Study Design: Longitudinal Experimental Study Objective: Analyze the relationship between Upper Limb Neural Tension Test (ULNTT1) and cervico-thoracic spine biomechanics using a new motion-capture spine movement data analyzing model based on Least Square Approximation. Summary of Background Data: ULNTT1 is a test able to determine cervical nerve roots and brachial plexus displacement within their interface structures. No studies were conducted about ULNTT1 and cervico-thoracic spine motion patterns relationship. Methods: 12 subjects with ULNTT1 asymmetry \> 10° (AS group) and 11 subjects with ULNTT1 symmetry (S group) at clinical tests will be enrolled for the study. Subjects will be analyzed for ULNTT1 with an electrogoniometer using two parameters, one operator and one patient-dependent. Fine lateral bending cervico-thoracic spine motion patterns will be collected with motion-capturing technique and data will be analyzed with Least Square Approximation tools. Subjects with impairments in cervico-thoracic spine mobility will undergo to correction of those with spinal manipulative therapy. ULNTT1 and spine mobility will be so re-evaluated with same methods.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
23
Istituti Clinici Zucchi
Carate Brianza, MB, Italy
Upper Limb Neural Tension Test at baseline: R2
ULNTT are neurodynamics test of brachial plexus. Two parameters are collected during the procedure: firm resistance to elbow extension, named R2, operator dependent, and severe pain onset, named P2, patient dependent. Both results are expressed as degrees that left to full elbow extension. Four repetition per side are performed and average value is calculated.
Time frame: Baseline
Upper Limb Neural Tension Test at baseline: P2
ULNTT are neurodynamics test of brachial plexus. Two parameters are collected during the procedure: firm resistance to elbow extension, named R2, operator dependent, and severe pain onset, named P2, patient dependent. Both results are expressed as degrees that left to full elbow extension. Four repetition per side are performed and average value is calculated.
Time frame: Baseline
Cervico-Thoracic Spine Lateral Bending at baseline
Cervico-thoracic spine side bending is registered with motion-capture technology. Results are analyzed with Least Square Approximation tools and expressed as mathematical parameters in angles. Four repetition per side are performed and average value is calculated.
Time frame: Baseline
Upper Limb Neural Tension Test after intervention: R2
ULNTT are neurodynamics test of brachial plexus. Two parameters are collected during the procedure: firm resistance to elbow extension, named R2, operator dependent, and severe pain onset, named P2, patient dependent. Both results are expressed as degrees that left to full elbow extension. Four repetition per side are performed and average value is calculated.
Time frame: Immediately after intervention, same day than baseline acquisition
Upper Limb Neural Tension Test after intervention: P2
ULNTT are neurodynamics test of brachial plexus. Two parameters are collected during the procedure: firm resistance to elbow extension, named R2, operator dependent, and severe pain onset, named P2, patient dependent. Both results are expressed as degrees that left to full elbow extension. Four repetition per side are performed and average value is calculated.
Time frame: Immediately after intervention, same day than baseline acquisition
Cervico-Thoracic Spine Lateral Bending after intervention
Cervico-thoracic spine side bending is registered with motion-capture technology. Results are analyzed with Least Square Approximation tools and expressed as mathematical parameters in angles. Four repetition per side are performed and average value is calculated.
Time frame: Immediately after intervention, same day than baseline acquisition
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