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Validation of 3-D freehand ultrasound for the determination of the hip joint centre.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.Management of children with ambulatory cerebral palsy: an evidence-based review. Commentary by Hugh Williamson Gait Laboratory staff.The transverse Vulpius gastrocsoleus recession for equinus gait in children with cerebral palsy.Undesirable properties of the dimensionless normalisation for spatio-temporal variables.Evaluation of knee functional calibration with and without the effect of soft tissue artefact.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.The gait standard deviation, a single measure of kinematic variability.The effects of an ankle foot orthosis on cerebral palsy gait: A multiple regression analysis.On the implementation of predictive methods to locate the hip joint centres.Sagittal gait patterns in cerebral palsy: the plantarflexor-knee extension couple index.A simple method to choose the most representative stride and detect outliers.Walking speed effects on the lower limb electromyographic variability of healthy children aged 7-16 years.Improving repeatability of setting volume origin and coordinate system for 3D gait analysis.Multilevel surgery for equinus gait in children with spastic diplegic cerebral palsy: medium-term follow-up with gait analysis.A new method for measuring AFO deformation, tibial and footwear movement in three dimensional gait analysis.Do physical examination and CT-scan measures of femoral neck anteversion and tibial torsion relate to each other?Hip joint centre localization: Evaluation on normal subjects in the context of gait analysis.Which method of hip joint centre localisation should be used in gait analysis?Quantifying sources of variability in gait analysis.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.Measuring Femoral Torsion In Vivo Using Freehand 3-D Ultrasound Imaging.Three-dimensional measurement of femoral neck anteversion and neck shaft angle.Quantification of the 3D relative movement of external marker sets vs. bones based on magnetic resonance imaging.Shod wear and foot alignment in clinical gait analysis.Can a finite set of knee extension in supine position be used for a knee functional examination?A comparison of hip joint centre localisation techniques with 3-DUS for clinical gait analysis in children with cerebral palsy.Defining the medial-lateral axis of an anatomical femur coordinate system using freehand 3D ultrasound imaging.Quantification of pelvic soft tissue artifact in multiple static positions.Patterns of upper limb muscle activation in children with unilateral spastic cerebral palsy: Variability and detection of deviationsOne side or two?Hip- and patellofemoral-joint loading during gait are increased in children with idiopathic torsional deformitiesSlipped capital femoral epiphysis, fixation by single screw in situ: A kinematic and radiographic studyDetermination of the optimal locations of surface-mounted markers on the tibial segmentCalculation of joint moments following foot contact across two force platesA reference method for the evaluation of femoral head joint center location technique based on external markersOptimal markers' placement on the thorax for clinical gait analysisComputation of hip rotation kinematics retrospectively using functional knee calibration during gaitThe conventional gait model, an open-source implementation that reproduces the past but prepares for the future
P50
Q33532844-D748E13F-D201-4496-A027-9855FE9751A3Q37435030-6163F2EB-E603-4D9D-ACC4-7F7B76826049Q37620685-05F14C48-B9CF-4D6D-A557-C874BFE737C2Q38034425-4D63167F-FC36-487D-9CE9-72D7A8E56F2DQ38395311-B6CD3662-E0AD-4823-8A02-E73D8CADD966Q38816814-BF86707F-626F-4723-A0FA-945F61C2A318Q39172086-51A8E255-49F1-4505-85CC-E3604C81A4CDQ39386500-CAE31477-18BC-4BEE-AF47-036B4AA01310Q39807691-1E2AEDA7-C70B-4E62-9784-E9F1C13CD78CQ40137494-9735BA4F-8952-4C22-9B0A-616C4BD9E6FFQ40690807-6D22AF58-7D04-453F-A26F-9963EF7B1867Q41555345-3EC183B8-D7F0-4C1F-897E-BB6A862247B1Q41658186-909B3536-35C4-42CD-A1D6-C2CD29F94515Q43759009-32BCEB81-FE3D-490B-90C4-E053B51CA7F2Q45346016-FA19A38C-B601-436C-96E7-A1BC03D23E88Q45356291-27318E2A-4596-4360-8175-034D8C0A2DF6Q46011142-5DC62353-933D-49F9-A719-F0C6465D251BQ46428678-A9E1B85E-8CD3-46A8-A038-B8EC76447676Q46614607-2F7962BF-41CE-4C34-8FA1-6258080EC257Q46910483-3E34784A-70F5-41DF-A1F4-1518E5345744Q48604552-188F65E2-4DA5-4A88-A798-71C0882A8A2AQ50209428-8831F8A2-C146-456E-952D-318CD332F631Q50760888-88F5DC42-75AB-4AF8-ABD0-A965172B0D02Q51018642-CD59B727-FB17-42F1-824E-342E094991D3Q51163622-8470E2BD-BC9F-41AC-8DCE-891DBA63F692Q51247522-EE4A4B2F-5507-475E-BC96-97C02DA951B1Q51311871-F2481E93-E15C-4A76-BC94-B4E669A21409Q51371397-44393881-CC90-473F-85B6-9A4D057DBEADQ51442257-2467397D-3777-44B0-B1EC-E16ED4DA52D6Q54616926-F1751615-F191-4B28-B8D7-2B21DB1E58D7Q56920108-960420F8-60FA-407E-912D-7BE929E2FE2BQ59235973-FA6A5ED3-B3D4-414E-B917-AB32CB0413A7Q61440016-50E2A06E-2DB6-4ED6-AA34-5CC7EA630D27Q61440021-9884C2EB-FEA9-442A-A06E-15244BEEDA72Q81739353-E585C615-6F05-43DF-A7FA-F90372F0B0E1Q82222823-F2C54712-C53A-4DF5-85A4-205D170A974AQ85961709-432FB423-69F7-4443-AA3A-2F3B446AA01BQ87088713-C5C5DEC4-0828-4FC4-9F47-399BCFB00EB9Q88680316-46C28E94-BE31-49BA-989F-78BBCE91BAC6Q91305930-B8A40793-649C-49D4-911C-A9664BDAF2E7
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Morgan Sangeux
@ast
Morgan Sangeux
@en
Morgan Sangeux
@es
Morgan Sangeux
@sl
type
label
Morgan Sangeux
@ast
Morgan Sangeux
@en
Morgan Sangeux
@es
Morgan Sangeux
@sl
prefLabel
Morgan Sangeux
@ast
Morgan Sangeux
@en
Morgan Sangeux
@es
Morgan Sangeux
@sl
P108
P1053
H-7100-2017
P106
P1153
9737485400
P2038
Morgan_Sangeux
P31
P3829
P3835
morgan-sangeux
P496
0000-0003-2380-5090
P569
2000-01-01T00:00:00Z