARIOUS APPROACHES TO TETHERLESS FLIGHT CONTROL 30 3.2.2 NEUROSTIMULATION FOR INITIATION OF WING OSCILLATIONS 30 3.2.3 EXTRACELLULAR STIMULATION OF THE MUSCLES TO ELICIT TURNS 32 3.3 IMPLANTABLE BIOELECTRONICS IN INSECTS 33 3.3.1 EXAMPLE: INSERTION OF FLEXIBLE SUBSTRATES INTO THE DEVELOPING EYE 33 3.4 CONCLUSIONS 39 REFERENCES 39 4 MINIATURIZED BIOMEDICAL IMPLANTABLE DEVICES 45 ADA S.Y. POON 4.1 INTRODUCTION 45 4.2 ENERGY HARVESTING AS A PATHWAY TO MINIATURIZATION 47 4.3 IMPLEMENTATION OF IMPLANTABLE DEVICES 48 4.3.1 RF POWER HARVESTING 49 4.3.1.1 MATCHING NETWORK 49 4.3.1.2 RECTIFIER 49 4.3.1.3 REGULATOR AND BANDGAP REFERENCE 50 4.3.1.4 LOW-POWER CONTROLLER AND AUXILIARY CIRCUITS IN THE IMPLANT FUNCTIONAL BLOCK 50 4.3.2 WIRELESS COMMUNICATION LINK 51 4.3.2.1 FORWARD DATA LINK 51 4.3.2.2 REVERSE DATA LINK 54 4.3.3 PAYLOAD AND APPLICATIONS: LOCOMOTIVE IMPLANT AND IMPLANTABLE CARDIAC PROBE 56 4.3.3.1 ACTUATION FOR THERAPEUTICS: MILLIMETER-SIZED WIRELESSLY POWERED AND REMOTELY CONTROLLED LOCOMOTIVE IMPLANT 56 4.3.3.2 LOW-POWER SENSING FOR DIAGNOSTICS: IMPLANTABLE INTRACARDIAC PROBE 59 4.4 CONCLUSION 62 REFERENCES 62 5 CROSS-HIERARCHY DESIGN EXPLORATION FOR IMPLANTABLE ELECTRONICS 65 MRIGANK SHARAD AND KAUSHIK ROY 5.1 INTRODUCTION 65 5.2 SYSTEM OVERVIEW OF A GENERIC BIOELECTRONIC IMPLANT 65 5.3 CIRCUIT DESIGN FOR LOW-POWER SIGNAL PROCESSING 67 5.3.1 DESIGN CHALLENGES FOR LOW-POWER BIOELECTRONIC SENSOR INTERFACE 67 CONTENTS I VII 5.3.2 ANALOG SIGNAL PROCESSING USING SUBTHRESHOLD CIRCUITS 68 5.3.3 ANALOG-TO-DIGITAL CONVERSION 69 5.3.4 LOW-POWER DIGITAL SIGNAL PROCESSING 71 5.3.4.1 V DD SCALING AND PARALLEL PROCESSING 71 5.3.4.2 DYNAMIC VOLTAGE AND FREQUENCY SCALING 72 5.3.4.3 STANDBY MODE POWER REDUCTION 73 5.3.4.4 MINIMUM ENERGY SUBTHRESHOLD OPERATION 73 5.3.5 FINFETS FOR ULTRALOW VOLTAGE SUBTHRESHOLD CIRCUITS 74 5.4 ARCHITECTURE-LEVEL OPTIMIZATIONS FOR LOW-POWER DATA PROCESSING 76 5.4.1 OPTIMAL APPORTIONING OF COMPUTATION TASK TO ANALOG AND DIGITAL BLOCKS 76 5.4.2 APPROXIMATE COMPUTING FOR LOW POWER 78 5.5 DESIGN OF ENERGY-EFFICIENT MEMORY 79 5.5.1 DESIGN CHALLENGES WITH SUBTHRESHOLD SRAM 79 5.5.1.1 ON-CURRENT TO OFF-CURRENT RATIO 79 5.5.1.2 SIZING CONSTRAINTS 79 5.5.1.3 VARIABILITY 80 5.5.2 SPIN TRANSFER TORQUE MRAM (STT-MRAM) FOR ENERGY-EFFICIENT MEMORY DESIGN 80 5.6 WIRELESS COMMUNICATION POWER DELIVERY 81 5.6.1 NEAR-FIELD ELECTROMAGNETIC WIRELESS COMMUNICATION 82 5.6.2 FAR-FIELD ELECTROMAGNETIC WIRELESS COMMUNICATION 82 5.6.3 WIRELESS ENERGY TRANSFER 83 5.7 CONCLUSION 83 REFERENCES 84 6 NEURAL INTERFACES: FROM HUMAN NERVES TO ELECTRONICS 87 