Skip to main content
Elsevier

Bioelectronics and Medical Devices

From Materials to Devices - Fabrication, Applications and Reliability

  • 1st Edition - June 15, 2019
  • Latest edition
  • Editors: Kunal Pal, Heinz-Bernhard Kraatz, Anwesha Khasnobish, Sandip Bag, Indranil Banerjee, Usha Kuruganti
  • Language: English

Bioelectronics and Medical Devices: From Materials to Devices-Fabrication, Applications and Reliability reviews the latest research on electronic devices used in the healthcar… Read more

Data Mining & ML

Unlock the cutting edge

Up to 20% on trusted resources. Build expertise with data mining, ML methods.

Explore now

Description

Bioelectronics and Medical Devices: From Materials to Devices-Fabrication, Applications and Reliability reviews the latest research on electronic devices used in the healthcare sector, from materials, to applications, including biosensors, rehabilitation devices, drug delivery devices, and devices based on wireless technology. This information is presented from the unique interdisciplinary perspective of the editors and contributors, all with materials science, biomedical engineering, physics, and chemistry backgrounds. Each applicable chapter includes a discussion of these devices, from materials and fabrication, to reliability and technology applications. Case studies, future research directions and recommendations for additional readings are also included.

The book addresses hot topics, such as the latest, state-of the-art biosensing devices that have the ability for early detection of life-threatening diseases, such as tuberculosis, HIV and cancer. It covers rehabilitation devices and advancements, such as the devices that could be utilized by advanced-stage ALS patients to improve their interactions with the environment. In addition, electronic controlled delivery systems are reviewed, including those that are based on artificial intelligences.

Key features

  • Presents the latest topics, including MEMS-based fabrication of biomedical sensors, Internet of Things, certification of medical and drug delivery devices, and electrical safety considerations
  • Presents the interdisciplinary perspective of materials scientists, biomedical engineers, physicists and chemists on biomedical electronic devices
  • Features systematic coverage in each chapter, including recent advancements in the field, case studies, future research directions, and recommendations for additional readings

Readership

Materials Scientists and Engineers, biomedical engineers, chemists, physicists, product designers

