about
A real-time system for biomechanical analysis of human movement and muscle functionThe effect of tibiofemoral loading on proximal tibiofibular joint motionExotendons for assistance of human locomotionAssociation between lower extremity posture at contact and peak knee valgus moment during sidestepping: implications for ACL injuryAn elaborate data set on human gait and the effect of mechanical perturbationsStandardization proposal of soft tissue artefact description for data sharing in human motion measurements.Robotic testing of proximal tibio-fibular joint kinematics for measuring instability following total knee arthroplastyPredictive simulation of gait at low gravity reveals skipping as the preferred locomotion strategy.An optimized proportional-derivative controller for the human upper extremity with gravity.An elaborate data set characterizing the mechanical response of the foot.Real-time simulation of three-dimensional shoulder girdle and arm dynamics.Adaptive surrogate modeling for efficient coupling of musculoskeletal control and tissue deformation models.Longitudinal sex differences during landing in knee abduction in young athletesConcurrent musculoskeletal dynamics and finite element analysis predicts altered gait patterns to reduce foot tissue loading.Implicit methods for efficient musculoskeletal simulation and optimal control.Estimation of musculotendon kinematics in large musculoskeletal models using multidimensional B-splinesGender dimorphic ACL strain in response to combined dynamic 3D knee joint loading: implications for ACL injury risk.Simulation of lower limb axial arterial length change during locomotion.Model-based estimation of muscle forces exerted during movements.A three-dimensional inverse finite element analysis of the heel pad.Optimization and evaluation of a proportional derivative controller for planar arm movement.Computer simulation of landing movement in downhill skiing: anterior cruciate ligament injuries.Quantitative analysis of computer-averaged electromyographic profiles of intrinsic limb muscles in ponies at the walk.Kinetics and kinematics of the equine hind limb: in vivo tendon strain and joint kinematics.In vivo tendon forces in the forelimb of ponies at the walk, validated by ground reaction force measurements.Multi-body modelling and simulation of animal locomotion.Influence of shoeing on ground reaction forces and tendon strains in the forelimbs of ponies.Tendon strain in the forelimbs as a function of gait and ground characteristics and in vitro limb loading in ponies.Model formulation and determination of in vitro parameters of a noninvasive method to calculate flexor tendon forces in the equine forelimb.Horses damp the spring in their step.The biomechanical role of scaffolds in augmented rotator cuff tendon repairs.An analytical model for rotator cuff repairs.Optimality principles for model-based prediction of human gait.Analysis and simulation of mechanical loads on the human musculoskeletal system: a methodological overview.The influence of orthotic devices and vastus medialis strength and timing on patellofemoral loads during running.Muscle coordination and function during cutting movements.Human muscle modelling from a user's perspective.Comparison of two methods of determining patellofemoral joint stress during dynamic activities.Skating technique for the straights, based on the optimization of a simulation model.The clinical biomechanics award paper 1995 Lower extremity joint loading during impact in running.
P50
Q24630249-002A0EE1-DB5C-4EDC-9397-C764B6FFEA22Q24642288-5F41BD80-173F-49F5-9D3A-2EEBE08C1E83Q24793392-016785BB-5ADE-489B-BEA2-B50E79859D27Q28260628-C96B0065-288C-43D9-975D-F39856FE50A3Q28648079-F4DC1D4E-F973-48C4-A086-E0131750F79BQ30491053-EC170C52-1683-4D65-94F0-70CC27FBFA1AQ30497229-92EAA738-6426-4F32-8B1E-F73141594269Q30513408-E64F7D9C-9AD5-402B-9061-4EED83F142DBQ30667506-60FE11FF-E90B-4387-885A-DE556444D2A1Q33499477-D804BBBE-3130-4B25-9BD1-A996311E6910Q33797469-B2DD15C2-DB4D-4C41-9E28-20377ADC8E0DQ33937062-D473AC32-E063-44EA-A362-4C4B7A410E31Q34075660-42DC8F4A-E7E6-4F70-B348-F68526652454Q34161047-38E0801C-88AE-488F-9B41-CED3B2C3DE3DQ35553080-9AF892DD-7FE4-4498-A9E3-A5B1131657B9Q35690991-04DFBC55-17DD-4E57-8874-7BA8485AD3B9Q35748151-CA620BDC-50D8-47CA-81AF-DDF9CCA1F7CAQ36600152-0CF8C4E0-C626-48AC-BAA6-C6E1CF23C074Q36637215-D9EC64D8-4FE9-4D11-BE2B-EFD774BBC7EEQ36995452-0B975E8A-FE06-4B07-94D6-BF5FB6BF272AQ37368322-2B476C8B-0071-4CA5-A315-E98D8DC2A8ABQ39114142-640B338A-A25D-49D9-9522-1F56CFA450E8Q39234029-8C3350B7-C675-412A-8B5C-BE96A91BC714Q39291689-C3FEE7D4-727E-4868-B9E3-CF5F6C6136B1Q39413667-4BF24766-7C02-4300-8D3E-2DA04DCB93B3Q39413671-C746EFF2-E983-419B-A325-F96DB5D5504DQ39425461-F26175C7-07C2-4DD5-B0DE-3B9554B8A9A3Q39425466-E1EC2959-3DDA-45A1-B27C-7BBDB2218EADQ39581718-A3A16900-2921-4A62-961D-0ADBCFB48A84Q39589992-9D192531-9B80-4451-A20B-F6BE865F177CQ39711533-D8ED691C-16CD-47B6-958D-081D60DF4034Q39859962-FA636AE5-81FA-41A4-9D93-6580CCA88A0BQ39908327-6EB48B6B-1808-462F-9D12-EFBC285448EDQ40632332-B3C42A11-F35F-4A93-B96F-511CF8CC68B6Q40753217-8F9DB776-9793-4D25-AAA7-C6D314326693Q40822572-F7BB5890-020A-4FEB-8F6F-04FB95D36E2EQ40849440-C89EB4E0-3F82-4D08-9A7B-539A3D56BC25Q40862008-88B24E25-1302-4CA0-AF18-86A6B6717F33Q40906029-C105EA08-AE3F-47E2-82B5-F9269AB8FB46Q40936746-9039A52F-41CB-49B1-B0F7-EA7C6C01A588
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Antonie J van den Bogert
@ast
Antonie J van den Bogert
@en
Antonie J van den Bogert
@es
Antonie J van den Bogert
@nl
Antonie J van den Bogert
@sl
type
label
Antonie J van den Bogert
@ast
Antonie J van den Bogert
@en
Antonie J van den Bogert
@es
Antonie J van den Bogert
@nl
Antonie J van den Bogert
@sl
prefLabel
Antonie J van den Bogert
@ast
Antonie J van den Bogert
@en
Antonie J van den Bogert
@es
Antonie J van den Bogert
@nl
Antonie J van den Bogert
@sl
P1053
A-7809-2009
P106
P21
P2798
P31
P3829
P3835
ton-van-den-bogert
P496
0000-0002-3791-3749