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Author: Ryan Kalkbrenner
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
INTRODUCTIONStudies of the musculoskeletal structure of sprinters suggest that sprinters differ from their non-sprinting counterparts in several ways that have the potential to affect sprinting performance. The plantarflexor (PF) muscles have received the bulk of this attention. Sprinters have been shown to have longer PF muscle fascicles, lesser PF pennation, and shorter moment arms for the Achilles tendon [1,2,3]. Characteristics such as these should facilitate the production of work at high shortening velocities, and this has been demonstrated using musculoskeletal computer simulations [2,3]. The relationship of these differences to actual human performance, however, is the subject of some controversy. Sprint performance has been shown to correlate with PF fascicle length [4], but another study showed neither differences in PF properties between fast and slow sprinters nor correlation between these properties and performance [5].The purpose of this study was to test (1) whether sprinters are less affected by the effects of speed than non-sprinters when generating maximal PF moments in a dynamometer; and (2) if enhanced isokinetic PF strength among sprinters is associated with variation in musculoskeletal structure.METHODSThe participants in this study were 6 club-level collegiate sprinters (178±2 cm; 74±5 kg; 22±2 y) and 9 non-sprinters (179±6 cm; 79±16 kg; 21±2 y). There were no significant differences between the sprinter and non-sprinter groups in terms of stature, mass, BMI, or age (all p >= 0.541). All participants provided informed consent and all experimental procedures were approved by the Institutional Review Board of The Pennsylvania State University.Photographs were made of each participant's right foot in order to derive foot anthropometric measurements, including the distance from the lateral malleolus posterior to the Achilles tendon, which we used as a proxy for Achilles tendon moment arm. B-mode ultrasonography (Aloka 1100; transducer: SSD-625, 7.5 MHz and 39 mm scan width) was used to capture still images of the gastrocnemius lateralis (GL) as each participant stood. From these images we obtained measures of GL thickness t and pennation angle [alpha]; the fascicle length was calculated from these measures according tolF = t / sin([theta]).Plantar flexor strength was measured with subjects seated in a System 3 isokinetic dynamometer (Biodex Medical Systems) with the right foot unshod. Maximal plantar flexor torque was measured under isometric conditions and isokinetic conditions as the foot plate was rotated in the plantar flexion direction at 30 °/s, 120 °/s, and 210 °/s. Plantarflexor moment was assessed as the ankle passed through its neutral position at each speed in order to minimize length-dependent effects.T-tests were performed to identify sprinter-non-sprinter differences in the measured variables. A mixed model ANOVA was used to test for the influence of speed and group on maximum isokinetic moment normalized by isometric moment. Finally, simple regressions were done to identify correlations between isokinetic strength and fascicle length, moment arm, and pennation angle. The level of significance for these tests was set at p
Author: Ryan Kalkbrenner
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
INTRODUCTIONStudies of the musculoskeletal structure of sprinters suggest that sprinters differ from their non-sprinting counterparts in several ways that have the potential to affect sprinting performance. The plantarflexor (PF) muscles have received the bulk of this attention. Sprinters have been shown to have longer PF muscle fascicles, lesser PF pennation, and shorter moment arms for the Achilles tendon [1,2,3]. Characteristics such as these should facilitate the production of work at high shortening velocities, and this has been demonstrated using musculoskeletal computer simulations [2,3]. The relationship of these differences to actual human performance, however, is the subject of some controversy. Sprint performance has been shown to correlate with PF fascicle length [4], but another study showed neither differences in PF properties between fast and slow sprinters nor correlation between these properties and performance [5].The purpose of this study was to test (1) whether sprinters are less affected by the effects of speed than non-sprinters when generating maximal PF moments in a dynamometer; and (2) if enhanced isokinetic PF strength among sprinters is associated with variation in musculoskeletal structure.METHODSThe participants in this study were 6 club-level collegiate sprinters (178±2 cm; 74±5 kg; 22±2 y) and 9 non-sprinters (179±6 cm; 79±16 kg; 21±2 y). There were no significant