Your search keyword '"Schache AG"' showing total 4 results

1. Lower limb biomechanics during low- and high-impact functional tasks differ between men and women with hip-related groin pain.

Author

King MG, Heerey JJ, Schache AG, Semciw AI, Middleton KJ, Sritharan P, Lawrenson PR, and Crossley KM

Subjects

Adolescent, Adult, Ankle physiopathology, Ankle Joint physiopathology, Biomechanical Phenomena, Cross-Sectional Studies, Female, Gait, Hip physiopathology, Humans, Knee physiopathology, Lower Extremity physiopathology, Male, Middle Aged, Pain Measurement, Rotation, Soccer, Walking, Young Adult, Arthralgia physiopathology, Groin physiopathology, Hip Joint physiopathology, Knee Joint physiopathology, Pain Management methods, Range of Motion, Articular

Abstract

Background: The effect of pain on lower limb biomechanics during walking has been found to be sex specific for certain joint diseases. However, it is not known if sex is an effect-modifier in people with hip pain. Therefore, the aim of the study was to determine the differences in lower limb biomechanics between men and women with hip-related groin pain during functional tasks., Methods: 65 male and 23 female football players with hip-related groin pain were recruited. Biomechanical data were recorded during walking and the single-leg drop jump. Hip, knee and ankle joint kinematics and kinetics were calculated. Differences between men and women were assessed using statistical parametric mapping., Findings: Walking: Men with hip-related groin pain walked with lower hip flexion and internal rotation angles during stance compared to women. During different sections of stance, men also displayed a lower hip adduction angle and 'external' adduction moment, a lower knee flexion angle and 'external' flexion moment, as well as greater 'external' dorsi-flexion moment and impulse. Single-leg drop jump: Men with hip-related groin pain displayed a lower hip flexion angle during early stance, and greater 'external' knee flexion and ankle dorsi-flexion moments. The impulse of the 'external' dorsi-flexion moment was also greater for men compared to women., Interpretation: Men and women with hip-related groin pain display differing lower limb biomechanics in both low and high impact tasks. Sex may therefore be a potential effect modifier in people with hip-related groin pain. Future research in this area should incorporate sex-specific analyses., Trial Registration Number: NA., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

2. Three-dimensional geometry of the human biceps femoris long head measured in vivo using magnetic resonance imaging.

Author

Schache AG, Ackland DC, Fok L, Koulouris G, and Pandy MG

Subjects

Adult, Arm physiology, Biomechanical Phenomena, Humans, Knee Joint physiology, Leg, Male, Models, Biological, Movement, Muscle, Skeletal injuries, Pelvis physiology, Range of Motion, Articular, Rotation, Tibia physiology, Torque, Hip Joint physiology, Magnetic Resonance Imaging, Muscle, Skeletal anatomy & histology, Muscle, Skeletal physiology, Pelvis anatomy & histology, Running physiology, Tibia anatomy & histology

Abstract

Background: The human biceps femoris long head is susceptible to injury, especially when sprinting. The potential mechanical action of this muscle at a critical stage in the stride cycle was evaluated by calculating three-dimensional lines-of-action and moment arms about the hip and knee joints in vivo., Methods: Axial magnetic resonance images of the right lower-limb (pelvis to proximal tibia) were recorded from four participants under two conditions: a reference pose, with the lower-limb in the anatomical position and the hamstrings relaxed; and a terminal swing pose, with the hip and knee joints flexed to mimic the lower-limb orientation during the terminal swing phase of sprinting and the hamstrings isometrically activated. Images were used to segment biceps femoris long head and the relevant bones. The musculotendon path and joint coordinate systems were defined from which lines-of-action and moment arms were computed., Findings: Biceps femoris long head displayed hip extensor and adductor moment arms as well as knee flexor, abductor and external-rotator moment arms. Sagittal-plane moment arms were largest, whereas transverse-plane moment arms were smallest. Moment arms remained consistent in polarity across all participants and testing conditions, except in the transverse-plane about the hip. For the terminal swing pose compared to the reference pose, sagittal-plane moment arms for biceps femoris long head increased by 19.9% to 48.9% about the hip and 42.3% to 93.9% about the knee., Interpretation: Biceps femoris long head has the potential to cause hip extension and adduction as well as knee flexion during the terminal swing phase of sprinting., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

