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Biomechanics of Motion (CISM International Centre for Mechanical Sciences #263)

Biomechanics of Soft Tissue in Cardiovascular Systems (CISM International Centre for Mechanical Sciences #441)

The book is written by leading experts in the field presenting an up-to-date view of the subject matter in a didactically sound manner. It presents a review of the current knowledge of the behaviour of soft tissues in the cardiovascular system under mechanical loads, and the importance of constitutive laws in understanding the underlying mechanics is highlighted. Cells are also described together with arteries, tendons and ligaments, heart, and other biological tissues of current research interest in biomechanics. This includes experimental, continuum mechanical and computational perspectives, with the emphasis on nonlinear behaviour, and the simulation of mechanical procedures such as balloon angioplasty.

Biomechanics of Soft Tissues: Principles and Applications

The emerging paradigm of incorporating images and biomechanical properties of soft tissues has proven to be an integral part of the advancement of several medical applications, including image guided radiotherapy and surgery, brachytherapy, and diagnostics. This expansion has resulted in a growing community of medical, science, and engineering professionals applying mechanical principles to address medical concerns. This book is tailored to cover a range of mechanical principles, properties, and applications of soft tissues that have previously been addressed in various journals and "anatomical site-specific" books. Biomechanics of Soft Tissues follows a different approach by offering a simplified overview of widely used mechanical models and measuring techniques of soft tissue parameters. This is followed by an investigation of different medical applications, including: biomechanical aspects of cancerous tumor progressions, radiotherapy treatment, and image guided ultrasound guided interventions. Written by leading scholars and professionals in the field, Biomechanics of Soft Tissues combines engineering and medical expertise, thereby producing an excellent source of information for professionals interested in the theoretical and technological advancements related to soft tissues. The book provides medical professionals with an insight on various modeling approaches, testing techniques, and mechanical characteristics that are frequently used by engineers. Conversely, the presented medical applications provide engineers with a glimpse of amazing medical practices and encourage them to expand their roles in the medical field. Provides a simplified overview of mechanics of soft tissues. Highlights different techniques to measure tissues properties for engineering and medical applications. Contains novel ideas to address roles of mechanics in disease progression and treatment. Presents innovative applications of biomechanics in medical procedures.

Biomechanics of Soft Tissues: Principles and Applications

The emerging paradigm of incorporating images and biomechanical properties of soft tissues has proven to be an integral part of the advancement of several medical applications, including image guided radiotherapy and surgery, brachytherapy, and diagnostics. This expansion has resulted in a growing community of medical, science, and engineering professionals applying mechanical principles to address medical concerns. This book is tailored to cover a range of mechanical principles, properties, and applications of soft tissues that have previously been addressed in various journals and "anatomical site-specific" books. Biomechanics of Soft Tissues follows a different approach by offering a simplified overview of widely used mechanical models and measuring techniques of soft tissue parameters. This is followed by an investigation of different medical applications, including: biomechanical aspects of cancerous tumor progressions, radiotherapy treatment, and image guided ultrasound guided interventions. Written by leading scholars and professionals in the field, Biomechanics of Soft Tissues combines engineering and medical expertise, thereby producing an excellent source of information for professionals interested in the theoretical and technological advancements related to soft tissues. The book provides medical professionals with an insight on various modeling approaches, testing techniques, and mechanical characteristics that are frequently used by engineers. Conversely, the presented medical applications provide engineers with a glimpse of amazing medical practices and encourage them to expand their roles in the medical field. Provides a simplified overview of mechanics of soft tissues. Highlights different techniques to measure tissues properties for engineering and medical applications. Contains novel ideas to address roles of mechanics in disease progression and treatment. Presents innovative applications of biomechanics in medical procedures.

Biomechanics of the Brain (Biological and Medical Physics, Biomedical Engineering)

Biomechanics of the Brain will present an introduction to brain anatomy for engineers and scientists. Experimental techniques such as brain imaging and brain tissue mechanical property measurement will be discussed, as well as computational methods for neuroimage analysis and modeling of brain deformations due to impacts and neurosurgical interventions. Brain trauma between the different sexes will be analyzed. Applications will include prevention and diagnosis of traumatic injuries, such as shaken baby syndrome, neurosurgical simulation and neurosurgical guidance, as well as brain structural disease modeling for diagnosis and prognosis.This book will be the first book on brain biomechanics. It will provide a comprehensive source of information on this important field for students, researchers, and medical professionals in the fields of computer-aided neurosurgery, head injury, and basic biomechanics.

