Nanosensors As Robust Non Invasive Diagnostic Tools For Remote Health Monitoring

DOWNLOAD

Download Nanosensors As Robust Non Invasive Diagnostic Tools For Remote Health Monitoring PDF/ePub or read online books in Mobi eBooks. Click Download or Read Online button to get Nanosensors As Robust Non Invasive Diagnostic Tools For Remote Health Monitoring book now. This website allows unlimited access to, at the time of writing, more than 1.5 million titles, including hundreds of thousands of titles in various foreign languages. If the content not found or just blank you must refresh this page

Nanosensors As Robust Non Invasive Diagnostic Tools For Remote Health Monitoring

DOWNLOAD
Author : Priyanka Dwivedi
language : en
Publisher: CRC Press
Release Date : 2025-03-26

Nanosensors As Robust Non Invasive Diagnostic Tools For Remote Health Monitoring written by Priyanka Dwivedi and has been published by CRC Press this book supported file pdf, txt, epub, kindle and other format this book has been release on 2025-03-26 with Technology & Engineering categories.

This book addresses advancement in nanomaterials to design and develop non-invasive healthcare sensors including a combination of hybrid nanocomposites to design non-invasive devices for diagnosing human diseases. The cost-effectiveness is addressed with the methodologies to increase the scalability of the fabrication process. It aims to provide a complete end-to-end solution for smart non-invasive diagnosis developed indigenously and is a cost-effective complete guide to implement a deployable healthcare solution in real-time scenarios. Key Features: Focuses on the design and development of healthcare sensor devices. Reviews different AI techniques using senors for healthcare. Focuses on the application of nanomaterials in different biosensing applications. Explores non-invasive and painless diagnosis with remote healthcare. Discusses remote healthcare with IoMT integration and smart app communication. This book is aimed at graduate students and researchers in biomedical engineering, medical devices, machine learning/pattern recognition, and nanotechnology.

The Prediction Of Future Pandemics

DOWNLOAD
Author : Ali Ahmadian
language : en
Publisher: Elsevier
Release Date : 2025-06-20

The Prediction Of Future Pandemics written by Ali Ahmadian and has been published by Elsevier this book supported file pdf, txt, epub, kindle and other format this book has been release on 2025-06-20 with Technology & Engineering categories.

Prediction of the Future Pandemic: Artificial Intelligence and Nanotechnology Approaches provides a comprehensive account of the applications, challenges, and breakthroughs in using AI and nanotechnology for pandemic prediction. The book emphasizes interdisciplinary collaboration among experts and a global perspective on the prediction of future pandemics. Sections provide a comprehensive exploration of cutting-edge methodologies that leverage AI and nanotechnology to predict, analyze, and combat future pandemics. This book aims to bridge the gap between theoretical concepts and practical applications, offering insights into the integration of these advanced technologies for more accurate, timely, and ethical pandemic predictions. - Offers an in-depth examination of the integration of AI and nanotechnology in pandemic prediction - Covers many nanotechnology applications in pandemic prediction, such as nanorobotics for targeted intervention, the role of nanomaterials in prevention strategies, viral detection/nanosensors in quarantine enforcement, and nanocomposite resilience (building pandemic-proof materials) - Helps readers get to grips with the fast-evolving landscape of AI, nanotechnology, and global health - Covers both the theory and real-world applications of AI and nanotechnology in predicting pandemics - Discusses the fast-changing connection between AI, nanotechnology, and pandemic prediction

Sensor Networks For Smart Hospitals

DOWNLOAD
Author : Tuan Anh Nguyen
language : en
Publisher: Elsevier
Release Date : 2025-01-23

Sensor Networks For Smart Hospitals written by Tuan Anh Nguyen and has been published by Elsevier this book supported file pdf, txt, epub, kindle and other format this book has been release on 2025-01-23 with Computers categories.

