Walking is one of the fundamental motor tasks executed during aquatic therapy. Previous kinematics analyses conducted using waterproofed video cameras were limited to the sagittal plane and to only one or two consecutive steps. Furthermore, the set-up and post-processing are time-consuming and thus do not allow a prompt assessment of the correct execution of the movements during the aquatic session therapy. The aim of the present study was to estimate the 3D joint kinematics of the lower limbs and thorax-pelvis joints in sagittal and frontal planes during underwater walking using wearable inertial and magnetic sensors. Eleven healthy adults were measured during walking both in shallow water and in dry-land conditions. Eight wearable inertia...
Ten participants were assessed while walking in water and on land with wearable inertial measurement...
The analysis of the joint kinematics during swimming plays a fundamental role both in sports conditi...
none5noDOI dell'intero volume: 10.1007/s11332-015-0234-0noneGatta, G.; Cortesi, M.; Giovanardi, A.; ...
Walking is one of the fundamental motor tasks executed during aquatic therapy. Previous kinematics a...
Walking underwater reduces joint impacts, enhances stability and lowers the net body weight of the p...
Background: Water exercise is employed as therapeutic treatment. The reduction of the body weight an...
none7A fundamental need for modern biomechanical and clinical application is the ability to accurate...
Despite the lack of any attempts to quantify the ROM while walking in water, several products have r...
Walking in water is a commonly prescribed aquatic activity, simple to perform and of low impact. Buo...
The current gold standard for clinical gait analyses is marker-based motion-capture (Mocap). However...
The aim of this study was to compare sagittal plane lower limb kinematics during walking on land and...
none5noneS. Fantozzi; A. Giovanardi; D. Borra; M. Cortesi ; G. GattaS. Fantozzi; A. Giovanardi; D. B...
This study reports for the first time an estimation of the internal net joint forces and torques on ...
The aim of this study was to compare sagittal plane lower limb kinematics during walking on land and...
none5nononeFantozzi, S.; Giovanardi, A.; Borra, D.; Rabitti, C.; Gatta, G.Fantozzi, S.; Giovanardi, ...
Ten participants were assessed while walking in water and on land with wearable inertial measurement...
The analysis of the joint kinematics during swimming plays a fundamental role both in sports conditi...
none5noDOI dell'intero volume: 10.1007/s11332-015-0234-0noneGatta, G.; Cortesi, M.; Giovanardi, A.; ...
Walking is one of the fundamental motor tasks executed during aquatic therapy. Previous kinematics a...
Walking underwater reduces joint impacts, enhances stability and lowers the net body weight of the p...
Background: Water exercise is employed as therapeutic treatment. The reduction of the body weight an...
none7A fundamental need for modern biomechanical and clinical application is the ability to accurate...
Despite the lack of any attempts to quantify the ROM while walking in water, several products have r...
Walking in water is a commonly prescribed aquatic activity, simple to perform and of low impact. Buo...
The current gold standard for clinical gait analyses is marker-based motion-capture (Mocap). However...
The aim of this study was to compare sagittal plane lower limb kinematics during walking on land and...
none5noneS. Fantozzi; A. Giovanardi; D. Borra; M. Cortesi ; G. GattaS. Fantozzi; A. Giovanardi; D. B...
This study reports for the first time an estimation of the internal net joint forces and torques on ...
The aim of this study was to compare sagittal plane lower limb kinematics during walking on land and...
none5nononeFantozzi, S.; Giovanardi, A.; Borra, D.; Rabitti, C.; Gatta, G.Fantozzi, S.; Giovanardi, ...
Ten participants were assessed while walking in water and on land with wearable inertial measurement...
The analysis of the joint kinematics during swimming plays a fundamental role both in sports conditi...
none5noDOI dell'intero volume: 10.1007/s11332-015-0234-0noneGatta, G.; Cortesi, M.; Giovanardi, A.; ...