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Implantable Sensors and Systems

Author: Guang-Zhong Yang

Publisher: Springer

Published: 2018-03-27

Total Pages: 646

ISBN-13: 331969748X

Implantable sensing, whether used for transient or long-term monitoring of in vivo physiological, bio-electrical, bio-chemical and metabolic changes, is a rapidly advancing field of research and development. Underpinned by increasingly small, smart and energy efficient designs, they become an integral part of surgical prostheses or implants for both acute and chronic conditions, supporting optimised, context aware sensing, feedback, or stimulation with due consideration of system level impact. From sensor design, fabrication, on-node processing with application specific integrated circuits, to power optimisation, wireless data paths and security, this book provides a detailed explanation of both the theories and practical considerations of developing novel implantable sensors. Other topics covered by the book include sensor embodiment and flexible electronics, implantable optical sensors and power harvesting. Implantable Sensors and Systems – from Theory to Practice is an important reference for those working in the field of medical devices. The structure of the book is carefully prepared so that it can also be used as an introductory reference for those about to enter into this exciting research and developing field.

Implantable Sensor Systems for Medical Applications

Author: Andreas Inmann

Publisher: Elsevier

Published: 2013-01-02

Total Pages: 535

ISBN-13: 0857096281

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Implantable sensor systems offer great potential for enhanced medical care and improved quality of life, consequently leading to major investment in this exciting field. Implantable sensor systems for medical applications provides a wide-ranging overview of the core technologies, key challenges and main issues related to the development and use of these devices in a diverse range of medical applications.Part one reviews the fundamentals of implantable systems, including materials and material-tissue interfaces, packaging and coatings, microassembly, electrode array design and fabrication, and the use of biofuel cells as sustainable power sources. Part two goes on to consider the challenges associated with implantable systems. Biocompatibility, sterilization considerations and the development of active implantable medical devices in a regulated environment are discussed, along with issues regarding data protection and patient privacy in medical sensor networks. Applications of implantable systems are then discussed in part three, beginning with Microelectromechanical systems (MEMS) for in-vivo applications before further exploration of tripolar interfaces for neural recording, sensors for motor neuroprostheses, implantable wireless body area networks and retina implants.With its distinguished editors and international team of expert contributors, Implantable sensor systems for medical applications is a comprehensive guide for all those involved in the design, development and application of these life-changing technologies. Provides a wide-ranging overview of the core technologies, key challenges and main issues related to the development and use of implantable sensor systems in a range of medical applications Reviews the fundamentals of implantable systems, including materials and material-tissue interfaces, packaging and coatings, and microassembly Considers the challenges associated with implantable systems, including biocompatibility and sterilization

Wearable and Implantable Medical Devices

Author: Nilanjan Dey

Publisher: Academic Press

Published: 2019-09-06

Total Pages: 280

ISBN-13: 0128156376

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Wearable and Implantable Medical Devices: Applications and Challenges, Fourth Edition highlights the new aspects of wearable and implanted sensors technology in the healthcare sector and monitoring systems. The book's contributions include several interdisciplinary domains, such as wearable sensors, implanted sensors devices, Internet-of-Things (IoT), security, real-time medical healthcare monitoring, WIBSN design and data management, encryption, and decision-support systems. Contributions emphasize several topics, including real-world applications and the design and implementation of wearable devices. This book demonstrates that this new field has a brilliant future in applied healthcare research and in healthcare monitoring systems. Includes comprehensive information on wearable and implanted device technology, wearable and implanted sensors design, WIBSN requirements, WIBSN in monitoring systems and security concepts Highlights machine learning and computing in healthcare monitoring systems based on WIBSN Includes a multidisciplinary approach to different healthcare applications and their associated challenges based on wearable and implanted technologies