differences between the sprinter and non-sprinter groups in terms of stature, mass, BMI, or age (all p >= 0.541). All participants provided informed consent and all experimental procedures were approved by the Institutional Review Board of The Pennsylvania State University.Photographs were made of each participant's right foot in order to derive foot anthropometric measurements, including the distance from the lateral malleolus posterior to the Achilles tendon, which we used as a proxy for Achilles tendon moment arm. B-mode ultrasonography (Aloka 1100; transducer: SSD-625, 7.5 MHz and 39 mm scan width) was used to capture still images of the gastrocnemius lateralis (GL) as each participant stood. From these images we obtained measures of GL thickness t and pennation angle [alpha]; the fascicle length was calculated from these measures according tolF = t / sin([theta]).Plantar flexor strength was measured with subjects seated in a System 3 isokinetic dynamometer (Biodex Medical Systems) with the right foot unshod. Maximal plantar flexor torque was measured under isometric conditions and isokinetic conditions as the foot plate was rotated in the plantar flexion direction at 30 °/s, 120 °/s, and 210 °/s. Plantarflexor moment was assessed as the ankle passed through its neutral position at each speed in order to minimize length-dependent effects.T-tests were performed to identify sprinter-non-sprinter differences in the measured variables. A mixed model ANOVA was used to test for the influence of speed and group on maximum isokinetic moment normalized by isometric moment. Finally, simple regressions were done to identify correlations between isokinetic strength and fascicle length, moment arm, and pennation angle. The level of significance for these tests was set at p
Author: Christer Johansson
Publisher:
ISBN: 9789171743053
Category : Leg
Languages : en
Pages : 84
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Author: Anne Shumway-Cook
Publisher: Lippincott Williams & Wilkins
ISBN: 1975217667
Category : Medical
Languages : en
Pages : 1270
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Book Description
Motor Control: Translating Research into Clinical Practice, 6th Edition, is the only text that bridges the gap between current and emerging motor control research and its application to clinical practice. Written by leading experts in the field, this classic resource prepares users to effectively assess, evaluate, and treat clients with problems related to postural control, mobility, and upper extremity function using today’s evidence-based best practices. This extensively revised 6th Edition reflects the latest advances in research and features updated images, clinical features, and case studies to ensure a confident transition to practice. Each chapter follows a consistent, straightforward format to simplify studying and reinforce understanding of normal control process issues, age-related issues, research on abnormal function, clinical applications of current research, and evidence to support treatments used in the rehabilitation of patients with motor control problems.
Author: Roger Bartlett
Publisher: Routledge
ISBN: 1135818177
Category : Science
Languages : en
Pages : 304
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Book Description
First published in 1996. Routledge is an imprint of Taylor & Francis, an informa company.
Author: Urs Granacher
Publisher: Frontiers Media SA
ISBN: 2889456277
Category :
Languages : en
Pages : 308
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Book Description
The Frontiers Research Topic entitled "Neuromuscular Training and Adaptations in Youth Athletes" contains one editorial and 22 articles in the form of original work, narrative and systematic reviews and meta-analyses. From a performance and health-related standpoint, neuromuscular training stimulates young athletes' physical development and it builds a strong foundation for later success as an elite athlete. The 22 articles provide current scientific knowledge on the effectiveness of neuromuscular training in young athletes.
Author: Gary L. Harrelson
Publisher:
ISBN:
Category : Medical
Languages : en
Pages : 716
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Book Description
Represents collaboration among orthopaedists, physical trainers, and athletic trainers. It reviews the rehabilitation needs for all types of sports injuries, stressing the treatment of the entire kinetic chain with various exercises. Chapters have been extensively revised, featuring new concepts and techniques. The 3rd edition includes four new chapters (Proprioception and Neuromuscular Control; Cervical Spine Rehabilitation; Functional Training and Advanced Rehabilitation; and Plyometrics), new contributors and new features, such as summary boxes and tables.
