Differences in Lower Limb Kinematics Between Female Athletes and Non-athletes During Bilateral Landing Tasks and Single Leg Step-downs PDF Download
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Author: Tamara Emeline Tompkins
Publisher:
ISBN:
Category : Leg
Languages : en
Pages : 0
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Book Description
Introduction: Specific movement patterns at the hip, knee and ankle during dynamic landing tasks have been associated with an increased risk of lower extremity injury. Training strategies have shown to be favourable in decreasing the risk of injury through addressing movement patterns that have been associated with increased injury risk. Objective: To determine differences in lower limb kinematics during three separate bilateral landing tasks (Drop Jump, Drop Landing, Slow Step Down) between female athletes and non-athletes. Methods: Lower extremity kinematic data were obtained using the Xsens MVN motion capture system for 12 university athletes, and 14 university non-athletes. Three-dimensional joint angles were determined for the hip, knee, and ankle at the instant of landing, and peak angles were determined throughout both landings. Peak angular velocities of the hip, knee and ankle joints, and minimum distance between the knees were found during landing. Jumping variables including jump height, ground contact time, flight time, reactive strength index, landing knee distance, minimum knee distance, and landing ankle distance were also analyzed. Results: The athletes, in general, landed with less plantarflexion at the ankle (p
Author: Tamara Emeline Tompkins
Publisher:
ISBN:
Category : Leg
Languages : en
Pages : 0
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Book Description
Introduction: Specific movement patterns at the hip, knee and ankle during dynamic landing tasks have been associated with an increased risk of lower extremity injury. Training strategies have shown to be favourable in decreasing the risk of injury through addressing movement patterns that have been associated with increased injury risk. Objective: To determine differences in lower limb kinematics during three separate bilateral landing tasks (Drop Jump, Drop Landing, Slow Step Down) between female athletes and non-athletes. Methods: Lower extremity kinematic data were obtained using the Xsens MVN motion capture system for 12 university athletes, and 14 university non-athletes. Three-dimensional joint angles were determined for the hip, knee, and ankle at the instant of landing, and peak angles were determined throughout both landings. Peak angular velocities of the hip, knee and ankle joints, and minimum distance between the knees were found during landing. Jumping variables including jump height, ground contact time, flight time, reactive strength index, landing knee distance, minimum knee distance, and landing ankle distance were also analyzed. Results: The athletes, in general, landed with less plantarflexion at the ankle (p
Author: Frank R. Noyes
Publisher: Springer Science & Business Media
ISBN: 3642325920
Category : Medical
Languages : en
Pages : 536
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Book Description
Nearly a million anterior cruciate ligament (ACL) injuries occur each year worldwide, causing long-term problems in the knee joint. This textbook examines the short- and long-term impacts of ACL injuries on the basis of hundreds of published studies. Risk factors for such injuries are explored using data from hypothesis-driven investigations, and possible causes of the higher risk of noncontact ACL injuries in female athletes are analyzed. Neuromuscular training programs shown to reduce the rate of these injuries in female athletes are described in step-by-step detail with the aid of numerous color photographs and video demonstrations. In addition, detailed descriptions are provided for rehabilitation programs to be used after ACL reconstruction in order to reduce the risk of a future injury. The book will be of value to orthopedic surgeons, physical therapists, athletic trainers, sports medicine primary care physicians, and strength and conditioning specialists.
Author: Frank R. Noyes
Publisher: Elsevier Health Sciences
ISBN: 032342855X
Category : Medical
Languages : en
Pages : 1176
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Book Description
Frank R. Noyes, MD – internationally-renowned knee surgeon and orthopaedic sports medicine specialist – presents this unparalleled resource on the diagnosis, management, and outcomes analysis for the full range of complex knee disorders. Relies on Dr. Noyes’ meticulous clinical studies and outcomes data from peer-reviewed publications as a scientifically valid foundation for patient care. Features detailed post-operative rehabilitation programs and protocols so that you can apply proven techniques and ease your patients’ progression from one phase to the next. Presents step-by-step descriptions on soft tissue knee repair and reconstruction for anterior cruciate ligament reconstruction, meniscus repair, soft tissue transplants, osseous malalignments, articular cartilage restoration, posterior cruciate ligament reconstruction, and more to provide you with guidance for the management of any patient. Contains today’s most comprehensive and advanced coverage of ACL,PCL, posterolateral, unicompartmental knee replacement, return to sports after injury, along with 1500 new study references supporting treatment recommendations. Features all-new content on unicompartmental and patellofemoral knee replacement, updated operative procedures for posterior cruciate ligament and posterolateral ligament deficiency, updated postoperative rehabilitation protocols, and new information on cartilage restoration procedures and meniscus transplantation. Includes some of the most comprehensive and advanced discussions on arthrofibrosis, complex regional pain syndrome, tibial and femoral osteotomies, and posterolateral reconstructions available in modern published literature. Covers gender disparities in ligament injuries for more effective analysis and management.
