This is the first textbook to comprehensively cover the experimental methods used in biomechanics. Designed for graduate students and researchers studying human biomechanics at the whole-body level, the book introduces readers to the theory behind the primary data collection methods and primary methods of data processing and analysis used in biomechanics. Each individual chapter covers a different aspect of data collection or data processing, presenting an overview of the topic at hand and explaining the math required for understanding the topic. A series of appendices provide the specific math that is required for understanding the chapter contents. Each chapter leads readers through the techniques used for data collection and processing, providing sufficient theoretical background to understand both the how and why of these techniques. Chapters end with a set of review questions, and then a bibliography which is divided into three sections (cited references, specific references, and useful references). Provides a comprehensive and in depth presentation on methods in whole-body human biomechanics; First textbook to cover both collection and processing in a single volume; Appendices provide the math needed for the main chapters.

Fully updated, revised and consolidated into one single volume, the fourth edition of Kinanthropometry and Exercise Physiology offers the best theoretically contextualised, practical resource for instructors and students available. Incorporating substantial sections on kinanthropometry, exercise physiology, energy systems and the application of science in health and high performance settings, the book covers the basics of measurement in exercise science through to advanced methods, and includes brand new chapters on: Pre-exercise screening and health risk stratification Functional movement assessment Point of care testing Anthropometry standards Anaerobic power and capacity History of exercise for health benefits Monitoring training loads in high-performance athletes Measuring game style in team sports Offering on-line access to newly developed exercise science measurement tools through the Exercise Science Toolkit - www.exercisesciencetoolkit.com - no other book offers such a complete resource, from the science of kinanthropometry and exercise physiology to their applications in health and performance, through practical, interactive learning. This book is an essential companion for students on any sport and exercise science-related degree programme and any instructor leading practical, laboratory-based classes.

This updated 2nd Edition of Williamson's highly applied text provides just enough background to help students learn to develop and implement exercise programs for special populations. For each condition, the book provides a general description, anatomy and physiology variances, precautions, recommendations for exercise testing and prescription, instructions and images of various exercises, and nutritional considerations. The 2nd Edition features new chapters on Fibromyalgia and Parkinson's Disease, as well as enhanced in-book pedagogy and online resources. For students: An online library of patient handouts , organized by conditions, illustrates the correct way to perform a wide range of exercises. For you A Test Bank in Word (R) facilitates quiz and exam creation. Pre-loaded PowerPoint presentations speed lecture preparation. A complete image bank makes it easy to import images into lectures, assignments, and quizzes. Answers to textbook questions are provided for your convenience

"Research Methods in Biomechanics, Second Edition," demonstrates the range of available research techniques and how to best apply this knowledge to ensure valid data collection. In the highly technical field of biomechanics, research methods are frequently upgraded as the speed and sophistication of software and hardware technologies increase. With this in mind, the second edition includes up-to-date research methods and presents new information detailing advanced analytical tools for investigating human movement.

Expanded into 14 chapters and reorganized into four parts, the improved second edition features more than 100 new pieces of art and illustrations and new chapters introducing the latest techniques and up-and-coming areas of research. Also included is access to biomechanics research software designed by C-Motion, Visual3D Educational Edition, which allows users to explore the full range of modeling capabilities of the professional Visual3D software in sample data files as well as display visualizations for other data sets. Additional enhancements in this edition include the following:

- Special features called From the Scientific Literature highlight the ways in which biomechanical research techniques have been used in both classic and cutting-edge studies.

- An overview, summary, and list of suggested readings in each chapter guide students and researchers through the content and on to further study.

- Sample problems appear in select chapters, and answers are provided at the end of the text.

- Appendixes contain mathematical and technical references and additional examples.

- A glossary provides a reference for terminology associated with human movement studies.

"Research Methods in Biomechanics, Second Edition," assists readers in developing a comprehensive understanding of methods for quantifying human movement. Parts I and II of the text examine planar and three-dimensional kinematics and kinetics in research, issues of body segment parameters and forces, and energy, work, and power as they relate to analysis of two- and three-dimensional inverse dynamics. Two of the chapters have been extensively revised to reflect current research practices in biomechanics, in particular the widespread use of Visual3D software. Calculations from these two chapters are now located online with the supplemental software resource, making it easier for readers to grasp the progression of steps in the analysis.