Biomechanics of the Brain (Biological and Medical Physics, Biomedical Engineering)

This new edition presents an authoritative account of the current state of brain biomechanics research for engineers, scientists and medical professionals. Since the first edition in 2011, this topic has unquestionably entered into the mainstream of biomechanical research. The book brings together leading scientists in the diverse fields of anatomy, neuroimaging, image-guided neurosurgery, brain injury, solid and fluid mechanics, mathematical modelling and computer simulation to paint an inclusive picture of the rapidly evolving field.Covering topics from brain anatomy and imaging to sophisticated methods of modeling brain injury and neurosurgery (including the most recent applications of biomechanics to treat epilepsy), to the cutting edge methods in analyzing cerebrospinal fluid and blood flow, this book is the comprehensive reference in the field. Experienced researchers as well as students will find this book useful.

Biomechanics of the Gastrointestinal Tract: New Perspectives in Motility Research and Diagnostics

Biomechanics of the Gastrointestinal Tract is an up-to-date book for researchers on the study of the mechanical properties and the motor system of the gastrointestinal tract. A well-illustrated book, it provides a comprehensive overview to relevant tissue geometry, morphology and biomechanical theory. Separate chapters cover smooth muscle and nerve function including the application to animal and human studies of motility, symptoms and pain, determination of the true resting state, history-dependent properties, and tissue remodelling in disease. Several methods and diagnostic applications such as determination of in vivo length-tension diagrams and multimodal pain testing are completely new but will undoubtedly be used by many in the future. New non-invasive imaging techniques based on ultrasound, MR- and CT-scanning in combination with balloon distension are emerging as the techniques for future in vivo studies.

Biomechanics of the Human Body (Undergraduate Lecture Notes in Physics)

Biomechanics of the Human Body teaches basic physics concepts using examples and problems based on the human body. The reader will also learn how the laws of mechanics may help to understand the conditions of the static and dynamic equilibrium of one of the marvels of nature: the human body. The mathematical language used in physics has always been pointed out as responsible for students’ difficulties. So, each concept given is followed by explanatory examples, with subsequent application and fixation exercises. It is a richly illustrated book that facilitates the comprehension of presented concepts. Biomechanics of the Human Body can be useful to students of physical and occupational therapy, physical education, the life sciences, and health care professionals who deal with biomechanics. This book is also recommended for sport practitioners as well as the general reader interested in the mechanics of the human body.

The Biomechanics of the Tactile Perception of Friction (Springer Series on Touch and Haptic Systems)

Humans rely on their sense of touch to perceive subtle movements and micro slippages to manipulate an impressive range of objects. This incredible dexterity relies on fast and unconscious adjustments of the grip force that holds an object strong enough to avoid a catastrophic fall yet gentle enough not to damage it. The Biomechanics of the Tactile Perception of Friction covers how the complex mechanical interaction is perceived by the nervous system to quickly infer the state of the contact for a swift and precise regulation of the grip. The first part focuses on how humans assess friction at the contact initialization and the second part highlights an efficient coding strategy that the nervous system might use to continuously adjust the grip force to keep a constant safety margin before slippage. Taken together, these results reveal how the perception of frictional information is encoded in the deformation of our skin. The findings are useful for designing bio-inspired tactile sensors for robotics or prosthetics and for improving haptic human-machine interactions.

