A new method of evaluation for functional assessment of the shoulder during daily activity is presented. An ambulatory system using inertial sensors attached on the humerus was used to detect the ability to work at a specific position of the shoulder. Nine arm positions were defined based on humerus elevation. The method was tested on 31 healthy volunteer subjects. First, we estimated the ability of the system to detect the different elevation angles and arm positions of each subject. Following that, we evaluated their arm positions during approximately 8h of daily activities. Each arm position was recognized with a good sensitivity (range 80-100%) and specificity (range 96-99%). During daily activity, we estimated the frequency (number/h) ...
Kinematic functional evaluation with body-worn sensors provides discriminative and responsive scores...
The shoulder is now subject to a rapidly increasing number and variety of surgical procedures. Howev...
The loss of range of motion (ROM) in the upper extremities can interfere with activities of daily li...
A new method of evaluation for functional assessment of the shoulder during daily activity is presen...
A new method of evaluation for functional assessment of the shoulder during daily activity is presen...
A new ambulatory technique for qualitative and quantitative movement analysis of the humerus is pres...
Introduction. Quantification of daily upper-limb activity is a key determinant in evaluation of shou...
Introduction: Quantification of daily upper-limb activity is determinant in the evaluation of should...
The purpose of this study is to quantify the shoulder global range of motion during the activities o...
This review investigates current protocols using Inertial Measurement Units (IMUs) in shoulder resea...
Background: Inertial sensors have the potential to provide objective and practical methods to assess...
The shoulder joint is the most substantial part of the human anatomy necessary for individuals to ca...
Kinematic functional evaluation with body-worn sensors provides discriminative and responsive scores...
Ordinal scales with low resolution are used to assess arm function in clinic. These scales may be im...
BackgroundIn both clinical and occupational settings, ambulatory sensors are becoming common for ass...
Kinematic functional evaluation with body-worn sensors provides discriminative and responsive scores...
The shoulder is now subject to a rapidly increasing number and variety of surgical procedures. Howev...
The loss of range of motion (ROM) in the upper extremities can interfere with activities of daily li...
A new method of evaluation for functional assessment of the shoulder during daily activity is presen...
A new method of evaluation for functional assessment of the shoulder during daily activity is presen...
A new ambulatory technique for qualitative and quantitative movement analysis of the humerus is pres...
Introduction. Quantification of daily upper-limb activity is a key determinant in evaluation of shou...
Introduction: Quantification of daily upper-limb activity is determinant in the evaluation of should...
The purpose of this study is to quantify the shoulder global range of motion during the activities o...
This review investigates current protocols using Inertial Measurement Units (IMUs) in shoulder resea...
Background: Inertial sensors have the potential to provide objective and practical methods to assess...
The shoulder joint is the most substantial part of the human anatomy necessary for individuals to ca...
Kinematic functional evaluation with body-worn sensors provides discriminative and responsive scores...
Ordinal scales with low resolution are used to assess arm function in clinic. These scales may be im...
BackgroundIn both clinical and occupational settings, ambulatory sensors are becoming common for ass...
Kinematic functional evaluation with body-worn sensors provides discriminative and responsive scores...
The shoulder is now subject to a rapidly increasing number and variety of surgical procedures. Howev...
The loss of range of motion (ROM) in the upper extremities can interfere with activities of daily li...