Morgan Sangeux
Sangeux, Morgan
VIAF ID: 217346074 (Personal)
Permalink: http://viaf.org/viaf/217346074
Preferred Forms
- 100 0 _ ‡a Morgan Sangeux
- 100 1 _ ‡a Sangeux, Morgan
- 100 1 _ ‡a Sangeux, Morgan
4xx's: Alternate Name Forms (2)
Works
Title | Sources |
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Calculation of joint moments following foot contact across two force plates | |
Can a finite set of knee extension in supine position be used for a knee functional examination? | |
Can pedobarography predict the occurrence of heel rocker in children with lower limb spasticity? | |
Computation of hip rotation kinematics retrospectively using functional knee calibration during gait | |
The conventional gait model, an open-source implementation that reproduces the past but prepares for the future | |
Defining the medial-lateral axis of the femur: Medical imaging, conventional and functional calibration methods lead to differences in hip rotation kinematics for children with torsional deformities. | |
Determination of the optimal locations of surface-mounted markers on the tibial segment | |
Do physical examination and CT-scan measures of femoral neck anteversion and tibial torsion relate to each other? | |
The effect on conventional gait model kinematics and kinetics of hip joint centre equations in adult healthy gait | |
The effects of an ankle foot orthosis on cerebral palsy gait: A multiple regression analysis | |
Evaluation of knee functional calibration with and without the effect of soft tissue artefact. | |
The gait standard deviation, a single measure of kinematic variability. | |
Hip- and patellofemoral-joint loading during gait are increased in children with idiopathic torsional deformities | |
Improving repeatability of setting volume origin and coordinate system for 3D gait analysis | |
ln vivo personalized mechanical modelling of the knee from MRI Data. | |
Management of children with ambulatory cerebral palsy: an evidence-based review. Commentary by Hugh Williamson Gait Laboratory staff. | |
Measuring Femoral Torsion In Vivo Using Freehand 3-D Ultrasound Imaging. | |
Modélisation et caractérisation in vivo des propriétés neuromusculaires des enfants et adolescents atteints de paralysie cérébrale pour la personnalisation des analyses et des simulations musculosquelettiques de leur locomotion | |
Modélisation mécanique in vivo personnalisée du genou via l’Imagerie par Résonance Magnétique | |
On the use of knee functional calibration to determine the medio-lateral axis of the femur in gait analysis: Comparison with EOS biplanar radiographs as reference. | |
One side or two? | |
Optimal markers' placement on the thorax for clinical gait analysis | |
Patterns of upper limb muscle activation in children with unilateral spastic cerebral palsy: Variability and detection of deviations | |
Predicting the location of the hip joint centres, impact of age group and sex. | |
Quantification of soft tissue artifact in lower limb human motion analysis: a systematic review. | |
Quantification of the 3D relative movement of external marker sets vs. bones based on magnetic resonance imaging. | |
Quantification, réduction et gestion de la variabilité cinématique dans l'analyse clinique de la marche. | |
Quantifying sources of variability in gait analysis. | |
A reference method for the evaluation of femoral head joint center location technique based on external markers | |
Sagittal gait patterns in cerebral palsy: the plantarflexor-knee extension couple index | |
Shod wear and foot alignment in clinical gait analysis. | |
A simple method to choose the most representative stride and detect outliers | |
Slipped capital femoral epiphysis, fixation by single screw in situ: A kinematic and radiographic study | |
Three-dimensional measurement of femoral neck anteversion and neck shaft angle. | |
The transverse Vulpius gastrocsoleus recession for equinus gait in children with cerebral palsy | |
Undesirable properties of the dimensionless normalisation for spatio-temporal variables. | |
Validation of 3-D freehand ultrasound for the determination of the hip joint centre | |
Walking speed effects on the lower limb electromyographic variability of healthy children aged 7-16 years | |
Which method of hip joint centre localisation should be used in gait analysis? |