Table of contents

1. Light-fidelity based biosignal transmissionPratyush K. Patnaik, Suraj K. Nayak, Ashirbad Pradhan, Amrutha V, Champak Bhattacharya, Sirsendu S. Ray and Kunal Pal2. Development of a low-cost color sensor for biomedical applicationsPratyush K. Patnaik, Paresh Mahapatra, Dibyajyoti Biswal, Suraj K. Nayak, Sachin Kumar, Biswajeet Champaty and Kunal Pal3. Development of a voice-controlled home automation system for the differently-abledKaran Pande, Ashirbad Pradhan, Suraj Kumar Nayak, Pratyush Kumar Patnaik, Biswajeet Champaty, Arfat Anis and Kunal Pal4. Lab-on-a-chip sensing devices for biomedical applicationsPavel Sengupta, Kalap Khanra, Amit Roy Chowdhury and Pallab Datta5. Impedance-based biosensorsAvishek Chakraborty, Dewaki Nandan Tibarewala and Ananya Barui6. Acoustophoresis-based biomedical device applicationsSharda Gupta and Arindam Bit7. Electroencephalography and near-infrared spectroscopy-based hybrid biomarker for brain imagingRaghavendra Prasad, N.P. Guhan Seshadri, R. Periyasamy, Stephanie Miller, Arindam Bit and Kunal Mitra8. Micro-electro-mechanical system Ankur Gupta and Pramod Pal9. Enzyme-based biosensorsJaspreet Kaur, Sandeep Choudhary, Rashmi Chaudhari, Rahul D. Jayant and Abhijeet Joshi10. Ultrasound-based drug delivery systemsBhavana Joshi and Abhijeet Joshi11. Electroencephalogram-controlled assistive devicesAbdulhamit Subasi12. Electromyogram-controlled assistive devicesAbdulhamit Subasi13. Electrical safetyMana Sezdi14. Biomedical metrologyMana Sezdi15. Bone-implantable devices for drug delivery applicationsPriyanka Ray, Md Saquib Hasnain, Abir Koley and Amit Kumar Nayak16. Iontophoretic drug delivery systemsAmit Kumar Nayak, Sanjay Dey, Kunal Pal and Indranil Banerjee17. Microneedle platform for biomedical applicationsSabahat Shaikh, Nishtha Bhan, Fiona C. Rodrigues, Eshwari Dathathri, Shounak De and Goutam Thakur18. Trends in point-of-care microscopyPallavi Bohidar, Soumya Gupta and Indranil Banerjee19. Development of spectroscopy-based medical devices for disease diagnosis in low resource point-of-care settingAnimesh Halder, Soumendra Singh, Aniruddha Adhikari, Probir Kumar Sarkar and Samir Kumar Pal20. Dielectrophoresis-based devices for cell patterningTarun Agarwal and Tapas Kumar Maiti21. Multichannel surface electromyographyUsha Kuruganti22. Sensors for monitoring workplace health Usha Kuruganti23. Advances in enzyme-based electrochemical sensors: current trends, benefits, and constraintsGeorge Luka, Syed Ahmad, Natashya Falcone and Heinz-Bernhard Kraatz24. Electrocardiogram signal processing-based diagnostics: applications of wavelet transformSuraj K. Nayak, Indranil Banerjee and Kunal Pal25. Sensor fusion and control techniques for biorehabilitationDinesh Bhatia and Sudip Paul26. Biofunctional interfaces for cell culture in microfluidic devicesAmid Shakeri, Sara Rahmani, Sara M. Imani, Matthew Osborne, Hanie Yousefi and Tohid F. Didar27. Microsystems technology for high-throughput single-cell sortingLindsay Piraino, Tricia Conti, Azmeer Sharipol, Danielle S.W. Benoit and Lisa A. DeLouise28. Microfluidic devices for DNA amplificationAli Shahid, Shayan Liaghat and P. Ravi Selvaganapathy29. Optimizing glucose sensing for diabetes monitoringRobert J. Forster and Loanda R. Cumba30. Brain control to neurofeedback in rehabilitationSaugat Bhattacharyya and Mitsuhiro Hayashibe31. Motor imagery classification enhancement with concurrent implementation of spatial filtration and modified stockwell transformRohit Bose, Kaniska Samanta, Soumya Chatterjee, Saugat Bhattacharyya and Anwesha Khasnobish32. A hybrid wireless electroencephalography network based on the IEEE 802.11 and IEEE 802.15.4 standardsRabia Bilal and Bilal Muhammad Khan33. Deep learning in medical and surgical instrumentsSrivarna Settisara Janney and Sumit Chakravarty34. Electroencephalogram-based brain systems for controlling rehabilitative devicesKishore K. Tarafdar, Bikash K. Pradhan, Suraj K. Nayak, Anwesha Khasnobish, Saugat Bhattacharyya and Kunal Pal35. A system for automatic cardiac arrhythmia recognition using electrocardiogram signalAllam Jaya Prakash and Samit Ari36. Designing of a biopotential amplifier for the acquisition and processing of subvocal electromyography signalsReddy Vamsi, Suraj K. Nayak, Anilesh Dey, Arindam Bit, Biswajit Mohapatra, Haladhar Behera and Kunal Pal

Product details

  • Edition: 1
  • Latest edition
  • Published: June 15, 2019
  • Language: English

About the editors

KP

Kunal Pal

Dr. Kunal Pal is a Professor in the Department of Biotechnology and Medical Engineering, National Institute of Technology Rourkela, India. His major research interests revolve around biomedical signal processing, biomedical equipment design, soft materials, and controlled drug delivery. He has published more than 100 publications in SCI-cited journals of high repute.
Affiliations and expertise
Professor, Department of Biotechnology and Medical Engineering, National Institute of Technology Rourkela, Odisha, India

HK

Heinz-Bernhard Kraatz

Dr. Kraatz studied chemistry at the Universities of Düsseldorf and the University of Kent in Canterbury and obtained his PhD in 1993 at the University of Calgary. In 2011, accepting a position at the University of Toronto, where he is a full professor in chemistry and currently serves as Vice-Principal Research at the University of Toronto Scarborough. He has served as Director of the Nanofabrication Facility at Western and as Chair of the Department of Physical and Environmental Sciences at U of T. Awards and recognitions include the Canada Research Chair in Biomaterials, the PetroCanada Young Innovator Award, the Award in Pure or Applied Inorganic Chemistry from the Canadian Society for Chemistry, and the Principal’s Research Award. Bernie’s research interests are at the interface of inorganic chemistry and electrochemistry, focusing on the design of bioconjugates for sensing applications, surface-supported functional bioconjugates, and bio(nano)materials. He has published more than 250 peer-reviewed papers and two books.
Affiliations and expertise
Department of Physical and Environmental Sciences, University of Toronto Scarborough, Toronto, ON, Canada; Department of Chemistry, University of Toronto, Toronto, ON, Canada; Department of Chemical Engineering and Applied Chemistry, University of Toronto, Toronto, ON, Canada

