Add to ORKGThe calibrated anatomical systems technique (CAST) (Cappozzo et al, 1995) is an established method in gait and lower limb analyses. Its application to 6-degrees-of-freedom kinematic analyses and reduction of soft tissue artefact could make it particularly useful in quantifying axial rotation of the upper extremity. Such rotations have been established as being important in generating racket-head velocity in a variety of racket skills (Marshall and Elliott, 2000). The present study assesses the accuracy of CAST in quantifying the rotation of the forearm
Background: The objectives of this study were to characterize the translational and rotational accur...
Although side-to-side asymmetry of the shoulder rotators calculated by independent peak torque (IPT)...
The estimate of a consistent and clinically meaningful joint kinematics using wearable inertial and ...
none3Background. Soft tissue artefact is the dominant error source for upper extremity motion analys...
The non-invasive estimation of hip axial rotation is prone to error. Most of this is likely to origi...
This study aimed to find an optimal measurement protocol of elbow and forearm kinematics using diffe...
The accuracy of upper-limb kinematic data acquired from optoelectronic systems with retro-reflective...
Soft tissue artefact (STA) is caused by the relative displacement of markers or sensors mounted on t...
This study investigates the effect of glenohumeral joint centre (GHJ) mislocation on elbow flexion-e...
In order to assess the reproducibility of two standard techniques of measuring forearm rotational mo...
A problem that is common to the study of upper limb kinematics and gait analysis is the translation ...
To extend an already existing three-dimensional (3-D) model of the shoulder (Van der Helm, 1994) a c...
Kinematic analysis of the upper extremity has been conducted using a wide variety of techniques, phi...
Assessment of the range of axial rotation of the glenohumeral joint will improve understanding of sh...
Introduction Fractures of the diaphysis of the radius and/or ulna are most common in children from 5...
Background: The objectives of this study were to characterize the translational and rotational accur...
Although side-to-side asymmetry of the shoulder rotators calculated by independent peak torque (IPT)...
The estimate of a consistent and clinically meaningful joint kinematics using wearable inertial and ...
none3Background. Soft tissue artefact is the dominant error source for upper extremity motion analys...
The non-invasive estimation of hip axial rotation is prone to error. Most of this is likely to origi...
This study aimed to find an optimal measurement protocol of elbow and forearm kinematics using diffe...
The accuracy of upper-limb kinematic data acquired from optoelectronic systems with retro-reflective...
Soft tissue artefact (STA) is caused by the relative displacement of markers or sensors mounted on t...
This study investigates the effect of glenohumeral joint centre (GHJ) mislocation on elbow flexion-e...
In order to assess the reproducibility of two standard techniques of measuring forearm rotational mo...
A problem that is common to the study of upper limb kinematics and gait analysis is the translation ...
To extend an already existing three-dimensional (3-D) model of the shoulder (Van der Helm, 1994) a c...
Kinematic analysis of the upper extremity has been conducted using a wide variety of techniques, phi...
Assessment of the range of axial rotation of the glenohumeral joint will improve understanding of sh...
Introduction Fractures of the diaphysis of the radius and/or ulna are most common in children from 5...
Background: The objectives of this study were to characterize the translational and rotational accur...
Although side-to-side asymmetry of the shoulder rotators calculated by independent peak torque (IPT)...
The estimate of a consistent and clinically meaningful joint kinematics using wearable inertial and ...