Sensor Networks for Smart Hospitals shows how the use of sensors to gather data on a patient's condition and the environment in which their care takes place can allow healthcare professionals to monitor well-being and make informed decisions about treatment. Written by experts in the field, this book is an invaluable resource for researchers and healthcare practitioners in their drive to use technology to improve the lives of patients. Data from sensor networks via the smart hospital framework is comprised of three main layers: data, insights, and access.Medical data is collected in real-time from an array of intelligent devices/systems deployed within the hospital. This data offers insight from the analytics or machine learning software that is accessible to healthcare staff via a smartphone or mobile device to facilitate swifter decisions and greater efficiency. - Describes the fundamentals of sensors, biosensors, and smart hospitals - Explains how sensors and implanted nanodevices can be used in smart healthcare - Discusses how intelligent wireless medical sensor networks can be used for healthcare in the future - Companion volume to Advanced Sensors for Smart Healthcare

Nanosensors For Futuristic Smart And Intelligent Healthcare Systems

DOWNLOAD
Author : Suresh Kaushik
language : en
Publisher: CRC Press
Release Date : 2022-08-18

Nanosensors For Futuristic Smart And Intelligent Healthcare Systems written by Suresh Kaushik and has been published by CRC Press this book supported file pdf, txt, epub, kindle and other format this book has been release on 2022-08-18 with Science categories.

The book, Nanosensors for Futuristic Smart and Intelligent Healthcare Systems, presents a treatise on nanosensors technology including wearables, implantable devices and wireless tools. The recent pandemic (COVID-19) has changed the behaviour of people towards diagnosis of infectious diseases and monitoring remote patient health status in real-time. The main focus of this book is the basic concepts of nanomaterials and sensing paradigms for medical devices based on nanosensor technology. The book will be valuable to researchers, engineers and scientists interested in the field of healthcare for monitoring health status in real-time.

Non Invasive Medical Devices For Detection And Monitoring Within Healthcare

DOWNLOAD
Author : Ronny Priefer
language : en
Publisher:
Release Date : 2023

Non Invasive Medical Devices For Detection And Monitoring Within Healthcare written by Ronny Priefer and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2023 with Point-of-care testing categories.

Biosensors, especially non-invasive ones, are an area of extreme importance and fantastic advancements. As nanotechnology continually becomes more and more refined, its applications in a multitude of areas also grow. One area that has seen an explosion of innovations is healthcare. Such biosensors have allowed for the diagnosis, monitoring, and even treatment of a myriad of different disease states. This reprint highlights many of the past, current, and potential future advancements.

Integrated Smart Micro Systems Towards Personalized Healthcare

DOWNLOAD
Author : Yu Song
language : en
Publisher: John Wiley & Sons
Release Date : 2021-12-13

Integrated Smart Micro Systems Towards Personalized Healthcare written by Yu Song and has been published by John Wiley & Sons this book supported file pdf, txt, epub, kindle and other format this book has been release on 2021-12-13 with Technology & Engineering categories.

Integrated Smart Micro-Systems Towards Personalized Healthcare Presents a thorough summary of recent advances in microelectronic systems and their applications for personalized healthcare Integrated Smart Micro-Systems Towards Personalized Healthcare provides up-to-date coverage of developments in smart microelectronics and their applications in health-related areas such as sports safety, remote diagnosis, and closed-loop health management. Using a comprehensive approach to the rapidly growing field, this one-stop resource examines different methods, designs, materials, and applications of systems such as multi-modal sensing biomedical platforms and non-invasive health monitoring sensors. The book’s five parts detail the core units of micro-systems, self-charging power units, self-driven monitor patches, self-powered sensing platforms, and integrated health monitoring systems. Succinct chapters address topics including multi-functional material optimization, multi-dimensional electrode preparation, multi-scene application display, and the use of multi-modal signal sensing to monitor physical and chemical indicators during exercise. Throughout the text, the authors offer key insights on device performance improvement, reliable fabrication processing, and compatible integration designs. Provides an overview self-powered, wearable micro-systems with emphasis on personalized healthcare Covers the working mechanisms and structural design of different energy-harvesting units, energy storage units, and functional units Introduces an integrated self-charging power unit consisting of triboelectric nanogenerators with supercapacitor Describes a general solution-evaporation method for developing porous CNT-PDMS conductive elastomers Examines a fully-integrated self-powered sweat sensing platform built on a wearable freestanding-mode triboelectric nanogenerator Integrated Smart Micro-Systems Towards Personalized Healthcare is an essential text for researchers, electronic engineers, entrepreneurs, and industry professionals working in material science, electronics, mechanical engineering, bioengineering, and sensor development.