AK

Anwesha Khasnobish

Dr. Khasnobish is currently employed as a Research Scientist at TATA Consultancy Services (TCS) Innovation Lab, Kolkata, India, where she is actively doing research in cognitive neuroscience, tele-rehabilitation, stress analysis from physiological signals, electrooculography and eye tracking. She completed her graduation and post-graduation in Biomedical Engineering. She completed her Ph. D. in Engineering in the field of “Human- Computer interface based devices for biomedical applications” from Jadavpur University, Kolkata, India in the year 2015. She received fellowship from the Council of Scientific & Industrial Research, Government of India for completing her Ph.D. dissertation work. Her past research experience revolved around biopotential signal (e.g. EEG, HRV, EMG and EOG) acquisition and processing, brain and human computer interactions, circuit design and development, signal and image processing, haptics, somatosensory perceptions, computational intelligence and soft computing techniques. She has >40 research papers to her credit with a total citation of >140.
Affiliations and expertise
Research and Innovation, TCS, Kolkata, India

SB

Sandip Bag

Dr. Bag is presently an Assistant Professor and Head of the Department of the Department of Biomedical Engineering, JIS College of Engineering, Kalyani, West Bengal since 2005. Dr. Bag obtained his Ph.D. degree in Biomedical Engineering from Jadavpur University, Kolkata in the year 2007. He did his graduation in Pharmaceutical Technology and post- graduation in Biomedical Engineering from Jadavpur University during the year 2000 and 2002, respectively. He has published more than 24 research papers in various national and international journals and proceedings of conferences. He also presented his research accomplishments across the globe. He received various grants from Indian government funding agencies for carrying out research and travel for attending conferences. He is a reviewer and editorial board members of various international journals of repute. He was actively involved in organizing various national/ international conferences.
Affiliations and expertise
Department of Biomedical Engineering, JIS College of Engineering, Kalyani, West Bengal

IB

Indranil Banerjee

Prof. Indranil Banerjee did his Ph. D. in Biotechnology (Tissue Engineering) from Indian Institute of Technology Kharagpur, India in the year 2011. Presently, is holding the position of an Assistant Professor in the Department of Biotechnology and Medical Engineering at National Institute of Technology- Rourkela. He is the Professor-in-Charge of the Bioprocess Laboratory and Biomicrofludics Laboratory. His group is actively involved in understanding the cell physiology in response to biomaterials developed on a length scale (nano to macro). He was a visiting scientist in Maxplanck Institute of Intelligent System, Germany. Dr. Banerjee has authored 35 SCI cited publications in various journals of repute with a total citation of more than 450. He is also serving as industrial consultant.
Affiliations and expertise
Assistant Professor, Department of Bioscience and Bioengineering, Indian Institute of Technology Jodhpur, Rajasthan, India

UK

Usha Kuruganti

Dr. Kuruganti received the B.Sc. and M.Sc. degrees in electrical engineering and a Ph.D. degree in human factors engineering from the University of New Brunswick (UNB), Fredericton, NB, Canada. She joined UNB in 2004 and is currently a Professor in the Faculty of Kinesiology at UNB and Co-Director of the Andrew and Marjorie McCain Human Performance Laboratory within the Richard J. CURRIE Centre at UNB. Dr. Kuruganti has also served as the Assistant Dean (Graduate Studies and Research) of the Faculty of Kinesiology since September 2013. Dr. Kuruganti is a Registered Professional Engineer with the Association of Professional Engineers and Geoscientists (APEGNB), a Fellow of Engineers Canada, a member of the International Society of Electrophysiology and Kinesiology, and the Association of Canadian Ergonomists. Her research interests include human movement analysis, neuromuscular and occupational physiology, electromyography and human factors.
Affiliations and expertise
University of New Brunswick (UNB), Fredericton, NB, Canada

View book on ScienceDirect

Read Bioelectronics and Medical Devices on ScienceDirect