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Books in Biotechnology

Exploring genetic engineering, cell culture, and bioprocessing, this collection supports researchers and industry professionals developing new therapies, diagnostics, and sustainable bio products. It features innovative techniques, case studies, and regulatory considerations, enabling advancements in healthcare, agriculture, and environmental solutions within a rapidly evolving biotech landscape.

  • Modern fMRI

    Practical Lessons and Insights
    • 1st Edition
    • Andrew Jahn
    • English
    Modern fMRI: Practical Lessons and Insights provides an up-to-date, holistic overview of the field of functional magnetic resonance imaging (fMRI), familiarizing the reader with the latest trends in neuroimaging such as standardized data organization and preprocessing, hierarchical data analysis, and advances in data and code sharing. Importantly, the book gives practical advice on best practices in preprocessing, statistical modeling, QA checks, and on some of the latest tools and concepts to be familiar with, including fMRIPREP, OpenNeuro.org, Open Science practices, and Jupyter notebooks.The field of neuroimaging with fMRI is developing at a rapid pace, with a seemingly endless number of software packages, statistical methods, and different ways to organize and analyze neuroimaging data. Among such a wide variety of options, and with so many seemingly conflicting pieces of advice on the “correct” way of analyzing neuroimaging data, this book helps readers understand what decisions to make.

  • Humanizing Artificial Touch

    Skin, Sensing, and Structures
    • 1st Edition
    • John-John Cabibihan
    • English
    Humanizing Artificial Touch: Skin, Sensing, and Structures contains recent advances in artificial skin modelling and robotic tactile sensing technologies, integrating these in the structure of an artificial hand mimicking its important features. This book will give special treatment to the relationship between the artificial skin material and embedded tactile sensors, describing how artificial skin and embedded sensors can be designed and constructed using 3D printing technologies with case examples on how these were created for amputees achieve a more a natural and rich human-robot tactile interaction.This book is oriented towards students, researchers, and clinical practitioners who are working in the design and construction of artificial hands for prosthetics and social robotics.

  • Technology-Assisted Physical Gait Rehabilitation

    How Robotics, Data Science, and Neuroscience are Changing Modern Physical Therapy
    • 1st Edition
    • Tomislav Baček + 3 more
    • English
    Technology-Assisted Physical Gait Rehabilitation: How Robotics, Data Science, and Neuroscience are Changing Modern Physical Therapy explores computational modeling techniques, robotic assistance, data science, and other technological tools and how they can be jointly used in driving and guiding physical gait therapy in impairments such as stroke, traumatic brain injury, and incomplete spinal cord injury. This book gathers experts in robotics, human biomechanics, physical therapy, neuroscience, engineering, and medicine, presenting their ongoing work and discusses their views of the future direction of technology-assisted gait therapy, showcasing the latest advancements in the interdisciplinary and multidisciplinary field of technology-assisted gait therapy and strives to outline the developments in the coming years that are needed/likely to make the next big breakthrough in the field.

  • Wearable Smart Sensing Devices for Sustainable Healthcare

    Techniques, Fabrication, Data Collection and Analysis
    • 1st Edition
    • Arpana Parihar + 2 more
    • English
    Wearable Smart Sensing Devices for Sustainable Healthcare: Techniques, Fabrication, Data Collection and Analysis presents a complete overview of the techniques for developing integrated wearable sensors, the systems that power them, and the fabrication issues involved in making them. The book bridges the gap between theory and practice, offering scientific knowledge and practical insights. Written by renowned researchers and industry experts, this book provides valuable understanding and insights into the design, data processing, analysis, and fabrication of wearable sensors that is ideal for academic engineering and scientific researchers, industry engineers, and scientists interested in developing wearable sensor devices.

  • Deep Learning in Bioinformatics

    Techniques and Applications in Practice
    • 2nd Edition
    • Habib Izadkhah
    • English
    Deep Learning in Bioinformatics: Techniques and Applications in Practice, Second Edition explores how deep learning can be utilized for addressing important problems in bioinformatics, including drug discovery, de novo molecular design, sequence analysis, protein structure prediction, gene expression regulation, protein classification, biomedical image processing and diagnosis, biomolecule interaction prediction, and in systems biology. The book also presents theoretical and practical successes of deep learning in bioinformatics, pointing out problems and suggesting future research directions. This updated edition includes several new chapters, applications, and examples for new Deep Learning advances and techniques.Dr. Izadkhah provides valuable insights and will help researchers use deep learning techniques in their biological and bioinformatics studies.

