BioMEMS = 生物微机电系统 / [edited by] Gerald A. Urban. — [Reprinted ed.]. — Beijing : Science Press ; Berlin : Springer, 2007. – (73.75/B615(R)) |
Contents
Contents
EARLY BIOMEMS MULTI-SENSOR NEUROPROBES
1. INTRODUCTION
2. EVOLUTION OF MICRO-SENSOR ARRAY DESIGNS FOR MEDICAL RESEARCH
3. OTHER APPLICATIONS--THE FIRST MICRO-FLUIDIC DEVICE
4. CONCLUSION
5. REFERENCES
MULTI-PARAMETER BIOMEMS FOR CLINICAL MONITORING
1.INTRODUCTION
2.BIOSENSORS
3.CLINICAL MONITORING
4.CONCLUSIONS AND OUTLOOK
5.REFERENCES
NEURAL IMPLANTS IN CLINICAL PRACTICE
Interfacing neurons for neuro-modulation, limb control, and to restore vision-Part I
1.INTRODUCTION TO NEURAL IMPLANTS
2.ANATOMICAL AND BIOPHYSICAL FUNDAMENTALS
3.CLINICAL IMPLANTS
4.REFERENCES
BIOMEDICAL MICRODEVICES FOR NEURAL IMPLANTS
Interfacing neurons for neuromodulation, limb control, and to restore vision-Part II
1. THE CHALLENGE OF MICRO-IMPLANTS
2. VISION PROSTHESES
3. PERIPHERERAL NERVE INTERFACES
4. FUTURE APPLICATIONS
5. CONCLUDING REMARKS
6. NEURAL IMPLANTS: BOON OR BANE?
7. REFERENCES
MICRO-FLUIDIC PLATFORMS
1. INTRODUCTION
2. WHAT IS A MICRO-FLUIDIC PLATFORM
3. EXAMPLES OF MICRO-FLUIDIC PLATFORMS
4. CONCLUSION
5. REFERENCES
DNA BASED BIO-MICRO-ELECTRONIC MECHANICAL SYSTEMS
1.INTRODUCTION
2.MICROARRAYS AND BIOCHIPS BASED ON DNA
3.NANO- BIOTECHNOLOGY: DNA AS MATERIAL
4. REFERENCES
SEPARATION AND DETECTION ON A CHIP
1. INTRODUCTION
2. THEORY OF CAPILLARY ELECTROPHORESIS ON A CE CHIP
3. JOULE HEATING 1N MICROFABRICATED DEVICES
4. BUILDING BLOCKS OF CE CHIP DEVICES
5. SELECTED EXAMPLES FOR CE ON A CHIP
6. DIELECTROPHORESIS
7. OUTLOOK
8. REFERENCES
PROTEIN MICROARRAYS: TECHNOLOGIES AND APPLICATIONS
1. INTRODUCTION
2. FORWARD PHASE PROTEIN MICROARRAYS
3. REVERSE MICROARRAYS
4. OUTLOOK
5. REFERENCES
LAB-ON-A-CHIP SYSTEMS FOR CELLULAR ASSAYS
1. INTRODUCTION
2. DESIGN AND FABRICATION OF CHIPS FOR CELL BASED ASSAYS
3. CELL CULTURE ON CHIPS AND MICRO-FLUIDIC SYSTEMS
4. DETECTABLE CELLULAR OUTPUT SIGNALS
5. CELL MANIPULATION ON CHIPS
6. CONCLUSIONS AND FUTURE PROSPECTS
7. REFERENCES
NETWORK ON CHIPS
Spatial and temporal activity dynamics of functional networks in brain slices and cardiac tissue
1. INTRODUCTION
2. TECHNICAL ASPECTS AND UNDERLYING ASSUMPTIONS
3. ORIGIN OF THE SIGNAL RECORDED
4. SPATIAL RESOLUTION
5. LFP AND PLASTICITY
6. NETWORK DYNAMICS AND EPILEPTIFORM ACTIVITY
7. DRUG TESTING WITH MEAS
8. DATA ANALYSIS
9. OUTLOOK
10. ACKNOWLEDGEMENTS
11. REFERENCES
BIO-NANO-SYSTEMS
Overview and Outlook
1.INTRODUCTION
2.BASIC CONCEPTS AND EXPERIMENTAL METHODS
3.APPLICATIONS
4.CONCLUSION AND OUTLOOK
5.ACKNOWLEDGEMENTS
6.REFERENCES