<p>Full extension (180°), intermediate position (90°) and full elbow flexion (40°) scenarios are shown.</p
Objective: The aim of the study was to investigate the effect of different arm positions (hand prona...
<p>One stroke cycle corresponded to the period from one maximal knee flexion (0%) to the next maxima...
Upper row (A-D) shows four results for the upper posture, the lower row (E-H) for the lower posture....
<p>Effect of the simulations on components and rotational efficiency (E<sub>rot</sub>) for three el...
<p><b>A:</b> Three-dimensional surface showing efficiency values at each forearm and elbow angles. <...
<p><b>A:</b> Anterior view of right distal arm and forearm bones in supination position. Humeral and...
Biomechanical models are useful to assess the effect of muscular forces on bone structure. Using ske...
Biomechanical models are useful to assess the effect of muscular forces on bone structure. Using ske...
<div><p>Biomechanical models are useful to assess the effect of muscular forces on bone structure. U...
<p>The postures included the arm positioned in the horizontal plane (90° shoulder flexion, 45° shoul...
The purpose of this study was to determine the effect of using two different handgrip positions on t...
The elbow possesses two degrees of freedom: flexion-extension and pronation-supination. The axis of ...
<p>Average elbow flexion angle at impact (0° = right angle between humerus and forearm, >0° flexion,...
<p>Two elbow positions (180° and 40°) are represented. is the projection of the pronator teres forc...
In the current study the interobserver and intraobserver reliability of a recently developed method ...
Objective: The aim of the study was to investigate the effect of different arm positions (hand prona...
<p>One stroke cycle corresponded to the period from one maximal knee flexion (0%) to the next maxima...
Upper row (A-D) shows four results for the upper posture, the lower row (E-H) for the lower posture....
<p>Effect of the simulations on components and rotational efficiency (E<sub>rot</sub>) for three el...
<p><b>A:</b> Three-dimensional surface showing efficiency values at each forearm and elbow angles. <...
<p><b>A:</b> Anterior view of right distal arm and forearm bones in supination position. Humeral and...
Biomechanical models are useful to assess the effect of muscular forces on bone structure. Using ske...
Biomechanical models are useful to assess the effect of muscular forces on bone structure. Using ske...
<div><p>Biomechanical models are useful to assess the effect of muscular forces on bone structure. U...
<p>The postures included the arm positioned in the horizontal plane (90° shoulder flexion, 45° shoul...
The purpose of this study was to determine the effect of using two different handgrip positions on t...
The elbow possesses two degrees of freedom: flexion-extension and pronation-supination. The axis of ...
<p>Average elbow flexion angle at impact (0° = right angle between humerus and forearm, >0° flexion,...
<p>Two elbow positions (180° and 40°) are represented. is the projection of the pronator teres forc...
In the current study the interobserver and intraobserver reliability of a recently developed method ...
Objective: The aim of the study was to investigate the effect of different arm positions (hand prona...
<p>One stroke cycle corresponded to the period from one maximal knee flexion (0%) to the next maxima...
Upper row (A-D) shows four results for the upper posture, the lower row (E-H) for the lower posture....
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