Intelligent Pervasive Computing Systems for Smarter Healthcare

Author: Arun Kumar Sangaiah

Publisher: John Wiley & Sons

Published: 2019-06-21

Total Pages: 426

ISBN-13: 1119439019

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A guide to intelligent decision and pervasive computing paradigms for healthcare analytics systems with a focus on the use of bio-sensors Intelligent Pervasive Computing Systems for Smarter Healthcare describes the innovations in healthcare made possible by computing through bio-sensors. The pervasive computing paradigm offers tremendous advantages in diversified areas of healthcare research and technology. The authors—noted experts in the field—provide the state-of-the-art intelligence paradigm that enables optimization of medical assessment for a healthy, authentic, safer, and more productive environment. Today’s computers are integrated through bio-sensors and generate a huge amount of information that can enhance our ability to process enormous bio-informatics data that can be transformed into meaningful medical knowledge and help with diagnosis, monitoring and tracking health issues, clinical decision making, early detection of infectious disease prevention, and rapid analysis of health hazards. The text examines a wealth of topics such as the design and development of pervasive healthcare technologies, data modeling and information management, wearable biosensors and their systems, and more. This important resource: Explores the recent trends and developments in computing through bio-sensors and its technological applications Contains a review of biosensors and sensor systems and networks for mobile health monitoring Offers an opportunity for readers to examine the concepts and future outlook of intelligence on healthcare systems incorporating biosensor applications Includes information on privacy and security issues on wireless body area network for remote healthcare monitoring Written for scientists and application developers and professionals in related fields, Intelligent Pervasive Computing Systems for Smarter Healthcare is a guide to the most recent developments in intelligent computer systems that are applicable to the healthcare industry.

Implantable Sensors for Closed-loop Prosthetic Systems

Author: Wen H. Ko

Publisher: Wiley-Blackwell

Published: 1985

Total Pages: 328

ISBN-13:

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Security and Privacy for Implantable Medical Devices

Author: Wayne Burleson

Publisher: Springer Science & Business Media

Published: 2013-12-03

Total Pages: 204

ISBN-13: 1461416744

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This book presents a systematic approach to analyzing the challenging engineering problems posed by the need for security and privacy in implantable medical devices (IMD). It describes in detail new issues termed as lightweight security, due to the associated constraints on metrics such as available power, energy, computing ability, area, execution time, and memory requirements. Coverage includes vulnerabilities and defense across multiple levels, with basic abstractions of cryptographic services and primitives such as public key cryptography, block ciphers and digital signatures. Experts from Computer Security and Cryptography present new research which shows vulnerabilities in existing IMDs and proposes solutions. Experts from Privacy Technology and Policy will discuss the societal, legal and ethical challenges surrounding IMD security as well as technological solutions that build on the latest in Computer Science privacy research, as well as lightweight solutions appropriate for implementation in IMDs.

Ultrasonic Wireless Links for Next-generation Miniaturized Implantable Sensors

Author: Marcus Joseph Weber

Publisher:

Published: 2018

Total Pages:

ISBN-13:

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Today's implantable medical devices rely on bulky batteries for energy supply, requiring invasive implant procedures, which limits their use to only last-resort therapies. New applications of implantable devices are being proposed, such as: peripheral nerve stimulation for treating chronic pain and inflammatory disease, optogenetic stimulation for mapping of neural pathways, and even sensing applications of neural potential, pressure, and temperature monitoring. To realize these new applications, and to achieve widespread use of implantable device therapy, a new energy paradigm must be designed to replace the batteries and allow for extreme implant miniaturization for minimally invasive implant procedures. Extreme implant miniaturization is especially critical for developing sensors for continuous monitoring, due to a higher threshold for implantation. Towards this goal, we propose ultrasound for efficient power transfer to deeply implanted and miniaturized implantable devices, and demonstrate ultrasonic link utility with design of an implantable pressure sensor and optogenetic stimulator. A comprehensive analysis and methodology is presented for designing ultrasonic receivers for efficient powering of miniaturized implantable medical devices. Key ultrasonic receiver efficiencies, resonance characteristics, and the inductive band are defined, and a theoretical model is presented for first-order design insights. Methods are described to accurately characterize the ultrasonic receiver impedance and acoustic-to-electrical aperture efficiency. Ultrasonic receivers are shown to achieve favorable source resistances from kOhm to 100's of kOhm, for matching to typical implant loads, and high aperture efficiencies of 40-90%. An iterative design methodology, using the theoretical model and impedance measurements is demonstrated for an example ultrasonic receiver design. An ultrasonically powered, millimeter-sized implantable device is proposed for future optogenetic peripheral nerve stimulation in large animal models. Through system level analysis, the effective impedance match between the ultrasonic receiver and implant electronics is shown as the dominant component of the power recovery efficiency. We present a numerically solved time-domain impedance match analysis of the non-linear power electronics to derive the optimal ultrasonic receiver impedance, and the design of the ultrasonic receiver is shown to meet this specification. The implantable stimulator is characterized through both electrical and optical measurements, demonstrating high peak optical intensities of 1-15 mW/mm2 with safe levels of ultrasonic power. Finally, a high-precision implantable pressure sensor with ultrasonic power-up and data uplink is presented for applications in continuous pressure monitoring. The fully integrated implant measures 1.7 mm x 2.3 mm x 7.8 mm and includes a custom IC, a pressure transducer, an energy storage capacitor, and an ultrasonic transducer. In order to reduce overall dimensions, unique circuit and system design techniques are presented to enable a single time-multiplexed ultrasonic transducer for both power recovery and data uplink transmission. Implant performance is characterized at significant depths, 12 cm in a tissue phantom, offering a > 13x improvement over the state of the art in the depth/volume figure of merit, while demonstrating a robust ultrasonic data uplink with better than 1e-5 bit error rate. A transient charging analysis is presented to derive the optimal ultrasonic receiver impedance and charging specifications to maximize overall harvesting efficiency. The IC features a front-end with a 10-bit SAR ADC, achieving a pressure full-scale range of 800 mmHg with a pressure resolution of 0.78 mmHg, exceeding the requirements for a wide range of pressure sensing applications, while accounting for various nonidealities. The pressure sampling rate is fully externally controlled, up to 1 ksps, in order to significantly decrease implant energy consumption and to allow for adaptable programming for specific applications. The implantable sensor is packaged in biocompatible materials and wirelessly characterized in a custom-built pressure chamber, and in situ, using sheep tissue.