JESSICA D. FALCONE, JOAV BITJINIUK, ROBERT KRETSCHMAR, AND RAVI V. BELLAMKONDA 6.1 INTRODUCTION 87 6.2 FUSING ROBOTICS WITH THE HUMAN BODY: INTERFACING WITH THE PERIPHERAL NERVOUS SYSTEM 87 6.2.1 THE ANATOMY OF PERIPHERAL NERVES 88 6.2.1.1 GLIAL CELLS OF THE PERIPHERAL NERVOUS SYSTEM 88 6.2.1.2 FUNCTIONAL AFFERENT AND EFFERENT PATHWAYS 88 6.2.2 INTERFACING WITH THE PERIPHERY FOR RECORDING AND STIMULATION 89 6.2.2.1 NONINVASIVE ELECTRODES 89 6.2.2.2 EXTRANEURAL ELECTRODES 90 6.2.2.3 INTRAFASCICULAR ELECTRODES 91 6.2.2.4 REGENERATION-BASED ELECTRODES 92 6.2.2.5 RESEARCH DESIGNS AND CHALLENGES 92 6.3 LISTENING TO THE BRAIN: INTERFACING WITH THE CENTRAL NERVOUS SYSTEM 93 6.3.1 GLIAL CELLS OF THE CENTRAL NERVOUS SYSTEM 93 6.3.1.1 MICROGLIA - SENTINELS OF THE BRAIN 93 VIIII CONTENTS 6.3.1.2 ASTROCYTES - CELLULAR SUPPORT FOR NEURONS 94 6.3.2 INTERFACING WITH THE BRAIN FOR RECORDINGS 94 6.3.2.1 NONINVASIVE ELECTRODES 94 6.3.2.2 EXTRACORTICAL ELECTRODES 95 6.3.2.3 INVASIVE INTRACORTICAL ELECTRODES 95 6.3.2.4 RESEARCH DESIGNS AND CHALLENGES 97 6.4 ELECTRICAL MODULATION OF THE HUMAN NERVOUS SYSTEM: STIMULATION AND CLINICAL APPLICATIONS 99 6.4.1 DEEP BRAIN STIMULATION 100 6.4.1.1 BIOLOGICAL MECHANISMS 100 6.4.1.2 ELECTRODE DESIGN AND STIMULATION 100 6.4.1.3 RESEARCH DESIGNS AND CHALLENGES 101 6.4.2 ELECTRICAL MODULATION OF NERVE REGENERATION 101 6.4.2.1 BIOLOGICAL MECHANISMS 102 6.4.2.2 ELECTRODE STIMULATION 102 6.4.3 PAIN MODULATION 102 6.4.3.1 BIOLOGICAL MECHANISMS 102 6.4.3.2 CLINICAL OUTCOMES 103 6.4.4 ELECTRICAL MODULATION OF INFLAMMATION 103 6.4.4.1 THE VAGUS NERVE AND STIMULATION 103 6.4.4.2 CHOLINERGIC ANTI-INFLAMMATORY PATHWAY 6.5 FUTURE DIRECTIONS FOR NEURAL INTERFACING REFERENCES 106 7 CYBORGS - THE NEURO-TECH VERSION 115 KEVIN WARWICK 7.1 INTRODUCTION 115 7.2 BIOLOGICAL BRAINS IN A ROBOT BODY 116 7.3 DEEP BRAIN STIMULATION 120 7.4 GENERAL PURPOSE BRAIN IMPLANTS 123 7.5 NONINVASIVE BRAIN-COMPUTER INTERFACES 7.6 SUBDERMAL MAGNETIC IMPLANTS 127 7.7 RFID IMPLANTS 128 7.8 CONCLUSIONS 130 REFERENCES 131 8 INTERACTION WITH IMPLANTED DEVICES THROUGH IMPLANTED USER INTERFACES 133 CHRISTIAN HOLZ, TOVI GROSSMAN, GEORGE FITZMAURICE, AND ANNE AGUR 8.1 IMPLANTED USER INTERFACES 135 8.1.1 DESIGN CONSIDERATIONS 136 8.1.1.1 INPUT THROUGH IMPLANTED INTERFACES 136 8.1.1.2 OUTPUT THROUGH IMPLANTED INTERFACES 136 8.1.1.3 COMMUNICATION AND SYNCHRONIZATION 137 8.1.1.4 POWER SUPPLY THROUGH IMPLANTED INTERFACES 137 104 105 CONTENTS IIX 8.1.2 SUMMARY 137 8.2 EVALUATING BASIC IMPLANTED USER INTERFACES 137 8.2.1 DEVICES 138 8.2.2 EXPERIMENTERS 139 8.2.3 PROCEDURE 139 8.2.4 