  • Biomechanics of the Heart

    From Model to Patient
    • 1st Edition
    • Peter Bovendeerd + 3 more
    • English
    Biomechanics of the Heart: From Model to Patient provides readers with a comprehensive overview of the modeling and assessment of the heart’s biomechanics. The book addresses topics such as the physiology of normal and diseased hearts, cardiovascular imaging, modeling of myocardial tissue in the passive and active states, as well as state-of-the-art approaches for patient specific modeling of the heart’s mechanical function. This is all augmented by case studies and examples of exploitation of models for computer-aided diagnosis, treatment, and monitoring of heart diseases. Readers are introduced to modeling of the heart’s anatomical and muscular structure, a review of imaging techniques to analyze the geometry, content and dynamics of the heart, as well as an in-depth look at the biomechanical properties of normal and diseased hearts. Finally, chapters cover modeling cardiac passive and contractile mechanics, biomechanical finite element simulations of the heart, patient-specific modeling of the heart and circulatory system, as well as the exploitation of models for computer-aided diagnosis, treatment, and monitoring of heart diseases.

  • Mathematics and Biomedical Engineering in Medicine, Physiology and Health Sciences

    • 1st Edition
    • Dhanjoo N. Ghista + 3 more
    • English
    Mathematics and Biomedical Engineering in Medicine, Physiology and Health Sciences is a visionary book, whose purpose is to demonstrate how fundamental mathematics and biomedical engineering can be incorporated into physiology, medicine, and health sciences teaching, research,and clinical practice to make these disciplines more quantitative and computational, and hence more explanatory and informative. The book also provides more quantitative formulation of medical procedures, towards supporting the growing field of precision medicine.

  • MRI of Brain Physiology

    Novel Methods and Clinical Applications
    • 1st Edition
    • Audrey P. Fan + 1 more
    • English
    MRI of Brain Physiology: Novel MRI Methods and Clinical Applications delves into the intricate world of brain physiology, focusing on the latest magnetic resonance imaging (MRI) methods and their clinical applications. Designed for biomedical engineers, technologists, radiologists, neurologists, neurosurgeons, and clinical researchers, this resource bridges the gap between advanced imaging techniques and practical clinical use. It covers a wide spectrum of cerebral physiology, from microvascular and macrovascular dynamics to cerebrovascular reserve, neurovascular coupling, and cerebrospinal fluid pathways. Each of the core chapters has a tripartite structure: physiology (concepts of the physiological processes), imaging techniques, and clinical applications. Readers will find detailed discussions on emerging MRI methods, including dynamic contrast, arterial spin labeling, and quantitative BOLD models. The book also addresses the functional impact of physiological changes on tissue microstructure and integrity, offering insights into multiparametric relaxation mapping and quantitative susceptibility mapping. Uniquely, this book gives a comparative approach to different brain physiological MRI methods, highlighting their strengths, limitations, and reliability.

  • BioMEMS Devices

    • 1st Edition
    • Azrul Azlan Hamzah + 2 more
    • English
    BioMEMS Devices covers the fundamentals of bioMEMS and discusses how MEMS are implemented into biomedical devices. The book discusses the most up-to-date technologies, including the various types of electrochemical, optical, and mechanical MEMS sensors. Other topics include bio cell and particle separation and filtration using microfluidic platform such as dielectrophoresis (DEP) and microfilters. MEMS devices for drug mixing, pumping and transdermal drug delivery using microneedles and micropumps are also discussed, along with recent advances in point-of-care diagnostics and MEMS in medical implantsThe book concludes with a discussion on integration of bioMEMS system with IoT, medical practitioners’ adaptation of the devices, market penetration, emerging technologies, and future outlooks.

  • Revolutionizing Microbial Technology

    Unlocking the Potential of Artificial Intelligence
    • 1st Edition
    • Akanksha Srivastava + 1 more
    • English
    Revolutionizing Microbial Technology: Unlocking the Potential of Artificial Intelligence explores the potential integration of artificial intelligence (AI) and machine learning in the fields of microbiology and biotechnology. The book delves into various applications of AI in microbiology across different sectors. This includes coverage of basic microbiology, identification and characterization of microbes, how AI can be implemented in microbiology laboratory practices, and how bioinformatics can help analyze microbial data and help understand complex biological systems. It discusses implementation of AI in healthcare for the diagnosis of microbial diseases and AI-driven microbial therapies and examines potential AI solutions for the acceleration, cost-effectiveness, and efficiency of the drug discovery and drug development process. Additional coverage includes the AI integration in the food and agricultural industries. Revolutionizing Microbial Technology provides a comprehensive understanding to researchers, academics, industry professionals and students of the potential of AI as an advance tool for microbial research and application.

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