In part III, readers can explore the use of musculoskeletal models in analyzing human movement. This part also discusses electromyography, computer simulation, muscle modeling, and musculoskeletal modeling; it presents new information on MRI and ultrasound use in calculating muscle parameters. Part IV offers a revised chapter on additional analytical procedures, including signal processing techniques. Also included is a new chapter on movement analysis and dynamical systems, which focuses on how to assess and measure coordination and stability in changing movement patterns and the role of movement variability in health and disease. In addition, readers will find discussion of statistical tools useful for identifying the essential characteristics of any human movement.

The second edition of "Research Methods in Biomechanics" explains the mathematics and data collection systems behind both simple and sophisticated biomechanics. Integrating software and text, Research Methods in Biomechanics, Second Edition, assists both beginning and experienced researchers in developing their methods for analyzing and quantifying human movement.

You can never step in the same river twice, goes the old adage of philosophy. An observation on the transitory nature of fluids in motion, this saying also describes the endless variations researchers face when studying human movement. Understanding these biodynamics-why the wirewalker doesn't fall-requires a grasp of the constant fluctuations and fine tunings which maintain balance in the complex, fluid system of human locomotion.

Taking a comprehensive approach to the phenomenon of locomotion, Biodynamics: Why the Wirewalker Doesn't Fall integrates physical laws and principles with concepts of fractals, chaos, and randomness. In so doing, it formulates a description of both the large-scale, smooth aspects of locomotion and the more minute, randomized mechanisms of this physiological process.

Ideal for beginners in this subject, Biodynamics provides an elegant explanation without assuming the reader's understanding of complex physical principles or mathematical equations. Chapter topics include:

• Dimensions, measurement, and scaling
• Mechanics and dynamics
• Biometrics
• Conservation of momentum
• Biomechanics
• Bioelectricity
• Bioenergetics
• Fluid mechanics and dynamics
• Data analysis
• Biostatistics

Packed with problem sets, examples, and original line drawings, Biodynamics is an invaluable text for advanced undergraduates, graduate students, and instructors in medicine, biology, physiology, biophysics, and bioengineering.

Authored by an acknowledged expert on muscle and movement imbalances, this well illustrated book presents a classification system of mechanical pain syndromes that is designed to direct the exercise prescription and the correction of faulty movement patterns. The diagnostic categories, associated muscle and movement imbalances, recommendations for treatment, examination, exercise principles, specific corrective exercises, and modification of functionalactivities for case management are described in detail. This book is designed to give practitioners an organized and structured method of analyzing the mechanical cause of movement impairment syndrome, the contributing factors and a strategy for management. * Provides the tools for the physical therapist to identify movement imbalances, establish the relevant diagnosis, develop the corrective exercise prescription and carefully instruct the patient about how to carry out the exercise program. * Authored by the acknowledged expert on movement system imbalances. * Covers both the evaluation process and therapeutic treatment. * Detailed descriptions of exercises for the student or practitioner. * Includes handouts to be photocopied and given to the patient for future reference.

This book is a practical guide to instrumented clinical gait analysis covering all aspects of routine service provision. It reinforces what is coming to be regarded as the conventional approach to clinical gait analysis. Data capture, processing and biomechanical interpretation are all described with an emphasis on ensuring high quality results. There are also chapters on how to set up and maintain clinical gait analysis services and laboratories.The book aims to describe the theoretical basis of gait analysis in conceptual terms. It then builds on this to give practical advice on how to perform the full spectrum of tasks that comprise contemporary clinical gait analysis.Readership- Professionals from either a clinical or technical background working within clinical gait analysis services.- The extensive sections on data capture and processing will also be invaluable for those using gait analysis for research purposes.- Clinicians receiving gait analysis reports and particularly those who base clinical decisions upon gait analysis results (e.g. orthopaedic surgeons) will find it useful in understanding where the data comes from and how it can be interpreted.- Physiotherapists

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 jobs-few if any books have focused exclusively on WRMSDs, until now. Biomechanics of the Upper Limbs: Mechanics, Modeling and Musculoskeletal Injuries, Second Edition offers vital information and tools to improve analysis of external forces and their effects on the human body. This can help ergonomists better understand job stressors and the role they play in the development of disorders, enabling them to modify the work environment and educate practitioners to better control harmful situations. Using the author's medical and engineering expertise to distill essential subject matter and useful technical data, this comprehensive text explores: Biomechanics of the upper limbs and the motor control system The structure and physiology of the human musculoskeletal and neuromuscular systems Recent research findings and solutions to various ergonomic problems Models of various components of the neuromuscular systems, as well as larger systems in the upper limbs Risk factors for disorders and tools used to identify their causes Designed as a textbook for a typical semester-long graduate-level engineering or kinesiology course, this book includes a link to an ancillary website that offers materials such as PowerPoint (R) slides, sample exams, and an instructor's manual with complete solutions. It also serves as a practical, up-to-date, engineering-oriented resource for researchers, industrial ergonomists, industrial hygienists, and medical professionals who require supplementary material.