3. The effect of gait modification on the external knee adduction moment is reference frame dependent.

Author

Schache AG, Fregly BJ, Crossley KM, Hinman RS, and Pandy MG

Subjects

Adult, Computer Simulation, Humans, Male, Reproducibility of Results, Sensitivity and Specificity, Torque, Gait physiology, Knee physiology, Locomotion physiology, Models, Biological

Abstract

Background: This study investigated the extent to which reference frame convention affects the interpretation of how gait modification alters the external knee adduction moment., Methods: Data were collected from a single male able-bodied subject performing three gait tasks: normal, toe out and medial thrust. The net external moment vector at the knee was expressed in five alternative reference frames: the femur anatomical frame, the proximal tibia anatomical frame, the distal tibia anatomical frame, the laboratory frame and a non-orthogonal knee joint coordinate system. For each reference frame, the knee adduction moment was taken as the component about the frame's anteroposterior axis., Findings: Gait modification and selected reference frame both influenced the calculated knee adduction moment. Furthermore, these two effects were interactive, with the magnitude of the changes in the knee adduction moment produced by toe out and medial thrust gait being highly dependent on selected reference frame., Interpretation: Choice of reference frame for calculating the external knee adduction moment is therefore an important consideration for studies investigating the relative effectiveness of interventions such as gait modification.

Published

2008

4. A comparison of overground and treadmill running for measuring the three-dimensional kinematics of the lumbo-pelvic-hip complex.

Author

Schache AG, Blanch PD, Rath DA, Wrigley TV, Starr R, and Bennell KL

Subjects

Adult, Biomechanical Phenomena, Female, Humans, Male, Range of Motion, Articular, Hip Joint physiology, Imaging, Three-Dimensional, Lumbar Vertebrae physiology, Pelvis physiology, Running physiology

Abstract

Objective: To compare overground and treadmill running for differences in the three-dimensional angular kinematics of the lumbo-pelvic-hip complex., Design: A within-subject repeated measures design., Background: The treadmill is an attractive research instrument as speed and slope are easily controlled and the required calibration volume is reduced. However, the degree to which treadmill running simulates overground running has not been resolved in the literature to date., Methods: 10 able-bodied subjects ran overground and on a treadmill at a self-selected speed. The treadmill speed was matched to each subjects respective average overground speed. The time-distance and the three-dimensional angular kinematic data were captured using a passive marker based motion analysis system. A set of angular and temporal kinematic parameters were extracted from the data and subjected to statistical analyses., Results: Significant differences were found between overground and treadmill running for all the time-distance parameters. Despite this, the kinematics of the lumbar spine and pelvis were similar between the two running conditions, with only three parameters being significantly different. These were lumbar extension at initial contact, anterior pelvic tilt at initial contact and the first maximum anterior pelvic tilt. Hip flexion-extension parameters were also only found to display subtle differences. Of the 17 hip parameters analysed, only hip flexion at initial contact, maximum hip flexion at loading response, hip extension at toe off, maximum hip extension and hip flexion-extension range of motion were found to be significantly different., Conclusion: A high powered treadmill with a minimal belt speed fluctuation is capable of being used to obtain a representation of the typical three-dimensional kinematic pattern of the lumbo-pelvic-hip complex during running., Relevance: In order for the treadmill to be accepted as a useful research and/or clinical assessment instrument, it must be demonstrated that it does not significantly alter the performance of the evaluated activity. In this respect, a treadmill with minimal intra-stride belt speed variability and similar surface stiffness to the relevant overground condition is likely to be capable of being used to obtain a representation of the typical human running action for well accommodated subjects.

Published

2001