Miniaturized Biosensing Devices : Fabrication and Applications / [E-Book]

Chapter 1: Sensor-assisted Next-generation Diagnostics: Emerging Concepts, Biomarkers, Technologies, and Challenges -- Chapter 2: Carbon electrodes as emerging platforms for miniaturization of electrochemical biosensors -- Chapter 3: Ion track-based nanofluidic biosensors -- Chapter 4: Clinical Biosensors: Considerations and Development Process -- Chapter 5: Development and Implementation of Portable Biosensors in Microfluidic Point-of-Care Devices for Pathogen Detection -- Chapter 6: Recent trends in clinical diagnosis for viral disease detection based on miniaturized biosensors -- Chapter 7: Continuous glucose monitoring for diabetes management based on miniaturized biosensors -- Chapter 8: Transforming Healthcare Technologies With Wearable, Implantable, And Ingestible Biosensors and Digital Health -- Chapter 9: Multiplexed biosensors for efficient diagnosis of the clinical conditions towards health management -- Chapter 10: Biocompatible sensors are revolutionizing healthcare technologies -- Chapter 11: Onsite quality controls for food safety based on miniaturized biosensing -- Chapter 12: Gold nanoparticle-based colorimetric sensing of metal toxins -- Chapter 13: Miniaturized sensing strategies for next-generation nitrogen monitoring -- Chapter 14: Recent Trends Towards the Development of Biosensors for Biosafety and Biohazards -- Chapter 15: Commercial aspects and market pull of biosensors in diagnostic industries.

This book presents tools and techniques for the development of miniature biosensors and their applications. The initial chapters discuss the advancements in the development of the transduction techniques, including optical, electrochemical, and piezoelectric, which are used for miniaturized biosensors. The book also reviews several technologies, such as nanotechnology, nanobiotechnology, immune-technology, DNA-technology, micro-manufacturing technology, electronic-circuit technology to increase the miniaturization and sensitivity of the biosensor platform. Subsequently, the chapters illustrate the applications of miniaturized biosensing systems in point-of-care monitoring of treatment and disease progression, environmental monitoring, food control, drug discovery, forensics, and biomedical research. Towards the end, the book discusses the advanced applications of biosensors in water quality monitoring, especially on-line detection systems and on-site detection of pesticides, heavy metals and bacteria in water. This book is an invaluable source for scientists working in biochemical engineering, bioengineering, and biomedical engineering in academia and industry.