MEDICAL PROCEDURE 139 8.2.5 STUDY PROCEDURE AND RESULTS 140 8.2.5.1 TOUCH INPUT DEVICE (PRESSURE SENSOR, TAP SENSOR, BUTTON) 140 8.2.5.2 HOVER INPUT DEVICE (CAPACITIVE AND BRIGHTNESS SENSOR) 141 8.2.5.3 OUTPUT DEVICE (RED LED, VIBRATION MOTOR) 142 8.2.5.4 AUDIO DEVICE (SPEAKER AND MICROPHONE) 144 8.2.5.5 POWERING DEVICE (POWERMAT WIRELESS CHARGER) 145 8.2.5.6 WIRELESS COMMUNICATION DEVICE (BLUETOOTH CHIP) 146 8.2.6 DISCUSSION 147 8.2.7 EXPLORING EXPOSED COMPONENTS 147 8.3 QUALITATIVE EVALUATION 148 8.3.1 SIMULATING IMPLANTS: ARTIFICIAL SKIN 148 8.3.2 TASK AND PROCEDURE 149 8.3.3 PARTICIPANTS 150 8.3.4 RESULTS 150 8.4 MEDICAL CONSIDERATIONS 150 8.4.1 LOCATION 150 8.4.2 DEVICE PARAMETERS 151 8.4.3 RISKS 151 8.4.4 IMPLICATIONS AND FUTURE STUDIES 152 8.5 DISCUSSION AND LIMITATIONS 152 8.5.1 STUDY LIMITATIONS 152 8.6 CONCLUSIONS 153 REFERENCES 153 9 ULTRALOW POWER AND ROBUST ON-CHIP DIGITAL SIGNAL PROCESSING FOR CLOSED-LOOP NEURO-PROSTHESIS 155 SWARUP BHUNIA, ABHISHEK BASAK, SEETHARAM NARASIMHAN, AND MARYAM SADAT HASHEMIAN 9.1 INTRODUCTION 155 9.1.1 NEURAL INTERFACES 158 9.1.2 CLOSING THE NEURAL LOOP: SIGNIFICANCE OF ON-CHIP DSP 160 9.2 ALGORITHM: A VOCABULARY-BASED NEURAL SIGNAL 162 9.2.1 ANALYSIS 162 9.2.2 SPIKE-LEVEL VOCABULARY 163 9.2.3 SPIKE DETECTION 164 9.2.4 SPIKE CHARACTERIZATION AND SORTING 166 9.2.5 BURST-LEVEL VOCABULARY 167 9.2.6 MULTICHANNEL VOCABULARY FOR BEHAVIOR-SPECIFIC PATTERNS 167 9.2.7 OUTPUT PACKET GENERATION 169 X I CONTENTS 9.3 HARDWARE IMPLEMENTATION 171 9.3.1 WAVELET MODULE 173 9.3.1.1 VOCABULARY MODULE 177 9.3.2 AREA, POWER REDUCTION METHODOLOGIES 179 9.3.2.1 SUBTHRESHOLD VERSUS SUPER-THRESHOLD OPERATION 181 9.3.3 IMPACT OF PROCESS VARIATIONS ON YIELD 183 9.3.3.1 PREFERENTIAL DESIGN 185 9.3.4 OVERALL DESIGN FLOW 188 9.4 SUMMARY 191 REFERENCES 191 10 IMPLANTABLE CMOS IMAGING DEVICES 195 JUN OHTA 10.1 INTRODUCTION 195 10.2 FUNDAMENTALS OF CMOS IMAGING DEVICES 198 10.2.1 PHOTOSENSORS 198 10.2.2 ACTIVE PIXEL SENSOR 199 10.2.3 LOG SENSOR 201 10.2.4 PULSE WIDTH MODULATION SENSOR 202 10.2.5 SPAD SENSOR 203 10.3 ARTIFICIAL RETINA 203 10.3.1 PRINCIPLE OF ARTIFICIAL RETINA 203 10.3.2 ARTIFICIAL RETINA BASED ON CMOS IMAGING DEVICE 204 10.4 BRAIN-IMPLANTABLE CMOS IMAGING DEVICE 210 10.4.1 MEASUREMENT METHODS FOR BRAIN ACTIVITIES 210 10.4.2 FIBER ENDOSCOPE AND HEAD-MOUNTABLE DEVICE 211 10.4.3 BRAIN-IMPLANTABLE CMOS IMAGING DEVICE 212 10.5 SUMMARY AND FUTURE DIRECTIONS 215 ACKNOWLEDGMENTS 217 REFERENCES 217 11 IMPLANTED WIRELESS BIOTELEMETRY 221 MEHMEL RASIT YUCE AND JEAN-MICHEL REDOUTE 11.1 INTRODUCTION 221 11.2 BIOTELEMETRY 223 