Biomechanics of the Upper Limbs: Mechanics, Modeling and Musculoskeletal Injuries, Second Edition

There is already a wealth of literature covering cumulative trauma disorders and medical management, as well as the biomechanics of manual material handling and lower back problems. However, despite a spike in the number of work-related musculoskeletal disorders (WRMSDs) in the upper limbs-due to a sharp increase in the amount of computer-related j

Biomechanics of the Wrist Joint

Clinical interest in the wrist joint has accelerated markedly in the last two decades. Clinical diagnosis based on a greater understanding of wrist anatomy, biomechanics and increasingly sophisticated imaging techniques has markedly enhanced our ability to treat disorders of this joint. As our clinical acumen becomes better, we increasingly need more accurate understanding of the basic mechanisms by which the wrist is able to carry out its function. This book represents a compendium of work done by a number of authors in the basic sciences and their presentations at a recent workshop on biomechanics. This work, while at the forefront of current research in this area, is but an indicator of the type of information that is increasingly required to progress in this field. The authors have made some sound contributions and this book should be of considerable interest and help to those individuals who are contributing to progress in this field. It will be of even greater importance if it helps to stimulate the reader to become involved in further research into the intricacies of the wrist and help us to solve its numerous problems. I hope the reader will enjoy reading these chapters as much as I did in listening to them at the time of their presentations. Ronald L. Linscheid, M.D. President 1989-1990 American Society for Surgery of the Hand Mayo Clinic Rochester, Minnesota Preface Work related injury lIas become a major factor in current world economics.

Biomechanik: Grundlagen, Beispiele, Übungen

Physikalische Randbedingungen beherrschen die belebte Welt bis in die kleinsten Details. Analogien aus Biologie und Technik miteinander zu vergleichen, stärkt das Verständnis für die Zusammenhänge. Beide Gesichtspunkte sind hier am Beispiel der Mechanik dargestellt. Aus dem Bereich der Energetik sind einige Aspekte mit aufgenommen, ohne die die Probleme des Wärmehaushalts und der Lokomotion bei Tieren nicht zu verstehen sind; sie ergänzen die reine Biomechanik. Die Darstellung ist so einfach wie möglich gehalten. Sie wendet sich an Studierende technischer Disziplinen, die einen Einblick in die Zusammenhänge mit der Biologie brauchen wie auch an Biowissenschaftler, die sich in einführender Weise über Technische Mechanik informieren wollen.

Biomechanik: Grundlagen Beispiele Übungen

Physikalische Randbedingungen beherrschen die belebte Welt bis in die kleinsten Details. Analogien aus Biologie und Technik miteinander zu vergleichen, stärkt das Verständnis für die Zusammenhänge. Beide Gesichtspunkte sind hier am Beispiel der Mechanik dargestellt. Aus dem Bereich der Energetik sind einige Aspekte mit aufgenommen, ohne die die Probleme des Wärmehaushalts und der Lokomotion bei Tieren nicht zu verstehen sind; sie ergänzen die reine Biomechanik. Die Darstellung ist so einfach wie möglich gehalten. Sie wendet sich an Studierende technischer Disziplinen, die einen Einblick in die Zusammenhänge mit der Biologie brauchen wie auch an Biowissenschaftler, die sich in einführender Weise über Technische Mechanik informieren wollen.

Biomechanik: Anwendungen mechanischer Prinzipien auf den menschlichen Bewegungsapparat

Dieses Lehrbuch behandelt anschaulich mit aussagekräftigen Abbildungen die Grundlagen der Biomechanik sowie Anwendungen auf den menschlichen Bewegungsapparat. Ein Schwerpunkt liegt auf der Mechanik der Knochenbrüche und dem Einsatz der FEM in der Biomechanik. Anschauliche Beispiele vertiefen die Theorie und geben hilfreiche Hinweise für die professionelle Behandlung von Knochenbrüchen.

Biomechanik: Grundlagen und Anwendungen auf den menschlichen Bewegungsapparat

Dieses Lehrbuch behandelt anschaulich mit aussagekräftigen Abbildungen die Grundlagen der Biomechanik sowie Anwendungen auf den menschlichen Bewegungsapparat. Ein Schwerpunkt liegt auf der Mechanik der Knochenbrüche und dem Einsatz der FEM in der Biomechanik. Anschauliche Beispiele vertiefen die Theorie und geben hilfreiche Hinweise für die professionelle Behandlung von Knochenbrüchen.