Ideal for exercise science, athletic training, and physical therapy students, this updated edition of Knight and Draper'sTherapeutic Modalities: The Art and Science covers the knowledge and skills needed to select the best therapeutic modality for each client injury. This edition helps students hone their clinical decision-making skills by teaching both the how and the why of each therapeutic modality, offering the application that today's student craves. Retaining the accessible student-friendly writing style and focus on kinesthetic learning that made the book so successful, the third edition is enhanced by new chapters, new photos, and significant updates throughout that reflect the latest research and advances in the field. A focus on both the art and science of practice. The authors emphasize the importance of using evidence-based information while acknowledging that clinicians must also rely on experience and tradition when selecting the best modalities. New chapters on Positional Release Therapy, Nitrogen Vapor Cryotherapy, and Bio-Electro-Magnetic-Energy-Regulation (BEMER Opening) cover vital topics for today's professionals. Practical guidance. Each modality chapter is followed by step-by-step procedures for effectively using that modality in practice to prepare students for everyday challenges. Chapter-opening Scenes feature a short scenario that poses a situation related to chapter content, while chapter-closing Scenes complete the vignette, helping students see how content is put into practice. Five-Step Application Procedure Templates help students organize the information needed to apply a modality. Modality Myths present common misunderstandings and provide a scientific basis for setting the record straight. Concept Check exercises deepen understanding. Application Tips offer tips for practice and understanding. Reflections and Case Studies encourage students to reflect on and apply the different therapeutic modalities. Review Questions are ideal for review and self-testing. eBook available for purchase. Fast, smart, and convenient, today's eBooks can transform learning. These interactive, fully searchable tools offer 24/7 access on multiple devices, the ability to highlight and share notes, and more

This is a readable and attractively presented textbook on fluid flow in biological systems that includes flow through blood vessels, pulsatile flow, and pattern formation. It bridges the divide among biomedical engineering students between those with an engineering and those with a bio-scientific background, by offering guidance in both physiological and mathematical aspects of the subject. Every chapter includes surprising, amusing, and stimulating effects that the reader may want to experiment on their own. Brief historical vignettes are also included throughout this book. We in the 21st century can so easily turn to the computer to provide a solution, that we forget the extraordinary sparks of insight that scientists in centuries past had to rely on to provide us with the foundational understanding and analytical tools that we now depend on. This book is an attempt to maintain our roots in past investigations, while giving us wings to explore future ones.

Gait analysis is the study of the walking or running pattern of an individual. This can include spatial and temporal measurements such as step length, stride length and speed along with angular measurements of various joints and the interplay between various parts like the foot, hip, pelvis or spine when walking. Gait analysis can be used to assess clinical conditions and design effective rehabilitation; for example, following limb injury or amputation, or other disorders such as a stroke or Parkinson's diagnosis. It can be used to influence intervention decisions, such as whether a patient should undergo surgery, further physiotherapy, or begin a particular treatment regime. Gait analysis can also be used in sports science to monitor and review performance and technique. Gait can be recorded in a variety of ways, including pressure sensors, force plates, in-shoe pressure systems, through marker-based or marker-less systems using various cameras or sensors to calculate body positions in a set sequence of movements. This book focuses on both the hardware systems for collecting data as well as data visualisation and mathematical models for interpreting the data. It is written by a range of international researchers from academia, industry, and clinical settings, providing a complete overview of gait analysis technologies suitable for an audience of engineers in rehabilitation technologies or other biomedical engineering fields.

Move at your own pace with this kinesiology course guide A required course for majors pursuing sports medicine, exercise science, nursing, or sports therapy degrees, kinesiology is central to a variety of fields. Kinesiology For Dummies tracks an introductory course in the science and imparts the basics of human body movement. With this resource, you will learn how physical activity can alleviate chronic illnesses and disabilities, what factors contribute to musculoskeletal injury, and how to reverse those influences. Complete with a 16-page color insert of medical instructions, this book covers the basics of exercise physiology, exercise and health psychology, introductory biomechanics, motor control, history and philosophy of sport and exercise, and mind-body connections. * Written by experts in exercise science * Addresses a timely subject as exercise science careers and majors are increasingly popular * Runs parallel to a kinesiology course with accessible, concise language Interested learners, kinesiology students, and health or sports therapy professionals will benefit from this refresher course in the basics.