11.2.1 INDUCTIVE LINK FOR FORWARD DATA 225 11.2.2 WIRELESS POWER LINK 226 11.2.3 IMPLANTABLE TELEMETRY LINKS 228 11.2.3.1 WIDEBAND TELEMETRY LINK 228 11.2.3.2 MULTICHANNEL NEURAL RECORDING SYSTEMS 228 11.2.3.3 WIRELESS ENDOSCOPE 230 11.3 MICROELECTRODE ARRAYS AND INTERFACE ELECTRONICS 232 11.3.1 STIMULATION FRONT ENDS 233 11.3.2 RECORDING FRONT-ENDS 238 CONTENTS XI 11.3.2.1 INSTRUMENTATION AMPLIFIER 239 11.4 CONCLUSION 242 REFERENCES 242 12 NANO-ENABLED IMPLANTABLE DEVICE FOR IN VIVO GLUCOSE MONITORING 247 ESTEVE JUANOLA-FELIU, JORDI COLOMER-FARRARONS, PERE MIRIBD-CATALA, MANEL GONZDLEZ-PIFIERO, AND JOSEP SAMITIER 12.1 INTRODUCTION 247 12.1.1 NANOTECHNOLOGY 247 12.1.2 NANOMEDICINE 248 12.2 BIOMEDICAL DEVICES FOR IN VIVO ANALYSIS 249 12.2.1 STATE OF THE ART 249 12.2.2 THE INNOVATIVE BIOMEDICAL DEVICE 250 12.2.3 ARCHITECTURE OF THE IMPLANTABLE DEVICE 251 12.2.4 IMPLANTABLE FRONT-END ARCHITECTURE FOR IN VIVO DETECTION BIOSENSOR APPLICATIONS 254 12.2.4.1 ARCHITECTURE OF THE ENVISAGED SUBCUTANEOUS DEVICE 254 12.2.4.2 IMPLEMENTATION AND RESULTS 258 12.2.5 THE DIABETES CARE DEVICES MARKET 260 12.3 CONCLUSIONS AND FINAL RECOMMENDATIONS 261 REFERENCES 262 13 IMPROVING THE BIOCOMPATIBILITY OF IMPLANTABLE BIOELECTRONICS DEVICES 265 GYMAMA SLAUGHTER 13.1 INTRODUCTION 265 13.2 IMPLANTABLE BIOELECTRONIC DEVICE MATERIALS 267 13.3 SURFACE COMPOSITION 269 13.4 RESPONSE TO IMPLANTATION 273 13.5 CONCLUSION 278 REFERENCES 279 14 ABIOTIC (NONENZYMATIC) IMPLANTABLE BIOFUEL CELLS 285 SVEN KERZENMACHER 14.1 INTRODUCTION 285 14.1.1 THE HISTORY OF IMPLANTABLE ABIOTIC FUEL CELLS 285 14.2 BASIC PRINCIPLES 286 14.2.1 ELECTRODE REACTIONS AND THEORETICAL POTENTIALS 287 14.2.2 PRACTICAL FUEL CELL VOLTAGE, POWER DENSITY, AND EFFICIENCY 289 14.2.3 RELIABLE CHARACTERIZATION OF IMPLANTABLE GLUCOSE FUEL CELLS 291 14.3 ABIOTIC CATALYST MATERIALS AND SEPARATOR MEMBRANES 292 14.3.1 ELECTROCATALYSTS FOR GLUCOSE OXIDATION 292 14.3.2 ELECTROCATALYSTS FOR OXYGEN REDUCTION 293 14.3.3 SEPARATOR MEMBRANES 294 XII I CONTENTS 14.4 DESIGN CONSIDERATIONS 295 14.4.1 SITE OF IMPLANTATION 295 14.4.2 STRATEGIES TO COPE WITH THE PRESENCE OF MIXED REACTANTS 297 14.5 STATE-OF-THE-ART AND PRACTICAL EXAMPLES 299 14.5.1 COMPARISON OF FUEL CELL DESIGNS AND THEIR POWER DENSITIES 299 14.5.2 FACTORS AFFECTING LONG-TERM OPERATION 304 14.6 CONCLUSION AND OUTLOOK 307 14.6.1 STATE-OF THE-ART 307 14.6.2 APPLICATIONS 308 14.6.3 CHALLENGES AND FUTURE TRENDS 309 REFERENCES 309 15 DIRECT-ELECTRON-TRANSFER-BASED ENZYMATIC FUEL CELLS IN VITRO, EX VIVO, AND IN VIVO 315 MAGNUS FALK, DMITRY PANKRATOV, ZOLTAN BLUM, AND