Biomechanische Grenzwerte für die sichere Mensch-Roboter-Kollaboration

Biomechanische Grenzwerte sind der Schlüssel für eine sichere Mensch-Roboter-Kollaboration. Bisher stützte sich die Robotik mehrheitlich auf Grenzwerte aus der Unfallforschung, die allenfalls Schutz vor letalen Verletzungen bieten. Roland Behrens widmet sich der Erarbeitung maßgeschneiderter Grenzwerte. Seine Empfehlungen beruhen auf Daten einer Probandenstudie, die den Schmerz- und Verletzungseintritt an unterschiedlichen Bereichen des menschlichen Körpers untersucht.

Biomechatronic Design in Biotechnology: A Methodology for Development of Biotechnological Products

“… a must-read for all modern bio-scientists and engineers working in the field of biotechnology.” – Biotechnology Journal, 2012, 7 A cutting-edge guide on the fundamentals, theory, and applications of biomechatronic design principles Biomechatronic Design in Biotechnology presents a complete methodology of biomechatronics, an emerging variant of the mechatronics field that marries biology, electronics, and mechanics to create products where biological and biochemical, technical, human, management-and-goal, and information systems are combined and integrated in order to solve a mission that fulfills a human need. A biomechatronic product includes a biological, mechanical, and electronic part. Beginning with an overview of the fundamentals and theory behind biomechatronic technology, this book describes how general engineering design science theory can be applied when designing a technical system where biological species or components are integrated. Some research methods explored include schemes and matrices for analyzing the functionality of the designed products, ranking methods for screening and scoring the best design solutions, and structuring graphical tools for a thorough investigation of the subsystems and sub-functions of products. This insightful guide also: Discusses tools for creating shorter development times, thereby reducing the need for prototype testing and verification Presents case study-like examples of the technology used such as a surface plasmon resonance sensor and a robotic cell culturing system for human embryonic stem cells Provides an interdisciplinary and unifying approach of the many fields of engineering and biotechnology used in biomechatronic design By combining designs between traditional electronic and mechanical subsystems and biological systems, this book demonstrates how biotechnology and bioengineering design can utilize and benefit from commonly used design tools— and benefit humanity itself.

Biomechatronic Design in Biotechnology: A Methodology for Development of Biotechnological Products

“… a must-read for all modern bio-scientists and engineers working in the field of biotechnology.” – Biotechnology Journal, 2012, 7 A cutting-edge guide on the fundamentals, theory, and applications of biomechatronic design principles Biomechatronic Design in Biotechnology presents a complete methodology of biomechatronics, an emerging variant of the mechatronics field that marries biology, electronics, and mechanics to create products where biological and biochemical, technical, human, management-and-goal, and information systems are combined and integrated in order to solve a mission that fulfills a human need. A biomechatronic product includes a biological, mechanical, and electronic part. Beginning with an overview of the fundamentals and theory behind biomechatronic technology, this book describes how general engineering design science theory can be applied when designing a technical system where biological species or components are integrated. Some research methods explored include schemes and matrices for analyzing the functionality of the designed products, ranking methods for screening and scoring the best design solutions, and structuring graphical tools for a thorough investigation of the subsystems and sub-functions of products. This insightful guide also: Discusses tools for creating shorter development times, thereby reducing the need for prototype testing and verification Presents case study-like examples of the technology used such as a surface plasmon resonance sensor and a robotic cell culturing system for human embryonic stem cells Provides an interdisciplinary and unifying approach of the many fields of engineering and biotechnology used in biomechatronic design By combining designs between traditional electronic and mechanical subsystems and biological systems, this book demonstrates how biotechnology and bioengineering design can utilize and benefit from commonly used design tools— and benefit humanity itself.

Biomechatronics in Medical Rehabilitation: Biomodelling, Interface, and Control

This book focuses on the key technologies in developing biomechatronic systems for medical rehabilitation purposes. It includes a detailed analysis of biosignal processing, biomechanics modelling, neural and muscular interfaces, artificial actuators, robot-assisted training, clinical setup/implementation and rehabilitation robot control.Encompassing highly multidisciplinary themes in the engineering and medical fields, it presents researchers’ insights into the emerging technologies and developments that are being utilized in biomechatronics for medical purposes.Presenting a detailed analysis of five key areas in rehabilitation robotics: (i) biosignal processing; (ii) biomechanics modelling; (iii) neural and muscular interfaces; (iv) artificial actuators and devices; and (v) the use of neurological and muscular interfaces in rehabilitation robots control, the book describes the design of biomechatronic systems, the methods and control systems used and the implementation and testing in order to show how they fulfil the needs of that specific area of rehabilitation. Providing a comprehensive overview of the background of biomechatronics and details of new advances in the field, it is especially useful for researchers, academics and graduates new to the field of biomechatronics engineering, and is also of interest to researchers and clinicians in the medical field who are not engineers.