Author: Michele Lynett Pye
Publisher:
ISBN:
Category : Anterior cruciate ligament
Languages : en
Pages : 206
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Book Description
"High risk neuromuscular control strategies during landing and cutting maneuvers are thought to be a major contributing factor to the 6 times greater risk of ACL injury in female athletes compared to male athletes. However, female dancers who have similar fitness capabilities and perform many of the same cutting and landing tasks as female athletes are less likely to display high risk neuromuscular strategies, have similar neuromuscular control strategies as male dancers, and are 3- 5 times less likely to suffer an ACL injury compared to female athletes. While multiple theories have been proposed to explain this protection in female dancers, preliminary research suggests female dancers may adopt a more protective neuromuscular control strategies as a result of their training practices. Therefore, the primary objective of this study was to comprehensively compare neuromuscular control strategies in collegiate female dancers and collegiate female field athletes to determine if female dancers demonstrate more protective neuromuscular control patterns during functional tasks as characterized by 1) decreased vertical ground reaction forces (vGRF), 2) quicker stabilization of the anterior-posterior and medial-lateral ground reaction force, 3) smaller distance between center of mass (COM) and location of center of pressure (COP), 4) decreased knee valgus, 5) increased ankle plantar flexion, 6) decreased knee extensor moment, and 7) quicker muscular activation. Forty collegiate females, 20 dancers (age= 20.4 ± 1.9 yrs, height= 164.8 ± 6.1 cm, weight= 63.5 ± 8.8kg, experience= 14.3 ± 3.9 yrs) and 20 athletes (age= 19.4± .9 yrs, height= 169.3 ± 7.1 cm, weight= 69.8 ± 13.0 kg, experience= 12.2 ± 2.9 yrs) matched on year of experience were measured for postural control during a dynamic forward hop stabilization task; hip, knee and ankle joint neuromechanics during a planned double leg drop landing; and reflex response characteristics during an unplanned lower extremity perturbation. Results revealed no significant differences between female athletes and dancers on muscle reflex time following a functional perturbation or in their time to stabilization during the dynamic balance test. During the drop jump landing, dancers versus athletes landed with lower vGRF [F (3, 33) = 3.44, p = .03, ES = .24], position their COM more anteriorly [F (1,38) = 4.8, p=.03], moved through a greater sagittal plane ROM [F (3, 36) = 4.6, p=.008] primarily driven by greater ankle joint excursion, and move through equal frontal plane motion at the hip and knee [F (2, 37) = 1.6 p=.23, Partial Eta Squared ()=.08]. The greater sagittal plane excursions values were largely a product of a more extended posture at ground contact and did not result in larger peak values. These findings suggest that dancers and athletes may have similar abilities to respond to postural perturbations, but that female dancers may demonstrate some elements of more protective neuromuscular control strategies during planned movements as a result of their training practices. Investigation of dance training may assist in the development of more protective strategies in dancers and inform our future prevention efforts in female athletics."--Abstract from author supplied metadata.
Author: Nicholas Romanchuk
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Despite the higher incidence of anterior cruciate ligament injuries in pediatric female populations, limited research has investigated sex-differences in youth biomechanics. Furthermore, research involving jump mechanics typically requires participant to follow a set protocol, such as sticking the landing. To reduce variability and improve reliability, trails where participants fail to meet the required protocol are discarded; however, significant clinical findings may be elucidated from these trials. The purpose of this thesis was to provide a complete biomechanical analysis of unanticipated single-leg drop-jump landings in youth athletes. Thirty-two healthy youth athletes completed unanticipated single-leg drop-jump landings on their dominant limb. Trials where participants shifted foot position or touched the ground with the contralateral leg were categorized as failed. Drop-jump landings were time-normalized using landmarks within the drop-jump task. Statistical parametric mapping (SPM) determined time-varying sex-differences in muscle onset time, co-activation, kinematics and kinetics. Wilcoxon signed-rank tests and paired sample t-tests compared lower-limb kinematics, centre-of-mass excursion and muscle activation amplitudes during the successful and failed landings. A logistic regression model was also fit to predict the likelihood of a successful landing. SPM identified significantly greater trunk flexion angle in males during the deceleration, flight, and landing phase of the drop-jump. Greater quadriceps-gastrocnemius co-activation was identified during the flight phase in female participants and independent sample t-test identified longer muscle onset time in the vastus lateralis of male participants. When comparing failed and successful landings greater hip abduction and less external rotation angles were observed during the successful trials. In addition, greater preparatory muscle activation was observed in the rectus femoris and semitendinosus during the flight phase of the failed landings. A logistic regression model, which included eight kinematic and neuromuscular variables, offered a training classification accuracy of 70% and a leave-one-out cross-validation accuracy of 65%. In conclusion, females land in a more erect posture and may be less effective at dissipating landing forces. In addition, greater co-activation and shorter pre-activations of the lower limb musculature may indicate a less effective muscle activation strategy in females. Furthermore, hip kinematics and the surrounding musculature play an important role in controlling successful and failed unanticipated landings. The variables included in the logistic regression model indicate which key factors are linked to landing a jump successfully. Training modalities aimed at improving landing mechanics should therefore focus on modifying these variables.