Cutting-edge solutions to current problems in orthopedics, supported by modeling and numerical analysis

Despite the current successful methods and achievements of good joint implantations, it is essential to further optimize the shape of implants so they may better resist extreme long-term mechanical demands. This book provides the orthopedic, biomechanical, and mathematical basis for the simulation of surgical techniques in orthopedics. It focuses on the numerical modeling of total human joint replacements and simulation of their functions, along with the rigorous biomechanics of human joints and other skeletal parts. The book includes:

An introduction to the anatomy and biomechanics of the human skeleton, biomaterials, and problems of alloarthroplasty

The definition of selected simulated orthopedic problems

Constructions of mathematical model problems of the biomechanics of the human skeleton and its parts

Replacement parts of the human skeleton and corresponding mathematical model problems

Detailed mathematical analyses of mathematical models based on functional analysis and finite element methods

Biomechanical analyses of particular parts of the human skeleton, joints, and corresponding replacements

A discussion of the problems of data processing from nuclear magnetic resonance imaging and computer tomography

This timely book offers a wealth of information on the current research in this field. The theories presented are applied to specific problems of orthopedics. Numerical results are presented and discussed from both biomechanical and orthopedic points of view and treatment methods are also briefly addressed. Emphasis is placed on the variational approach to the investigated model problems while preserving the orthopedic nature of the investigated problems. The book also presents a study of algorithmic procedures based on these simulation models.

This is a highly useful tool for designers, researchers, and manufacturers of joint implants who require the results of suggested experiments to improve existing shapes or to design new shapes. It also benefits graduate students in orthopedics, biomechanics, and applied mathematics.

"Clinical Mechanics and Kinesiology With Web Resource" provides a solid foundation so that students of physical therapy, occupational therapy, and athletic training can understand biomechanics and functional anatomy as they relate to both normal and abnormal movement. Written by active clinicians with more than 40 combined years of clinical and teaching experience, this text is also a practical reference for rehabilitation professionals working with a range of populations and pathologies.

Taking a clinical approach not found in other texts, "Clinical Mechanics and Kinesiology" follows a logical progression that maximizes learning. It first presents biomechanical principles that students must understand in order to examine and treat clients and patients undergoing rehabilitation. Next, it explores muscle and nerve physiology and function of the muscle and joint systems. Then the focus shifts to applying those concepts to specific joints. Divided into 10 regions, each joint is evaluated by the bones that make up the joints; the joint articulation, anatomy, and function; and the muscles that act on the joints. In the final section of the text, students gain insight into full-body movement patterns of particular concern to rehabilitation specialists. They will examine not only the usual topics of posture and walking gait but also running gait and the mechanics of jumping and cutting--some of the most common sources of injury.

"Clinical Mechanics and Kinesiology" is enhanced with over 360 pieces of full-color art. Unique combination figures integrate detailed bone illustrations and photos. Medical art displays locations of bones, muscles, and ligaments. Arthrokinematic motions are clearly shown with the appropriate skeletal locations, making it easy for students to see how a particular motion relates to the rest of the body. Several other features also aid in students' learning and retention:

- A one-year subscription to "Musculoskeletal Anatomy Review," an online anatomy program, provides an interactive forum for reviewing regional structural anatomy.

- Clinical Correlations included in each chapter help students increase their understanding of biomechanics and kinesiology and apply the theoretical content to clinical practice.

- Problem Sets and Practice It sidebars with activities in chapters 1 and 2 assist students in applying and mastering biomechanical concepts.

- Pedagogical aids such as chapter objectives and conclusions, key points, glossary terms, and review questions highlight important information so students can quickly grasp and review the main points.

Included with each new text is a key code allowing students one-year access to the online anatomy program "Musculoskeletal Anatomy Review." This engaging supplement offers a regional review of structural anatomy with exceptionally detailed, high-quality graphic images--the majority provided by Primal Pictures. Students can mouse over muscles and click for muscle identification. Each chapter features a pretest and posttest evaluation to help students pinpoint knowledge gaps and test their retention. Students may take the pretest multiple times (it is generated randomly so it will never be the same), but students may take the posttest only once. Test results can be printed and turned in, giving instructors the option to use the tests as a grading tool.

