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Author: Alyssa J. Paul Publisher: ISBN: Category : Arm Languages : en Pages :
Book Description
Biomechanical analysis has been used by many to evaluate upper extremity (UE) motion during human movement, including during the use of assistive devices such as crutches and walkers. However, few studies have been conducted to examine the upper extremity kinetics during wheelchair mobility, specifically within the pediatric population. In 2000, 90% of wheelchair users (1.5 million people) in the United States were manual wheelchair users, requiring the use of their upper body to maneuver the wheelchair as well as perform other activities of daily living. Among children under the age of 18, the wheelchair was the most used assistive mobility device at 0.12% of the USA population (about 88,000 children). Of these children, 89.9% (79,000) use manual wheelchairs. Associated with the leading causes of assistive mobility device usage in children and adolescents, are severe cases of osteogenesis imperfecta (OI), cerebral palsy (CP), myelomeningocele (MM) and spinal cord injury (SCI). Once confined to a wheelchair, the upper extremities must take over the responsibilities of the lower extremities, including mobility and other activities of daily living. For many individuals who are wheelchair-bound since childhood, pain and other pathological symptoms present by their mid to late 20{u2019}s. Due to increased life expectancy and continual wheelchair use, these injuries may cause the user to have reduced, or loss of, independent function as they age, further decreasing quality-of-life. Better knowledge of upper extremity dynamics during wheelchair propulsion can improve understanding of the onset and propagation of UE pathologies. This may lead to improvements in wheelchair prescription, design, training, and long-term/transitional care. Thereby, pathology onset may be slowed or prevented, and quality of life restored. In order to better understand and model the UE joints during wheelchair mobility three main goals must be accomplished: 1. Create an upper extremity kinematic model including: additional segments, more accurate representations of segments and joint locations, consideration of ease of use in the clinical setting with children. 2. Create the corresponding kinetic model to determine the forces and moments occurring at each joint. 3. Implement the model and collect preliminary data from children with UE pathology.
Author: Alyssa J. Paul Publisher: ISBN: Category : Arm Languages : en Pages :
Book Description
Biomechanical analysis has been used by many to evaluate upper extremity (UE) motion during human movement, including during the use of assistive devices such as crutches and walkers. However, few studies have been conducted to examine the upper extremity kinetics during wheelchair mobility, specifically within the pediatric population. In 2000, 90% of wheelchair users (1.5 million people) in the United States were manual wheelchair users, requiring the use of their upper body to maneuver the wheelchair as well as perform other activities of daily living. Among children under the age of 18, the wheelchair was the most used assistive mobility device at 0.12% of the USA population (about 88,000 children). Of these children, 89.9% (79,000) use manual wheelchairs. Associated with the leading causes of assistive mobility device usage in children and adolescents, are severe cases of osteogenesis imperfecta (OI), cerebral palsy (CP), myelomeningocele (MM) and spinal cord injury (SCI). Once confined to a wheelchair, the upper extremities must take over the responsibilities of the lower extremities, including mobility and other activities of daily living. For many individuals who are wheelchair-bound since childhood, pain and other pathological symptoms present by their mid to late 20{u2019}s. Due to increased life expectancy and continual wheelchair use, these injuries may cause the user to have reduced, or loss of, independent function as they age, further decreasing quality-of-life. Better knowledge of upper extremity dynamics during wheelchair propulsion can improve understanding of the onset and propagation of UE pathologies. This may lead to improvements in wheelchair prescription, design, training, and long-term/transitional care. Thereby, pathology onset may be slowed or prevented, and quality of life restored. In order to better understand and model the UE joints during wheelchair mobility three main goals must be accomplished: 1. Create an upper extremity kinematic model including: additional segments, more accurate representations of segments and joint locations, consideration of ease of use in the clinical setting with children. 2. Create the corresponding kinetic model to determine the forces and moments occurring at each joint. 3. Implement the model and collect preliminary data from children with UE pathology.