Addressing Reliability Challenges In Solid State Nanopore Sensors For Robust Point Of Care Diagnostics

DOWNLOAD
Author : Ming Dong
language : en
Publisher:
Release Date : 2024

Addressing Reliability Challenges In Solid State Nanopore Sensors For Robust Point Of Care Diagnostics written by Ming Dong and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2024 with categories.

Rapid and accurate nucleic acid detection is vital for controlling disease outbreaks and monitoring environmental safety. These methods facilitate the early identification of pathogens and genetic markers critical for public health and ecological balance. Nanopore technology, leveraging nanoscale pores in materials like silicon nitride and quartz glass, represents a significant advancement in molecular diagnostics. It provides a unique platform for analyzing nucleic acids and proteins at the single-molecule level, enabling the precise detection and quantification of biological molecules. The development and detailed characterization of these nanopores are crucial for enhancing their application across diverse scientific and clinical fields. This dissertation mainly focuses on exploring the possibility of developing an integrated LAMP readout system using solid-state nanopores for rapid, label-free nucleic acid self-testing. First, we investigated the dynamics of nanopore formation during controlled dielectric breakdown (CBD), with a focus on how redox-induced bubble generation at the electrolyte-membrane interface alters electric field distribution and impacts nanopore formation. This study reveals how these bubbles affect the number and distribution of nanopores, offering new insights into the stochastic nature of nanopore fabrication and suggesting ways to enhance sensor consistency and reliability. Additionally, we studied the effects of laser-assisted dielectric breakdown (LaCBD) on nanopore formation, particularly noting the formation of laser-induced debris and its asymmetric distribution, which affects molecular transport. Our research also underscores the importance of comprehensive baseline assessments for nanopore sensors, recommending the integration of baseline current measurements with traditional noise assessments to improve accuracy. Then, we developed a Rolling Circle Amplification (RCA)-coupled glass nanopore counting method for detecting mild Traumatic Brain Injury (mTBI)-related microRNAs (miRNAs) in saliva. This approach uses large glass nanopores to digitally count specific mTBI-associated miRNAs such as let-7a, miR-30e, and miR-21 with high specificity and sensitivity. Validated for accurate quantification of these potential mTBI biomarkers, our results demonstrate that this method offers a practical, non-invasive solution for mTBI diagnosis at the point-of-care. Taking the rapid and sensitive Loop-Mediated Isothermal Amplification (LAMP) assays, we expand it with nanopore sensing for assay readout for pathogen diagnostics. We first introduced a high-fidelity machine learning-assisted method to identify false positives in LAMP, employing nanopore-based sizing and counting. This technique, designed to improve the specificity and reliability of LAMP assays often affected by contamination and non-specific amplification, integrates machine learning with nanopore sizing to accurately distinguish true from false positives with 91.67% accuracy. This development significantly enhances the accuracy of LAMP assays, reducing false positives crucial for dependable diagnostics and monitoring. Finally, we developed a clog-free nanopore LAMP sensing system enhanced with automated de-clogging mechanisms to improve the reliability and efficiency of molecular diagnostics. This system combines specialized software and hardware, including a vibration motor managed by a custom-developed LabView Virtual Instrument (VI), to quickly and effectively clear clogs that occur during the LAMP amplicon sensing process. This approach not only maintains the integrity of the nanopore sensor but also optimizes data accuracy and throughput, providing a robust solution for reliable nanopore-based diagnostics. Successfully completing this dissertation could greatly enhance the efficiency, accuracy, and accessibility of nanopore-based, amplification-assay coupled molecular diagnostics. This work promises robust solutions that can be broadly applied across healthcare and environmental monitoring, adapting to diverse needs and settings.

