From cell phones to treating cancer, EM energy plays a part in many of the innovations that we take for granted everyday. A basic force of nature, like nuclear energy or gravity, this energy can be harnessed and used, but still holds the potential to be harmful. The question remains, how safe are EM products? Bioeffects and Therapeutic Applicati
The book deals with the analysis of oscillations, mechanical and electromagnetic waves, and their use in medicine. Each chapter contains the theoretical basis and the use of relevant phenomena in medical practice. Description of oscillations is important for understanding waves and the nature of magnetic resonance. A chapter on mechanical waves describes the origin and properties of sound, infrasound and ultrasound, their medical applications, and perception of sound by human hearing. A chapter on electromagnetic waves examines their origin, properties, and applications in therapy and diagnostics. Subsequent chapters describe how interference and diffraction lead to applications like optical imaging, holography, virtual reality, and perception of light by human vision. Also addressed is how quantum properties of radiation helped develop the laser scalpel, fluorescence microscopy, spectroscopy, X-rays, and gamma radiation.
The industrial interest in ultrasonic processing has revived during recent years because ultrasonic technology may represent a flexible "green alternative for more energy efficient processes. A challenge in the application of high-intensity ultrasound to industrial processing is the design and development of specific power ultrasonic systems for large scale operation. In the area of ultrasonic processing in fluid and multiphase media the development of a new family of power generators with extensive radiating surfaces has significantly contributed to the implementation at industrial scale of several applications in sectors such as the food industry, environment, and manufacturing. Part one covers fundamentals of nonlinear propagation of ultrasonic waves in fluids and solids. It also discusses the materials and designs of power ultrasonic transducers and devices. Part two looks at applications of high power ultrasound in materials engineering and mechanical engineering, food processing technology, environmental monitoring and remediation and industrial and chemical processing (including pharmaceuticals), medicine and biotechnology. - Covers the fundamentals of nonlinear propagation of ultrasonic waves in fluids and solids. - Discusses the materials and designs of power ultrasonic transducers and devices. - Considers state-of-the-art power sonic applications across a wide range of industries.
A volume in the Contemporary Perspectives in Rehabilitation Series, curated by Steven L. Wolf, PhD, PT, FAPTA Implement a current, evidence-based approach to the selection, application, and uses of therapeutic modalities as an essential tool for functionally based rehabilitation and as a complement to other types of interventions in a patient-centered model of care. The 7th Edition of this groundbreaking text fosters an in-depth understanding of the science behind each modality, its advantages and limitations, its appropriateness for specific conditions, and its implementation. A hands-on problem-solving approach promotes the development of essential clinical decision-making skills through a wealth of full-color photographs and illustrations, special features, and challenging cases studies. See what students and practitioners are saying about the previous edition… Recommend this book. “Great clinical reference for young therapists and seasoned therapists alike. Great information in a nicely organized book.”—Jane D., Online Reviewer Excellent book “Excellent content. Therapeutic modalities and many more... including spinal decompression devices.”—Online Reviewer
As CAM becomes widely accepted, rehabilitation professionals are incorporating CAM concepts and techniques into their own practice. This book will help them to gain an understanding of the field, and to acquire specific knowledge and skills which they can apply to the treatment of movement related disorders.