Author: Philip Santos Requejo Publisher: Frontiers Media SA ISBN: 288919938X Category : Biotechnology Languages : en Pages : 93
Book Description
For the manual wheelchair (MWC) user, loss of lower extremity function often places the burden for mobility and activities of daily living on the upper extremities. This e-book on Wheeled Mobility Biomechanics contains current research that provides insights into the mechanical demands and performance techniques during tasks associated with MWC. Our intent was to contribute to advancing the knowledge regarding the variables that promote or hinder an individual’s capacity to handle the daily manual wheeled mobility demands and gain greater insights into upper extremity loading consequences, predictors of pain onset and injury, and ultimately identify strategies for preserving health and functional mobility for the MWC user.
Author: Francisco Chinesta Publisher: Elsevier ISBN: 0323915760 Category : Technology & Engineering Languages : en Pages : 494
Book Description
Reduced Order Models for the Biomechanics of Living Organs, a new volume in the Biomechanics of Living Organisms series, provides a comprehensive overview of the state-of-the-art in biomechanical computations using reduced order models, along with a deeper understanding of the associated reduction algorithms that will face students, researchers, clinicians and industrial partners in the future. The book gathers perspectives from key opinion scientists who describe and detail their approaches, methodologies and findings. It is the first to synthesize complementary advances in Biomechanical modelling of living organs using reduced order techniques in the design of medical devices and clinical interventions, including surgical procedures. This book provides an opportunity for students, researchers, clinicians and engineers to study the main topics related to biomechanics and reduced models in a single reference, with this volume summarizing all biomechanical aspects of each living organ in one comprehensive reference. - Introduces the fundamental aspects of reduced order models - Presents the main computational studies in the field of solid and fluid biomechanical modeling of living organs - Explores the use of reduced order models in the fields of biomechanical electrophysiology, tissue growth and prosthetic designs
Author: Martha Bloyer Publisher: McGraw Hill Professional ISBN: 1264920105 Category : Medical Languages : en Pages : 539
Book Description
Everything you need to know to perform safe, effective physical therapy on babies, children, and teens Guide to Pediatric Physical Therapy provides pedagogy from top experts in the field to help you master the practice of PT for kids. This dynamic, easy-to-follow resource is filled with cases that help you apply concepts to real world situations, along with art and illustrations that reinforce what you have learned. Each chapter opens with a case, which is followed by two or three additional cases presented as boxed features. Critical information is presented in tables—particularly effective in helping you quickly digest key concepts. With more than 75 collective years teaching pediatric physical therapy, this author team are masters of the subject matter and know how today’s students prefer to learn. • Key tables highlight high-yield information • Each case study is followed by open-ended questions for to consider • Chapter summaries are presented in bullet form to make learning easy and quick • Q/A following summaries are written in NPTE Exam format
Author: Michael S. Kappy Publisher: Elsevier Health Sciences ISBN: 032326462X Category : Medical Languages : en Pages : 401
Book Description
Each year, Advances in Pediatrics brings you the best current thinking from the preeminent practitioners in your field. A distinguished editorial board identifies current areas of major progress and controversy and invites specialists to contribute original articles on these topics. These insightful overviews bring concepts to a clinical level and explore their everyday impact on patient care.
Author: Cynthia C Norkin Publisher: F.A. Davis ISBN: 0803658478 Category : Medical Languages : en Pages : 592
Book Description
Measure joint range of motion with the manual that set the standard. Here is all of the guidance you need to identify impairments successfully and assess rehabilitation status effectively. Thoroughly updated and revised to reflect today’s most current and complete research, the 5th Edition of this classic book retains the unique features that have set this manual apart as the reference of choice. For each measurable joint in the body, you’ll find a consistent, easy-to-follow format and exceptional photographs that depict range of motion and alignment, making it easy for you to visualize the examination and technique for each joint motion and muscle length test.
Author: Alyssa J. Paul
Author: Alyssa J. Paul
Author: Philip Santos Requejo
Author: Brooke A. Slavens
Author: Francisco Chinesta
Author: 
Author: Abu-Faraj, Ziad O.
Author: Martha Bloyer
Author: 
Author: Michael S. Kappy
Author: Cynthia C Norkin