Biomedical and Environmental Sensing (River Publishers Series In Information Science And Technology Ser.)

At a time when the applications of sensors are in high demand and environmental issues are international priorities, this book on biomedical and environmental sensing provides the technical basis for researchers and students to understand the requirements for biomedical computing and also environmental sensing and to develop solutions in their areas of interests. The book deals with key techniques that need to be understood and also examples of applications of the techniques.Biomedical and environmental sensing are helping to extend the life span of human beings and infrastructures as it has become more and more sensible to understand what is happening for example inside a person, an aircraft, a road network or a bridge and to provide quick response. Several chapters of the book have dealt with the state of the art in biomedical decision support systems in therapeutic medicine. A data driven decision support system and a prototype support system for anaesthetics are major enablers for doctors and nurses to provide efficient and timely response not only to diagnose ailments but also to decide on the preferred approach for solving the problems.The analyses in the chapters are coherently detailed and easy to comprehend. There is a chapter on hypothermia therapy and a hardware probe was also developed and described. Classification of chromosomes is a major aid in DNA analysis and recognition. Thisvaluable insight into a DNA analysis method is provided. Information on heart diseases, onset of heart attacks and failure can be detected through reconstructing electrophysiological information about the surface of the heart. A reconstruction method is described in this book and provides strong foundation for research and training in this life determining area. The remaining chapters on sensing of driver conditions including fatigue peeks into tools and methodologies for understanding both the onset of fatigue and its forms for prevention of accidents in vehicles. The rest of the book gives techniques for planning biomedical and environmental sensor networks and their security.The book will no doubt greatly serve the needs of health professionals, researchers in the health andenvironmental industry and policy makers.Content• Data Driven Therapy Decision Support System• A Prototype Decision Support System for Anesthetists• Development and Testing of a Low Cost, Minimally Invasive Radiofrequency Thermal Probe For Hyperthermia Therapy• Comparative Functional Magnetic Resonance Imaging With Functional Brain Imaging Modalities• Design of a Neural Network Classifier for Separation of Images With Chromosomes• De-Noising of Body Surface Potential Signals• Single Channel Wireless EEG: Proposed Application in Train Drivers• Algorithm of remote monitoring ECG using mobile phone: Conception and implementation• Statistical validation of physiological indicators for non-invasive and hybrid driver drowsiness detection system• Security and Privacy of Wireless Sensor Networks for Biomedical• Key Establishment Scheme for Clustered Distributed Sensor Networks• Planning and Addressing of Wireless Sensor Networks• Sensor Scheduling and Redeployment Mechanisms in Wireless Sensor Networks• On the combination of logistic regression and local probability estimates• Stochastic Deterioration Processes for Bridge Lifetime Assessment