SERGEY SHLEEV 15.1 INTRODUCTION 315 15.2 OXIDOREDUCTASES FOR DIRECT-ELECTRON-TRANSFER-BASED BIODEVICES 316 15.2.1 ANODIC BIOELEMENTS 317 15.2.2 CATHODIC BIOELEMENTS 321 15.3 DESIGN OF ENZYME-BASED BIODEVICES 323 15.3.1 ELECTRODE MATERIAL 325 15.3.2 ELECTRODE FUNCTION 327 15.4 EXAMPLES OF DIRECT ELECTRON TRANSFER ENZYMATIC FUEL CELLS 329 15.4.1 ENZYMATIC FUEL CELLS OPERATING IN VITRO 329 15.4.2 BIODEVICES OPERATING IN VIVO 334 15.4.3 ENZYMATIC FUEL CELLS OPERATING EX VIVO 336 15.4.4 SUMMARY 339 15.5 OUTLOOK 340 REFERENCES 341 16 ENZYMATIC FUEL CELLS: FROM DESIGN TO IMPLANTATION IN MAMMALS 347 SERGE COSNIER, ALAN LE GOJF, AND MICHAEL HOLZINGER 16.1 INTRODUCTION 347 16.2 DESIGN OF IMPLANTABLE BIOELECTRODES OF GLUCOSE BIOFUEL CELLS 352 16.3 PACKAGING OF IMPLANTED BIOFUEL CELLS 356 16.4 SURGERY 358 16.5 IMPLANTED BIOFUEL CELL PERFORMANCES 359 REFERENCES 361 17 IMPLANTED BIOFUEL CELLS OPERATING IN VIVO 363 EVGENY KATZ 17.1 IMPLANTED BIOFUEL CELLS 363 ACKNOWLEDGMENT 377 REFERENCES 377 CONTENTS J XIII 18 BIOMEDICAL IMPLANTABLE SYSTEMS - HISTORY, DESIGN, AND TRENDS 381 WEN H. KO AND PHILIP X.-L. FENG 18.1 INTRODUCTION 381 18.2 HISTORY: REVIEW OF IMPLANT SYSTEMS 383 18.2.1 HISTORICAL REVIEW OF EARLY IMPLANT SYSTEMS, 1950-1970 384 18.2.1.1 HISTORICAL REVIEW OF EARLY IMPLANT TELEMETRY SYSTEMS, 1950-1970 384 18.2.1.2 HISTORICAL REVIEW OF EARLY IMPLANT STIMULATION SYSTEMS, 1950-1970 391 18.2.1.3 HISTORICAL REVIEW OF EARLY IMPLANT CONTROL SYSTEMS, 1950-1970 391 18.2.2 HISTORICAL REVIEW OF IMPLANT SYSTEMS -1970-1990 394 18.2.3 HISTORICAL REVIEW OF IMPLANT SYSTEMS - 1990-2012 395 18.3 DESIGN OF IMPLANT SYSTEMS 396 18.3.1 BASIC CONSIDERATIONS AND CHARACTERISTICS OF RF MEMS IMPLANTABLE SYSTEMS 397 18.3.1.1 LEGAL CONSIDERATIONS OF THE RADIO FREQUENCY (RF), FIELD STRENGTH, AND POWER LEVELS 397 18.3.1.2 BIOCOMPATIBILITY AND PROTECTION OF THE BIOMEDICAL IMPLANT SYSTEMS 398 18.3.1.3 CHARACTERISTICS OF BIOLOGICAL AND MEDICAL SIGNALS 399 18.3.2 DESIGN CONSIDERATIONS OF IMPLANTABLE SYSTEMS 400 18.3.3 MICROPOWER ELECTRONIC DESIGN APPROACHES AND SAMPLES 401 18.3.4 POWER SUPPLY DESIGN 403 18.3.5 SYSTEM INTEGRATION AND MICRO-PACKAGING 404 18.4 PRESENT CHALLENGES 405 18.5 FUTURE TRENDS 406 ACKNOWLEDGMENTS 407 REFERENCES 407 19 BRAIN-COMPUTER INTERFACES: ETHICAL AND POLICY CONSIDERATIONS 411 ELLEN M. MCGEE 19.1 INTRODUCTION 411 19.2 NEUROETHICS 412 19.3 BRAIN-COMPUTER INTERFACES 412 19.4 NONINVASIVE INTERFACES 413 19.5 PARTIALLY INVASIVE INTERFACES 413 19.6 INVASIVE INTERFACES 413 19.7 DEVELOPMENT OF BRAIN-COMPUTER INTERFACES 414 19.8 THERAPY/ENHANCEMENT 418 19.9 ETHICAL ISSUES 419 19.10 BRAIN CHIPS AND CLONING 420 19.11 REGULATORY PROCEDURES 424 19.12 PRINCIPLES AND STANDARDS FOR ADOPTION 426 REFERENCES 430 XIV \| CONTENTS 20 CONCLUSIONS AND PERSPECTIVES 435 EVGENY KATZ REFERENCES 436 INDEX 437