Author: Susan E. Wedekind
Publisher:
ISBN:
Category : Soccer
Languages : en
Pages : 180
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Book Description
Author: Robin West
Publisher: Elsevier Health Sciences
ISBN: 0323548407
Category : Medical
Languages : en
Pages : 400
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Book Description
This easy-to-read reference presents a succinct overview of clinically-focused topics covering the prevention, treatment, and rehabilitation of ACL injuries in the female athlete. Written by two professional team physicians, it provides practical, focused information for orthopaedic and sports medicine surgeons and physicians. Covers ACL injury risk factors and prevention, including biomechanics, biology, and anatomy of the female athlete. Discusses graft choices, the biology of healing, rehabilitation and return to play, future options for treatment, and more. Addresses special considerations such as pediatric ACL and revision ACL. Consolidates today’s available information and experience in this timely area into one convenient resource.
Author: Craig Williams
Publisher: Routledge
ISBN: 1134053517
Category : Science
Languages : en
Pages : 529
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Book Description
When human muscle fatigues, athletic performance becomes impaired. For those individuals suffering muscle or metabolic diseases the effects of muscle fatigue can make everyday tasks difficult. Understanding the scientific processes responsible for skeletal muscle fatigue is therefore central to the study of the physiology of sport, exercise and health. Written by a team of leading international exercise scientists, this book explores the mechanisms of muscle fatigue and presents a comprehensive survey of current research on this important topic. Examining the wide variety of protocols, assessment methods and exercise models used to study muscle fatigue, the book explores the differential effects of fatigue as influenced by: age gender fitness and training the use of ergogenic aids medical conditions including cerebral palsy, muscular dystrophy and glycogenosis. Human Muscle Fatigue covers both clinical and applied approaches in sport and exercise physiology and devotes an entire section to the conceptual framework underpinning research in this area, helping readers from a wide range of backgrounds to engage with the topic. Accessible and detailed, this book is a key text for students and practitioners working in exercise and sports science, medicine, physical therapy and health.
Author: Michal Lehnert
Publisher: Palacký University Olomouc
ISBN: 8024455595
Category : Medical
Languages : en
Pages : 182
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Book Description
This book presents information regarding changes in lower limb injury risk factors when fatigue is present, and the role of genetics in injury risk in male youth soccer. As many internal risk factors are modifiable, information presented both in the theoretical part of the book and original research studies focuses on the influence of acute, residual and accumulated fatigue on physiological mechanisms are presented to aid sports scientists and coaches to understand the age related effects of fatigue on such factors. This information can help coaches monitor fatigue related responses and be able to create efficient training programmes during important periods of growth and maturation. This will help to enhance performance and reduce injury risk in youth male soccer.
Author: Stephanie Christine Nowak
Publisher:
ISBN:
Category : Anterior cruciate ligament
Languages : en
Pages :
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Book Description
Women are four to eight times more likely to injure their anterior cruciate ligament (ACL) compared to men. It is most commonly injured through a non-contact mechanism during game time situations. During landings, women display valgus collapse, where a less active gluteus medius muscle (GMed) may be unable to control the internal rotation of the thigh, causing an increase in knee joint abduction angle, augmenting the risk of ACL injury. This study's purpose was to determine the difference between 12 male and 12 female athletes in muscle activity, specifically the GMed, and the 3D kinematics and kinetics of the lower-limb during drop jump landings from three heights; maximum vertical jump height, tibial length, and a commonly used height of 40cm. Results showed that females had greater hip adduction and knee abduction angles compared to men. The GMed activity showed no significant differences between sexes at each drop jump height.