Biomedical and Environmental Sensing

At a time when the applications of sensors are in high demand and environmental issues are international priorities, this book on biomedical and environmental sensing provides the technical basis for researchers and students to understand the requirements for biomedical computing and also environmental sensing and to develop solutions in their areas of interests. The book deals with key techniques that need to be understood and also examples of applications of the techniques.Biomedical and environmental sensing are helping to extend the life span of human beings and infrastructures as it has become more and more sensible to understand what is happening for example inside a person, an aircraft, a road network or a bridge and to provide quick response. Several chapters of the book have dealt with the state of the art in biomedical decision support systems in therapeutic medicine. A data driven decision support system and a prototype support system for anaesthetics are major enablers for doctors and nurses to provide efficient and timely response not only to diagnose ailments but also to decide on the preferred approach for solving the problems.The analyses in the chapters are coherently detailed and easy to comprehend. There is a chapter on hypothermia therapy and a hardware probe was also developed and described. Classification of chromosomes is a major aid in DNA analysis and recognition. Thisvaluable insight into a DNA analysis method is provided. Information on heart diseases, onset of heart attacks and failure can be detected through reconstructing electrophysiological information about the surface of the heart. A reconstruction method is described in this book and provides strong foundation for research and training in this life determining area. The remaining chapters on sensing of driver conditions including fatigue peeks into tools and methodologies for understanding both the onset of fatigue and its forms for prevention of accidents in vehicles. The rest of the book gives techniques for planning biomedical and environmental sensor networks and their security.The book will no doubt greatly serve the needs of health professionals, researchers in the health andenvironmental industry and policy makers.Content• Data Driven Therapy Decision Support System• A Prototype Decision Support System for Anesthetists• Development and Testing of a Low Cost, Minimally Invasive Radiofrequency Thermal Probe For Hyperthermia Therapy• Comparative Functional Magnetic Resonance Imaging With Functional Brain Imaging Modalities• Design of a Neural Network Classifier for Separation of Images With Chromosomes• De-Noising of Body Surface Potential Signals• Single Channel Wireless EEG: Proposed Application in Train Drivers• Algorithm of remote monitoring ECG using mobile phone: Conception and implementation• Statistical validation of physiological indicators for non-invasive and hybrid driver drowsiness detection system• Security and Privacy of Wireless Sensor Networks for Biomedical• Key Establishment Scheme for Clustered Distributed Sensor Networks• Planning and Addressing of Wireless Sensor Networks• Sensor Scheduling and Redeployment Mechanisms in Wireless Sensor Networks• On the combination of logistic regression and local probability estimates• Stochastic Deterioration Processes for Bridge Lifetime Assessment

Biomedical and Life Physics: Proceedings of the Second Gauss Symposium, 2–8th August 1993, Munich

Der Band enthält die Beiträge der Sektion D des zweiten Gauss-Symposiums vom 2. - 8. August 1993 in München. Die Themen der Beiträge spannen den weiten Bogen von mathematischer Modellierung von biologisch und medizinisch wichtigen Prozessen über Fragen der Medikamentierung bis hin zur Erforschung des menschlichen Bewußtseins.

Biomedical and Other Applications of Soft Computing (Studies in Computational Intelligence #1045)

This book describes current and potential use of artificial intelligence and computational intelligence techniques in biomedicine and other application areas. Medical applications range from general diagnostics to processing of X-ray images to e-medicine-related privacy issues. Medical community understandably prefers methods that have been successful other on other application areas, where possible mistakes are not that critical. This book describes many promising methods related to deep learning, fuzzy techniques, knowledge graphs, and quantum computing. It also describes the results of testing these new methods in communication networks, education, environmental studies, food industry, retail industry, transportation engineering, and many other areas. This book helps practitioners and researchers to learn more about computational intelligence methods and their biomedical applications—and to further develop this important research direction.

Biomedical and Pharmaceutical Applications of Electrochemistry (Modern Aspects of Electrochemistry #60)

This volume of Modern Aspects of Electrochemistry reviews the latest developments in electrochemical science and technology related to biomedical and pharmaceutical applications.In particular, this book discusses electrochemical applications to medical devices, implants, antimicrobially active materials, and drug delivery systems.

Biomedical and Resonance Optics: Theory and Practice (Bioanalysis #11)

This book discusses fundamentally new biomedical imaging methods, such as holography, holographic and resonant interferometry, and speckle optics. It focuses on the development of holographic interference microscopy and its use in the study of phase objects such as nerve and muscle fibers subjected to the influence of laser radiation, magnetic fields, and hyperbaric conditions. The book shows how the myelin sheath and even the axon itself exhibit waveguide properties, enabling a fresh new look at the mechanisms of information transmission in the human body. The book presents theoretically and experimentally tested holographic and speckle-optical methods and devices used for investigating complex, diffusely scattering surfaces such as skin and muscle tissue. Additionally, it gives broad discussion of the authors’ own original fundamental and applied research dedicated to helping physicians introduce new contact-less methods of diagnosis and treatment of diseases of the cardiovascular and neuromuscular systems into medical practice. The book is aimed at a broad spectrum of scientific specialists in the fields of speckle optics, holography, laser physics, morphology and cytochemistry, as well as medical professionals such as physiologists, neuropathologists, neurosurgeons, cardiologists and dentists.