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Articles 1 - 5 of 5
Full-Text Articles in Medicine and Health Sciences
A Computer Simulation Model Of The Human Head-Neck Musculoskeletal System, Jun Yan
A Computer Simulation Model Of The Human Head-Neck Musculoskeletal System, Jun Yan
Theses and Dissertations (ETD)
Objective. The objective of this research was to develop a muscle-driven biomechanical model of the human head-neck system that could be used to simulate neck movements under muscle control. This model can further be modified to enable input from an external stimulus, such as EMG data.
Summary of background data. Utilizing computer aided design (CAD) and dynamic simulation software programs, the Joint Implant Biomechanics Laboratory at The University of Tennessee Health Science Center developed a virtual model of the human cervical spine to simulate the in vitro biomechanical experiments. This in vitro model did not include any muscle …
Comparison Of Frontal Plane Trunk Kinematics And Hip And Knee Moments During Anticipated And Unanticipated Walking And Side Step Cutting Tasks, Jeff R. Houck, Andrew Duncan, Kenneth E. De Haven
Comparison Of Frontal Plane Trunk Kinematics And Hip And Knee Moments During Anticipated And Unanticipated Walking And Side Step Cutting Tasks, Jeff R. Houck, Andrew Duncan, Kenneth E. De Haven
Faculty Publications - College of Physical Therapy
Background: Frontal plane trunk and lower extremity adjustments during unanticipated tasks are hypothesized to influence hip and knee neuromuscular control, and therefore, contribute to anterior cruciate ligament (ACL) injury risk. The aims of this study were to examine frontal plane trunk/hip kinematics and hip and knee moments (measures of neuromuscular control) during unanticipated straight and side step cut tasks.
Methods: Kinematic and kinetic variables were collected while subjects performed two anticipated tasks, including walking straight (ST) and side step cutting (SS), and two unanticipated tasks (STU and SSU). Foot placement, thorax–pelvis–hip kinematic variables and hip and knee moments were calculated …
The Locomotor Kinematics Of Asian And African Elephants: Changes With Speed And Size, John R. Hutchinson, Delf Schwerda, Daniel J. Famini, Robert H.I. Dale, Martin S. Fischer, Rodger Kram
The Locomotor Kinematics Of Asian And African Elephants: Changes With Speed And Size, John R. Hutchinson, Delf Schwerda, Daniel J. Famini, Robert H.I. Dale, Martin S. Fischer, Rodger Kram
Scholarship and Professional Work - LAS
For centuries, elephant locomotion has been a contentious and confusing challenge for locomotion scientists to understand, not only because of technical difficulties but also because elephant locomotion is in some ways atypical of more familiar quadrupedal gaits. We analyzed the locomotor kinematics of over 2400 strides from 14 African and 48 Asian elephant individuals (body mass 116-4632 kg) freely moving over ground at a 17-fold range of speeds, from slow walking at 0.40 m s-1 to the fastest reliably recorded speed for elephants, 6.8 m s-1. These data reveal that African and Asian elephants have some subtle …
Motion Analysis Of A Back Handspring, Sarah Knoll, Jaclyn Minar, Melissa Moos
Motion Analysis Of A Back Handspring, Sarah Knoll, Jaclyn Minar, Melissa Moos
Physical Therapy Scholarly Projects
Purpose: The purpose of this study was to analyze the joint angles and segmental motion of gymnasts during a back handspring in a tumbling series. The difference in lower extremity motion of the individual gymnasts with different levels of experience was compared.
Subjects: 13 gymnasts were recruited by gymnastics coaches at Red River Valley Gymnastics. Only subjects with qualifications of being competitive in USA Gymnastics program, varying in levels 5-10, were included. Subjects were required to be able to perform a tumbling series consisting of a round off, a back handspring, and a back tuck-salto on a floor exercise mat …
Neck Loading In High Performance Combat Pilots During Aerial Combat Manoeuvres And Specific Neck Strengthening Exercises, Kevin J. Netto
Neck Loading In High Performance Combat Pilots During Aerial Combat Manoeuvres And Specific Neck Strengthening Exercises, Kevin J. Netto
Theses: Doctorates and Masters
Background: Neck pain and injury is a common occurrence in high performance combat pilots (HPCP) around the world. The cause of this has been attributed to exposure to the unavoidable high mechanical loading related to the neck being positioned in non-neutral head postures whilst being exposed to moderate to high +Gz levels. Specific neck conditioning exercises have been proposed as being a possible method to decrease the incidence of neck pain and injury in this population. However, there has been sparsely published research examining the suitability of selected exercises for HPCP who participate in regular aerial combat manoeuvres (ACM).