Running gait has been shown to alter due to changes in intensity. It was hypothesised that a sacral mounted single inertial sensor could identify the centre of mass (COM) vertical accelerations. This study aimed to validate this new technique against a criterion measure and to determine the influence of changes in running intensity on COM vertical acceleration and the symmetry of COM vertical acceleration between left and right steps. Ten athletes ran for 5 min at their self-selected pace, plus 1 km/h above and below this velocity. Validity of the single inertial sensor was determined by comparing COM vertical acceleration against that measured with a six-camera infrared system. Large correlation (r = 0.96), a small typical error of estimat...
Background: Previous studies indicate that running at maximum speed on short or curved sections is s...
Introduction: Symmetry and asymmetry of lower limbs are introduced as main critical challenges of hu...
Analysis of running mechanics has traditionally been limited to a gait laboratory using either force...
The purpose of this study was to compare the center of mass and pelvis movement measured by the iner...
The purpose of this study was to examine the reproducibility and the symmetry of a wide number of ki...
The main purpose of this study was to investigate the effect of different running speed (3.5±O.3 and...
Current developments in inertial sensor technology could enable the measurement of running gait outs...
Introduction: The purpose of this study was to validate acceleration data from a single inertial sen...
Gait asymmetry during running was proven to be inefficient, uneconomical and a possible risk factor ...
Purpose This study characterises the relationship between gait variability and speed in runners usin...
The biomechanical analysis of human gait is typically characterized by the generation of large volum...
The aim of this study was to analyze changes in gait variability and symmetry in distance runners. F...
The mechanisms and underlying causes of bilateral asymmetry among healthy runners of different level...
AbstractGait asymmetry analyses are beneficial from clinical, coaching and technology perspectives. ...
The present study evaluated gait asymmetry in elite runners by quantifying the differences between g...
Background: Previous studies indicate that running at maximum speed on short or curved sections is s...
Introduction: Symmetry and asymmetry of lower limbs are introduced as main critical challenges of hu...
Analysis of running mechanics has traditionally been limited to a gait laboratory using either force...
The purpose of this study was to compare the center of mass and pelvis movement measured by the iner...
The purpose of this study was to examine the reproducibility and the symmetry of a wide number of ki...
The main purpose of this study was to investigate the effect of different running speed (3.5±O.3 and...
Current developments in inertial sensor technology could enable the measurement of running gait outs...
Introduction: The purpose of this study was to validate acceleration data from a single inertial sen...
Gait asymmetry during running was proven to be inefficient, uneconomical and a possible risk factor ...
Purpose This study characterises the relationship between gait variability and speed in runners usin...
The biomechanical analysis of human gait is typically characterized by the generation of large volum...
The aim of this study was to analyze changes in gait variability and symmetry in distance runners. F...
The mechanisms and underlying causes of bilateral asymmetry among healthy runners of different level...
AbstractGait asymmetry analyses are beneficial from clinical, coaching and technology perspectives. ...
The present study evaluated gait asymmetry in elite runners by quantifying the differences between g...
Background: Previous studies indicate that running at maximum speed on short or curved sections is s...
Introduction: Symmetry and asymmetry of lower limbs are introduced as main critical challenges of hu...
Analysis of running mechanics has traditionally been limited to a gait laboratory using either force...