Author: David A. Winter
Publisher: Champaign, Ill. : Human Kinetics Publishers
ISBN:
Category : Science
Languages : en
Pages : 616
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Book Description
Author: Scott L. Hooper
Publisher: John Wiley & Sons
ISBN: 1118873408
Category : Medical
Languages : en
Pages : 510
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Book Description
A multi-disciplinary look at the current state of knowledge regarding motor control and movement—from molecular biology to robotics The last two decades have seen a dramatic increase in the number of sophisticated tools and methodologies for exploring motor control and movement. Multi-unit recordings, molecular neurogenetics, computer simulation, and new scientific approaches for studying how muscles and body anatomy transform motor neuron activity into movement have helped revolutionize the field. Neurobiology of Motor Control brings together contributions from an interdisciplinary group of experts to provide a review of the current state of knowledge about the initiation and execution of movement, as well as the latest methods and tools for investigating them. The book ranges from the findings of basic scientists studying model organisms such as mollusks and Drosophila, to biomedical researchers investigating vertebrate motor production to neuroengineers working to develop robotic and smart prostheses technologies. Following foundational chapters on current molecular biological techniques, neuronal ensemble recording, and computer simulation, it explores a broad range of related topics, including the evolution of motor systems, directed targeted movements, plasticity and learning, and robotics. Explores motor control and movement in a wide variety of organisms, from simple invertebrates to human beings Offers concise summaries of motor control systems across a variety of animals and movement types Explores an array of tools and methodologies, including electrophysiological techniques, neurogenic and molecular techniques, large ensemble recordings, and computational methods Considers unresolved questions and how current scientific advances may be used to solve them going forward Written specifically to encourage interdisciplinary understanding and collaboration, and offering the most wide-ranging, timely, and comprehensive look at the science of motor control and movement currently available, Neurobiology of Motor Control is a must-read for all who study movement production and the neurobiological basis of movement—from molecular biologists to roboticists.
Author: James R. Andrews
Publisher: Elsevier Health Sciences
ISBN: 0702036056
Category : Medical
Languages : en
Pages : 897
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Book Description
The latest edition of this in-depth look at athletic injuries of the shoulder has been updated to feature 16 new chapters, additional illustrations and algorithms, an added focus on arthroscopic treatments, and pearls that highlight key information. Additional contributing authors give you a fresh spin on new and old topics from rehabilitation exercises to special coverage of female athletes, pediatrics, and golfers. This book offers coverage of arthroscopy, total joint replacement, instability, football, tennis, swimming, and gymnastic injuries, rotator cuff injuries, and much, much more! The large range of topics covered in this text ensures that it's a great resource for orthopaedists, physical therapists, athletic trainers, and primary care physicians. - Presents a multidisciplinary approach to the care of the shoulder, combining contributions from the leaders in the field of orthopedic surgery, physical therapy, and athletic training. - Demonstrates which exercises your patients should perform in order to decrease their chance of injury or increase strength following an injury through illustrated exercises for rehabilitation and injury prevention. - Illustrates how the shoulder is affected during activity of certain sports with a variety of tables and graphs. - Covers a large range of topics including all shoulder injuries to be sufficiently comprehensive for both orthopaedists and physical therapists/athletic trainers.Features 16 new chapters, including Internal Impingement, Bankarts: Open vs. Arthroscopy, Adhesive Capsulitis of the Shoulder, Cervicogenic Shoulder Pain, Proprioception: Testing and Treatment, and more. - Details current surgical and rehabilitation information for all aspects of shoulder pathology to keep you up-to-date. - Organizes topics into different sections on anatomy, biomechanics, surgery, and rehabilitation for ease of reference.
Author: Mahmut Nedim Doral
Publisher: Springer Nature
ISBN: 3642365698
Category : Medical
Languages : en
Pages : 3295
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Book Description
Sports Injuries: Prevention, Diagnosis, Treatment and Rehabilitation covers the whole field of sports injuries and is an up-to-date guide for the diagnosis and treatment of the full range of sports injuries. The work pays detailed attention to biomechanics and injury prevention, examines the emerging treatment role of current strategies and evaluates sports injuries of each part of musculoskeletal system. In addition, pediatric sports injuries, extreme sports injuries, the role of physiotherapy, and future developments are extensively discussed. All those who are involved in the care of patients with sports injuries will find this textbook to be an invaluable, comprehensive, and up-to-date reference.