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genre	(DE-588)4143413-4 Aufsatzsammlung gnd-content
genre_facet	Aufsatzsammlung
id	DE-604.BV041736009
illustrated	Illustrated
indexdate	2024-08-03T01:20:24Z
institution	BVB
isbn	3527335250 9783527335251 9783527673148
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-027182707
oclc_num	878007881
open_access_boolean
owner	DE-29
owner_facet	DE-29
physical	XXII, 449 S. 130 schw.-w. Ill., 20 farb. Ill. 244 mm x 170 mm
publishDate	2014
publishDateSearch	2014
publishDateSort	2014
publisher	Wiley-VCH
record_format	marc
spelling	Implantable bioelectronics Weinheim Wiley-VCH 2014 XXII, 449 S. 130 schw.-w. Ill., 20 farb. Ill. 244 mm x 170 mm txt rdacontent n rdamedia nc rdacarrier Implantiertes medizinisches Gerät (DE-588)4161411-2 gnd rswk-swf Medizinische Elektronik (DE-588)4169214-7 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Implantiertes medizinisches Gerät (DE-588)4161411-2 s Medizinische Elektronik (DE-588)4169214-7 s DE-604 Katz, Evgeny (DE-588)1024192385 edt Erscheint auch als Online-Ausgabe, EPUB 978-3-527-67316-2 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-67315-5 Erscheint auch als Online-Ausgabe, PDF 978-3-527-67317-9 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4462464&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027182707&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Implantable bioelectronics Implantiertes medizinisches Gerät (DE-588)4161411-2 gnd Medizinische Elektronik (DE-588)4169214-7 gnd
subject_GND	(DE-588)4161411-2 (DE-588)4169214-7 (DE-588)4143413-4
title	Implantable bioelectronics
title_auth	Implantable bioelectronics
title_exact_search	Implantable bioelectronics
title_full	Implantable bioelectronics
title_fullStr	Implantable bioelectronics
title_full_unstemmed	Implantable bioelectronics
title_short	Implantable bioelectronics
title_sort	implantable bioelectronics
topic	Implantiertes medizinisches Gerät (DE-588)4161411-2 gnd Medizinische Elektronik (DE-588)4169214-7 gnd
topic_facet	Implantiertes medizinisches Gerät Medizinische Elektronik Aufsatzsammlung
url	http://deposit.dnb.de/cgi-bin/dokserv?id=4462464&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027182707&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT katzevgeny implantablebioelectronics

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