Aim: The purpose of this research was to investigate the effects of different figure skating boots on kinetic and kinematic properties of the landing impact. The focus was on the vertical ground reaction force (VGRF) and kinematic differences between the examined boots duringthe landing impact as well as the material and construction design differences between the boots. The hypothesis was that different figure skating boots (Graf Edmonton and Edea Concerto) differently affect the VGRF and kinematics during the landing impact so some figure skating boots may reduce the impact at landing and could therefore possibly prevent injuries. Method: Six subjects each simulated figure skating landings wearing two different types ofskates from two dif...
Impact events during skiing are frequents and can lead to damages on the equipment or injuries to th...
The purpose of this study was to examine the effect of shoe insole densities on impact shock attenua...
ARAMPATZIS, A., G-P. BRU ¨ GGEMANN, and G. MOREY KLAPSING. A three-dimensional shank-foot model to d...
Aim: The intention of this study was to examine whether different brands and models of skating boots...
An increase in training intensity and the number of active participants and competitors in figure sk...
Repetitive impact loading is characteristic of the training regimes inherent in the sport of figure ...
To date, there is no empirical evidence suggesting greater jump heights or cushioned landings when u...
Purpose: The purpose of this study was to investigate the differences in ankle flexibility and skati...
Presently, ice skates do not allow movement in the sagittal plane. Adding a one degree of freedom hi...
The purpose of this study was to identify the movement characteristics of lower extremities during s...
Dancers wear pointe shoes while performing a Grand Jeté because the shoes produce an illusion that d...
The purpose of this paper was to characterize and compare pressure patterns in the skate boot of eli...
The purpose of this study was to examine the vertical ground reaction force in the skill of a Grand ...
The ground (ice) reaction force and the plantar foot pressure variables were measured during an expl...
AbstractIce hockey is a sport characterized by high speeds, sharp turns and abrupt stops. Hence, the...
Impact events during skiing are frequents and can lead to damages on the equipment or injuries to th...
The purpose of this study was to examine the effect of shoe insole densities on impact shock attenua...
ARAMPATZIS, A., G-P. BRU ¨ GGEMANN, and G. MOREY KLAPSING. A three-dimensional shank-foot model to d...
Aim: The intention of this study was to examine whether different brands and models of skating boots...
An increase in training intensity and the number of active participants and competitors in figure sk...
Repetitive impact loading is characteristic of the training regimes inherent in the sport of figure ...
To date, there is no empirical evidence suggesting greater jump heights or cushioned landings when u...
Purpose: The purpose of this study was to investigate the differences in ankle flexibility and skati...
Presently, ice skates do not allow movement in the sagittal plane. Adding a one degree of freedom hi...
The purpose of this study was to identify the movement characteristics of lower extremities during s...
Dancers wear pointe shoes while performing a Grand Jeté because the shoes produce an illusion that d...
The purpose of this paper was to characterize and compare pressure patterns in the skate boot of eli...
The purpose of this study was to examine the vertical ground reaction force in the skill of a Grand ...
The ground (ice) reaction force and the plantar foot pressure variables were measured during an expl...
AbstractIce hockey is a sport characterized by high speeds, sharp turns and abrupt stops. Hence, the...
Impact events during skiing are frequents and can lead to damages on the equipment or injuries to th...
The purpose of this study was to examine the effect of shoe insole densities on impact shock attenua...
ARAMPATZIS, A., G-P. BRU ¨ GGEMANN, and G. MOREY KLAPSING. A three-dimensional shank-foot model to d...