about
Musculoskeletal modelling deconstructs the paradoxical effects of elastic ankle exoskeletons on plantar-flexor mechanics and energetics during hopping.Revisiting the mechanics and energetics of walking in individuals with chronic hemiparesis following stroke: from individual limbs to lower limb jointsThe mechanics and energetics of human walking and running: a joint level perspective.Modulation of leg joint function to produce emulated acceleration during walking and running in humans.The role of human ankle plantar flexor muscle-tendon interaction and architecture in maximal vertical jumping examined in vivo.Could intra-tendinous hyperthermia during running explain chronic injury of the human Achilles tendon?Deconstructing the power resistance relationship for squats: A joint-level analysis.Individual limb mechanical analysis of gait following stroke.Elastic ankle exoskeletons reduce soleus muscle force but not work in human hopping.Linking the mechanics and energetics of hopping with elastic ankle exoskeletons.More is not always better: modeling the effects of elastic exoskeleton compliance on underlying ankle muscle-tendon dynamics.Elastic ankle muscle-tendon interactions are adjusted to produce acceleration during walking in humans.UltraTrack: Software for semi-automated tracking of muscle fascicles in sequences of B-mode ultrasound images.Differential strain patterns of the human Achilles tendon determined in vivo with freehand three-dimensional ultrasound imaging.The effect of muscle-tendon unit vs. fascicle analyses on vastus lateralis force-generating capacity during constant power output cycling with variable cadence.The effect of cadence on the muscle-tendon mechanics of the gastrocnemius muscle during walking.The effects of a 30-min run on the mechanics of the human Achilles tendonEmulating constant acceleration locomotion mechanics on a treadmillMicroendoscopy reveals positive correlation in multiscale length changes and variable sarcomere lengths across different regions of human muscleThe energetic behaviour of the human foot across a range of running speedsThe functional importance of human foot muscles for bipedal locomotionJoint and muscle-tendon coordination strategies during submaximal jumpingComparisons of laboratory-based methods to calculate jump height and improvements to the field-based flight-time methodThe influence of added mass on muscle activation and contractile mechanics during submaximal and maximal countermovement jumping in humans
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description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Dominic J. Farris
@ast
Dominic J. Farris
@en
Dominic J. Farris
@es
Dominic J. Farris
@nl
Dominic J. Farris
@sl
type
label
Dominic J. Farris
@ast
Dominic J. Farris
@en
Dominic J. Farris
@es
Dominic J. Farris
@nl
Dominic J. Farris
@sl
prefLabel
Dominic J. Farris
@ast
Dominic J. Farris
@en
Dominic J. Farris
@es
Dominic J. Farris
@nl
Dominic J. Farris
@sl
P1053
C-4625-2013
P106
P1153
36833869500
P21
P31
P3829
P496
0000-0002-6720-1961