In addition, instructors will have online access to an instructor guide, image bank, and test package. The instructor guide further encourages students' learning by offering class assignments and lab activities not featured in the book. The class assignments, at least three per chapter, are quick activities that can be completed in class. The lab activities are longer assignments intended to be completed outside the classroom by pairs of students. Each lab contains an overview, a statement of purpose, a list of equipment needed, and instruction on data collection and analysis.

Written for students and practitioners of rehabilitation programs, "Clinical Mechanics and Kinesiology" provides a foundation in kinesiology reinforced by numerous clinically applicable examples. Students will gain a strong understanding of mechanical principles governing human motion, with particular knowledge of both normal and abnormal functional motions, and be able to apply their knowledge directly to rehabilitation protocols.

Presents Current Principles and Applications Biomedical engineering is considered to be the most expansive of all the engineering sciences. Its function involves the direct combination of core engineering sciences as well as knowledge of nonengineering disciplines such as biology and medicine. Drawing on material from the biomechanics section of The Biomedical Engineering Handbook, Fourth Edition and utilizing the expert knowledge of respected published scientists in the application and research of biomechanics, Biomechanics: Principles and Practices discusses the latest principles and applications of biomechanics and outlines major research topics in the field. This book contains a total of 20 chapters. The first group of chapters explores musculoskeletal mechanics and includes hard and soft-tissue mechanics, joint mechanics, and applications related to human function. The next group of chapters covers biofluid mechanics and includes a wide range of circulatory dynamics, such as blood vessel and blood cell mechanics and transport. The following group of chapters introduces the mechanical functions and significance of the human ear, including information on inner ear hair cell mechanics. The remaining chapters introduce performance characteristics of the human body system during exercise and exertion. Introduces modern viewpoints and developments Highlights cellular mechanics Presents material in a systematic manner Contains over 100 figures, tables, and equations Biomechanics: Principles and Practices functions as a reference for the practicing professional as well as an introduction for the bioengineering graduate student with a focus in biomechanics, biodynamics, human performance engineering, and human factors.

This volume presents the contributions of the third International Conference on Advancements of Medicine and Health Care through Technology (Meditech 2011), held in in Cluj-Napoca, Romania.
The papers of this Proceedings volume present new developments in
- Health Care Technology,
- Medical Devices, Measurement and Instrumentation,
- Medical Imaging, Image and Signal Processing,
- Modeling and Simulation,
- Molecular Bioengineering,
- Biomechanics.

"I recommend that you read and use the information in this book to provide your athletes with the best chances of performing at their best"
from the foreword by Sir Clive Woodward, Olympic Performance Director, British Olympic Association

This book provides the latest scientific and practical information in the field of strength and conditioning.

The text is presented in four sections, the first of which covers the biological aspects of the subject, laying the foundation for a better understanding of the second on the biological responses to strength and conditioning programs. Section three deals with the most effective monitoring strategies for evaluating a training program and establishing guidelines for writing a successful strength and conditioning program. The final section examines the role of strength and conditioning as a rehabilitation tool and as applied to those with disabilities.

This book is an invaluable textbook and reference both for academic programs and for the continuing education of sports professionals.Integrates the latest research on physiological, anatomical and biomechanical aspects of strength and conditioningOffers numerous practical examples of applicationsProvides guidelines for writing and monitoring effective strength training programs

With mathematical and computational models furthering our understanding of lung mechanics, function and disease, this book provides an all-inclusive introduction to the topic from a quantitative standpoint. Focusing on inverse modeling, the reader is guided through the theory in a logical progression, from the simplest models up to state-of-the-art models that are both dynamic and nonlinear. Key tools used in biomedical engineering research, such as regression theory, linear and nonlinear systems theory, and the Fourier transform, are explained. Derivations of important physical principles, such as the Poiseuille equation and the wave speed equation, from first principles are also provided. Example applications to experimental data throughout illustrate physiological relevance, whilst problem sets at the end of each chapter provide practice and test reader comprehension. This book is ideal for biomedical engineering and biophysics graduate students and researchers wishing to understand this emerging field.

Although the effects of exercise and mechanical forces on musculoskeletal and cardiovascular systems have been well documented, the actual mechanisms by which mechanical forces act at the cellular level are not well understood. At present, studies of the interaction of mechanical forces with cells encompass many different cell types in various tissues. This volume draws together these apparently disparate observations and makes comparisons between the nature of cellular responses in different tissues. Studies of cells derived from skeletal muscle, bone and cardiovascular tissue are considered to provide a comprehensive synthesis and review of recent work. The volume will be of interest to all those working in musculoskeletal and cardiovascular biology, as well as those taking courses in exercise and sport science, biomechanics and orthopaedics.

