Biomechanical Analysis of Wheelchair Propulsion PDF Download
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Author: Michael D. McDonald
Publisher:
ISBN:
Category : Biomechanics
Languages : en
Pages : 108
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Book Description
Author: Michael D. McDonald
Publisher:
ISBN:
Category : Biomechanics
Languages : en
Pages : 108
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Book Description
Author: Justin Michael Pedersen
Publisher:
ISBN:
Category : Biomechanics
Languages : en
Pages : 84
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Author: Margaret Ann Schneller
Publisher:
ISBN:
Category :
Languages : en
Pages : 364
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Book Description
Author: Konstantinos Vrongistinos
Publisher:
ISBN:
Category : Biomechanics
Languages : en
Pages : 492
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Book Description
Author: Philip Santos Requejo
Publisher: Frontiers Media SA
ISBN: 288919938X
Category : Biotechnology
Languages : en
Pages : 93
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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: L. H. V. van der Woude
Publisher: IOS Press
ISBN: 9789051994421
Category : Health & Fitness
Languages : en
Pages : 396
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Book Description
Mobility is fundamental to health, social integration and individual well-being of the human being. Henceforth, mobility must be viewed as being essential to the outcome of the rehabilitation process of wheelchair dependent persons and to the successful (re-)integration into society and to a productive and active life. Many lower limb disabled subjects depend upon a wheelchair for their mobility. Estimated numbers for the Netherlands, Europe and USA are respectively 80.000, 2,5 million and 1,25 million wheelchair dependent individuals. Groups large enough to allow a special research focus and conference activity. Both the quality of the wheelchair, the individual work capacity, the functionality of the wheelchair/user combination, and the effectiveness of the rehabilitation programme do indeed determine the freedom of mobility. Their optimization is highly dependent upon a continuous and high quality research effort, in combination with regular discussion and dissemination with practitioners. The book intends to give a state of the art view on the current fundamental, clinical and applied research findings and their consequences upon wheelchair propulsion, arm work, wheelchair training and possible consequences of a wheelchair confined life style. Also its implications for rehabilitation, as well as alternative modes of ambulation and activity in the wheelchair confined population, such as functional electrical stimulation and its possible future developments, are dealt with.
Author: Alyssa J. Paul
Publisher:
ISBN:
Category : Arm
Languages : en
Pages :
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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: 林倩如
Publisher:
ISBN:
Category :
Languages : en
Pages : 174
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Book Description
Author: Hendricus Elias Johannes Veeger
Publisher:
ISBN: 9789053890165
Category : Propulsion systems
Languages : en
Pages : 152
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Book Description
Author: Rebecca A. Boerigter
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