Therapeutic Modalities for Musculoskeletal Injuries, Fourth Edition With Online Video, offers comprehensive coverage of evidence-based therapies for rehabilitation of musculoskeletal injuries. The information aligns with the Board of Certification’s Role Delineation Study/Practice Analysis, Sixth Edition, and the Commission on Accreditation of Athletic Training Education’s Athletic Training Education Competencies, Fifth Edition, and is a vital resource for students preparing for examinations as well as professionals in the field who wish to stay informed of the latest research. Therapeutic Modalities for Musculoskeletal Injuries, Fourth Edition, applies evidence-based research and clinical experiences of top practitioners in the field to optimize the care of musculoskeletal injuries and provides students and practitioners with solid fundamentals in development of rehabilitation programs. The content of this fourth edition has been significantly updated and revitalized to include all modalities that coincide with BOC requirements and offers the latest in contemporary science in the field. Further updates include the following: • New online video that corresponds to modalities discussed throughout the text, directly demonstrating how to apply techniques to individual patients • A new chapter on mechanobiology that provides new understanding of the effects of movement and activity on cell function • A new chapter on the application of exercise as a stimulus for tissue repair • Additional information on the principles and clinical applications of cold, heat, electrotherapy, laser, and ultrasound • Updated and revamped case studies and guided scenarios that apply all modalities found throughout the book to real-world situations The content of the book is organized in parts to logically address therapeutic interventions for musculoskeletal injuries. Part I explains the core concepts of therapy, specifically in terms of clinical practice, and part II addresses the physiology of the acute response to tissue damage, tissue repair, and pain. Part III examines electrical modalities for pain management, provides an introduction to neuromuscular control, and addresses the use of biofeedback and neuromuscular stimulation to restore neuromuscular control in rehabilitation. Parts IV and V delve into a critical evaluation of therapeutic applications of cold, superficial heat, ultrasound, electromagnetic fields, and low-power laser therapy. Part VI examines foundational concepts of mechanobiology and explains how and why exercise and mechanical forces are essential to musculoskeletal tissue repair. Part VII brings all of the concepts from the text together through a series of case studies and guided scenarios, which allow students to apply fundamentals to real-world situations. Therapeutic Modalities for Musculoskeletal Injuries, Fourth Edition With Online Video, contains many learning features to assist comprehension, including chapter objectives, key terms and a glossary, sidebars with clinical application of current concepts, and chapter summaries. Additionally, access to 21 online videos of applying modalities in clinical practice will help students better understand concepts from the text. For instructors, a robust set of ancillaries is provided, including a fully updated test package and instructor guide, as well as a newly added presentation package plus image bank to assist with lecture preparation. Ancillary material can be accessed online at www.HumanKinetics.com/TherapeuticModalitiesForMusculoskeletalInjuries. Therapeutic Modalities for Musculoskeletal Injuries, Fourth Edition, explains how to apply each therapy and addresses why and when a therapeutic intervention can improve the outcome of care. Students and professionals alike will develop stronger decision-making skills when determining the safest and most effective use of each treatment method.
To keep abreast with current developments in medicine, members of the health care team require a firm grasp of science to cope with changes in technology and understanding of the mechanisms of body function. This is in addition to developing a range of interpersonal and communication skills. There are sections covering biology, chemistry, physics, nutrition, biochemistry, medical microbiology and physiology. Highly illustrated, it includes over a hundred applications and examples to assist the reader in relating science to health care. Throughout, the text is divided into units containing a common theme, and each chapter contains a list of objectives and a summary.
Comprehensive Coverage of Therapeutic Modalities Used in a Clinical Setting A Doody's Core Title for 2011! Therapeutic Modalities in Rehabilitation is a theoretically based but practically oriented guide to the use of therapeutic modalities for practicing clinicians and their students. It clearly presents the basis for use of each different type of modality and allows clinicians to make their own decision as to which will be the most effective in a given situation. Presented in full color, the text describes various concepts, principles, and theories that are supported by scientific research, factual evidence, and experience of the authors in dealing with various conditions. The chapters in this text are divided into six parts: Part I––Foundations of Therapeutic Modalities begins with a chapter that discusses the scientific basis for using therapeutic modalities and classifies the modalities according to the type of energy each uses.. Guidelines for selecting the most appropriate modalities for use in different phases of the healing process are presented. Part II––Electrical Energy Modalities includes detailed discussions of the principles of electricity, and electrical stimulating currents, iontophoresis, and biofeedback. Part III––Thermal Energy Modalities discusses those modalities which produce a change in tissue temperatures through conduction including thermotherapy and cryotherapy. Part IV-Sound Energy Modalities discusses those modalities that utilize acoustic energy to produce a therapeutic effect. These include therapeutic ultrasound and a lesser known modality-extracorporal shockwave therapy. Part V––Electromagnetic Energy Modalities includes chapters on both the diathermies and low-level laser therapy. Part VI––Mechanical Energy Modalities includes chapters on traction, intermittent compression and therapeutic massage. Each chapter ins Parts II-IV discuss: the physiologic basis for use, clinical applications, specific techniques of application through the use of related laboratory activities, and relevant individual case studies for each therapeutic modality.