Antenna and Sensor Technologies in Modern Medical Applications

Author: Yahya Rahmat-Samii

Publisher: John Wiley & Sons

Published: 2021-03-16

Total Pages: 624

ISBN-13: 1119683300

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A guide to the theory and recent development in the medical use of antenna technology Antenna and Sensor Technologies in Modern Medical Applications offers a comprehensive review of the theoretical background, design, and the latest developments in the application of antenna technology. Written by two experts in the field, the book presents the most recent research in the burgeoning field of wireless medical telemetry and sensing that covers both wearable and implantable antenna and sensor technologies. The authors review the integrated devices that include various types of sensors wired within a wearable garment that can be paired with external devices. The text covers important developments in sensor-integrated clothing that are synonymous with athletic apparel with built-in electronics. Information on implantable devices is also covered. The book explores technologies that utilize both inductive coupling and far field propagation. These include minimally invasive microwave ablation antennas, wireless targeted drug delivery, and much more. This important book: Covers recent developments in wireless medical telemetry Reviews the theory and design of in vitro/in vivo testing Explores emerging technologies in 2D and 3D printing of antenna/sensor fabrication Includes a chapter with an annotated list of the most comprehensive and important references in the field Written for students of engineering and antenna and sensor engineers, Antenna and Sensor Technologies in Modern Medical Applications is an essential guide to understanding human body interaction with antennas and sensors.

Implantable Electronic Medical Devices

Author: Dennis Fitzpatrick

Publisher: Elsevier

Published: 2014-11-05

Total Pages: 194

ISBN-13: 012416577X

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Implantable Electronic Medical Devices provides a thorough review of the application of implantable devices, illustrating the techniques currently being used together with overviews of the latest commercially available medical devices. This book provides an overview of the design of medical devices and is a reference on existing medical devices. The book groups devices with similar functionality into distinct chapters, looking at the latest design ideas and techniques in each area, including retinal implants, glucose biosensors, cochlear implants, pacemakers, electrical stimulation therapy devices, and much more. Implantable Electronic Medical Devices equips the reader with essential background knowledge on the application of existing medical devices as well as providing an introduction to the latest techniques being used. A catalogue of existing implantable electronic medical devices Up-to-date information on the design of implantable electronic medical devices Background information and reviews on the application and design of up-to-date implantable electronic medical devices

Medical and Biological Microwave Sensors and Systems

Author: Isar Mostafanezhad

Publisher: Cambridge University Press

Published: 2017-12-07

Total Pages: 288

ISBN-13: 1316982602

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In this comprehensive work, experts in the field detail recent advances in medical and biological microwave sensors and systems, with chapters on topics such as implantable sensors, wearable microwave tags, and UWB technology. Each chapter explores the theory behind the technology, as well as its design and implementation. This is supported by practical examples and details of experimental results, along with discussion of system design, design trade-offs, and possible constraints and manufacturing issues. Applications described include intracranial pressure monitoring, vital signs monitoring, and non-invasive molecular and cellular investigations. Presenting new research and advances in the field, and focusing on the state of the art in medical and biological microwave sensors, this work is an invaluable resource for enthusiastic researchers and practicing engineers in the fields of electrical engineering, biomedical engineering, and medical physics.