Wearable Electrochemical Sensors For Non Invasive Health Monitoring

DOWNLOAD
Author : Juliane Renata Sempionatto Moreto
language : en
Publisher:
Release Date : 2021

Wearable Electrochemical Sensors For Non Invasive Health Monitoring written by Juliane Renata Sempionatto Moreto and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2021 with categories.

The constant miniaturization of electronics and the development of powerful data processing tools have enabled the fast advance of wearable technology. The successful demonstration of wearable devices for sports monitoring has already been made. Although such outstanding technology has shown great performance, some important features are still missing. Nowadays, wearable devices are limited to monitoring physical parameters such as motion, temperature, heart rate, steps, etc., while important (bio)chemical information, such as metabolites (glucose, lactate, alcohol) and electrolytes (sodium, potassium) levels can only be accessed via blood analysis. The development of on-body detectors for physiological self-monitoring has profound societal implications for healthcare, nutrition analyses, and remote medicine. Electrochemical wearable biosensors are promising candidates to bridge the technology gap for wearable devices toward comprehensive monitoring and measurement of important, and medically relevant, biological changes in the human body. Electrochemical sensors can be easily miniaturized, data can be accessed wirelessly, and the concept of "put-and-forget" can be successfully employed minimizing the hassle and interference in the wearer's daily-life activities. In this dissertation, the development and application of non-invasive wearable devices are discussed. Wearable electrochemical sensors operating in sweat, saliva, tears, and interstitial fluid are presented in individual chapters with a final chapter on the critical discussion regarding the challenges and opportunities involved in building a successful electrochemical wearable biosensor capable of reliable and trustful measurement readings. The criteria for analytical biomarker detector in saliva, sweat, tears, and interstitial fluid are included.

Nanotechnology Enabled In Situ Sensors For Monitoring Health

DOWNLOAD
Author : Thomas J. Webster
language : en
Publisher: Springer
Release Date : 2010-12-22

Nanotechnology Enabled In Situ Sensors For Monitoring Health written by Thomas J. Webster and has been published by Springer this book supported file pdf, txt, epub, kindle and other format this book has been release on 2010-12-22 with Technology & Engineering categories.

Nanotechnologies are now being applied to health monitoring. Until recently, there has been little research into how to use nanotechnology and sensors in health monitoring. Nanotechnology Enabled In Situ Sensors for Monitoring Health summarizes the research efforts to design sensors based on nanotechnology that can be placed into the body to monitor health. Nanotechnology is being used at an unprecedented pace to both diagnose and treat diseases, rather than conventional approaches that diagnose and treat diseases in a different manner.

Next Generation Point Of Care Biomedical Sensors Technologies For Cancer Diagnosis

DOWNLOAD
Author : Pranjal Chandra
language : en
Publisher: Springer
Release Date : 2017-12-30

Next Generation Point Of Care Biomedical Sensors Technologies For Cancer Diagnosis written by Pranjal Chandra and has been published by Springer this book supported file pdf, txt, epub, kindle and other format this book has been release on 2017-12-30 with Medical categories.

This book presents recent research on cancer detection methods based on nanobiosensors, which offer ultrasensitive point-of-care diagnosis. Several methods for diagnosing cancer have been discovered and many more are currently being developed. Conventional clinical approaches to detecting cancers are based on a biopsy followed by histopathology, or on the use of biomarkers (protein levels or nucleic acid content). Biopsy is the most widely used technique; however, it is an invasive technique and is not always applicable. Furthermore, biomarker-based detection cannot be relied on when the biomarkers are present in an extremely low concentration in the body fluids and in malignant tissues. Thus, in recent years highly sensitive and robust new cancer diagnosis techniques have been developed for clinical application, and may offer an alternative strategy for cancer diagnosis. As such, this book gathers the latest point-of-care cancer diagnostic methods and protocols based on biomedical sensors, microfluidics, and integrated systems engineering. It also discusses recent developments and diagnostics tests that can be conducted outside the laboratory in remote areas. These technologies include electrochemical sensors, paper-based microfluidics, and other kit-based diagnostic methods that can be adapted to bring cancer detection and diagnostics to more remote settings around the globe. Overall, the book provides students, researchers, and clinicians alike a comprehensive overview of interdisciplinary approaches to cancer diagnosis.