Interfacing Bioelectronics and Biomedical Sensing

1. Front Matter

   Pages i-viii

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2. Challenges in the Design of Large-Scale, High-Density, Wireless Stimulation and Recording Interface

   • Po-Min Wang, Stanislav Culaclii, Kyung Jin Seo, Yushan Wang, Hui Fang, Yi-Kai Lo et al.

   Pages 1-28

3. Advances in Bioresorbable Electronics and Uses in Biomedical Sensing

   • Michelle Kuzma, Ethan Gerhard, Dingying Shan, Jian Yang

   Pages 29-72

4. Inorganic Dissolvable Bioelectronics

   • Huanyu Cheng

   Pages 73-100

5. Wirelessly Powered Medical Implants via Radio Frequency

   • Parinaz Abiri, Alireza Yousefi, Hung Cao, Jung-Chih Chiao, Tzung K. Hsiai

   Pages 101-116

6. Electrocardiogram: Acquisition and Analysis for Biological Investigations and Health Monitoring

   • Tai Le, Isaac Clark, Joseph Fortunato, Manuja Sharma, Xiaolei Xu, Tzung K. Hsiai et al.

   Pages 117-142

7. Flexible Intravascular EIS Sensors for Detecting Metabolically Active Plaque

   • Yuan Luo, Rene Packard, Parinaz Abiri, Y. C. Tai, Tzung K. Hsiai

   Pages 143-162

8. Epidermal EIT Electrode Arrays for Cardiopulmonary Application and Fatty Liver Infiltration

   • Yuan Luo, Parinaz Abiri, Chih-Chiang Chang, Y. C. Tai, Tzung K. Hsiai

   Pages 163-184

9. High-Frequency Ultrasonic Transducers to Uncover Cardiac Dynamics

   • Bong Jin Kang, Qifa Zhou, K. Kirk Shung

   Pages 185-192

10. Minimally Invasive Technologies for Biosensing

    • Shiming Zhang, KangJu Lee, Marcus Goudie, Han-Jun Kim, Wujin Sun, Junmin Lee et al.

    Pages 193-223

11. Back Matter

    Pages 225-234

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This book addresses the fundamental challenges underlying bioelectronics and tissue interface for clinical investigation. Appropriate for biomedical engineers and researchers, the authors cover topics ranging from retinal implants to restore vision, implantable circuits for neural implants, and intravascular electrochemical impedance to detect unstable plaques. In addition to these chapters, the authors also document the approaches and issues of multi-scale physiological assessment and monitoring in both humans and animal models for health monitoring and biological investigations; novel biomaterials such as conductive and biodegradable polymers to be used in biomedical devices; and the optimization of wireless power transfer via inductive coupling for batteryless and wireless implantable medical devices. In addition to engineers and researchers, this book is also an ideal supplementary or reference book for a number of courses in biomedical engineering programs, such as bioinstrumentation, MEMS/BioMEMS, bioelectronics and sensors, and more.

• Analyzes and discusses the electrode-tissue interfaces for optimization of biomedical devices.
  
• Introduces novel biomaterials to be used in next-generation biomedical devices.
• Discusses high-frequency transducers for biomedical applications.
  

• Flexible electronics
• Tissue interface
• Inductive power transfer
• Cardiac physiological monitoring
• Conductive biomaterials
• High-frequency ultrasonic transducers
• Neural implants
• Cardiac implants
• Gastrointestinal monitoring
• BioMEMS
• Biomaterials
• bioelectronics microdevices

• Electrical Engineering and Computer Science, University of California, Irvine, Irvine, USA

  Hung Cao

• Department of Bioengineering, University of California, San Diego, La Jolla, USA

  Todd Coleman

• Department of Bioengineering, University of California Los Angeles, Los Angeles, USA

  Tzung K. Hsiai

• California NanoSystems Institute, University of California Los Angeles, Los Angeles, USA

  Ali Khademhosseini

Hung Cao is Assistant Professor of Electrical Engineering and Biomedical Engineering, University of California, Irvine.


Todd Coleman is Professor of Biomedical Engineering at the University of California, San Diego.


Ali Khademhosseini is a Professor of Bioengineering and Radiology at the University of California, Los Angeles.



Tzung Hsiai is Professor of Medicine (Cardiology) and Bioengineering at the University of California, Los Angeles.

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