This classic book is accepted internationally as the standard treatment of the mechanical properties of biological fluids, solids, tissues and organs. It is used widely as both a reference and textbook in this rapidly-growing field. Biomechanics presents a general outline of the discipline, with applications to bioengineering, physiology, medicine and surgery. The second edition reflects the broad advances that have been made in this field during the past decade, and adds numerous new topics. References have been brought up to date, and the widely-praised emphasis on formulating and solving problems has been strengthened with numerous new problems. This book begins with a unique historical introduction to the field of biomechanics, followed by a vital chapter which relates the definitions and vocabulary of applied mechanics to biological tissues. These tools are then used to treat in detail the mechanical properties of blood, including blood cells and vessels. The remaining chapters discuss the viscoelastic properties of biological fluids and solids, as well as the mechanics of muscle, bone and connective tissue.

This book presents the state of the art in mathematical research on modelling the mechanics of biological systems - a science at the intersection between biology, mechanics and mathematics known as mechanobiology. The book gathers comprehensive surveys of the most significant areas of mechanobiology: cell motility and locomotion by shape control (Antonio DeSimone); models of cell motion and tissue growth (Benoit Perthame); numerical simulation of cardiac electromechanics (Alfio Quarteroni); and power-stroke-driven muscle contraction (Lev Truskinovsky). Each section is self-contained in terms of the biomechanical background, and the content is accessible to all readers with a basic understanding of differential equations and numerical analysis. The book disentangles the phenomenological complexity of the biomechanical problems, while at the same time addressing the mathematical complexity with invaluable clarity. The book is intended for a wide audience, in particular graduate students and applied mathematicians interested in entering this fascinating field.

Dynamic Modeling of Musculoskeletal Motion introduces biomechanists to modern methods of modeling and analyzing dynamic biomechanical systems in three dimensions. Using vector kinematics, the reader is taught a systematic method which significantly reduces the complexity of working with multiple, moving limb segments in three dimensions. Operations which usually require the application of differential calculus are replaced by simple algebraic formulae. To derive dynamical equations of motion, a practical introduction to Kane's Method is given.

Kane's Method builds upon the foundation of vector kinematics and represents one of the most exciting theoretical developments of the modern era. Together, these techniques enable biomechanists to decipher and model living systems with great realism, efficiency and accuracy. Interwoven with the theoretical presentation are chapters and examples which highlight the subtle differences between inanimate linkages and the biomechanical systems we seek to understand.

ALL-ENCOMPASSING and EXPANDED, now covering the WHOLE BODY (lower quadrant PLUS upper quadrant and spine) - The Comprehensive Textbook of Clinical Biomechanics (formerly Biomechanics in Clinic and Research) presents the latest research in a form which is accessible, practical, thorough and up-to-the minute. Written by a leading expert in the field, The Comprehensive Textbook of Clinical Biomechanics includes a unique online course including high-quality animations, interactive tests and clear explanations will enable you to gain a confident understanding of the clinical aspects of biomechanics. . Starts from basic principles and builds up to complex concepts . Highly practical with a constant clinical emphasis . Written for all health care professionals including physiotherapists and podiatrists . Addition of upper quadrant and spine . Title has changed to truly reflect the resource's expanded and comprehensive approach . Case studies and additional clinical examples . New methods in EMG analysis . Updated elearning course which is compatible with tablet and mobile devices . A global team of writers

Osteopathy in the care of athletes is a rapidly developing area, as many realise it's what this health care system has to offer. In this research-based book, the author puts forward osteopathic approaches that are at the forefront of athletic care in both the UK and the USA. This book applies osteopathic practice and principles to athletic care both on and off the field. It is written for practitioners and students of osteopathy, medicine, physiotherapy, occupational therapy and those working in general practice. This book shows, for the first time, osteopathy as it was meant to be practiced.

How does your opponent put that tricky spin on the ball? Why are some serves easier to return than others? The mysteries behind the winning strokes, equipment, and surfaces of the game of tennis are accessibly explained by Howard Brody through the laws of physics. And he gives practical pointers to ways players can use this understanding to advantage in the game.Through extensive laboratory testing and computer modeling, Brody has investigated the physics behind the shape of the tennis racket, the string pattern, the bounce of the tennis ball, the ways a particular court surface can determine the speed of the game, and the many other physical factors involved in tennis.