The Effects of Short-term Scapular Control Training in Overhead Athletes With Shoulder Impingement Syndrome

National Yang Ming Chiao Tung University55 enrolled

Overview

Subacromial impingement syndrome (SIS) is a common disorder of shoulder joint. SIS has been accounted for 44-65 % of all shoulder pain. It is believed that one important contributing factor is scapular dyskinesis. Patients with SIS demonstrates scapular dyskinesis, including decrease in upward rotation, scapular posterior tilt, and external rotation. Altered muscle activity of scapular muscles may contribute to scapular dyskinesis, such as increase in activity of upper trapezius, and decrease in activity of lower trapezius and serratus anterior. In addition to these changes in neuromuscular control, central nervous system may be re-organized in patients with musculoskeletal disorders. Evidence has been reported that center of gravity of motor mapping changes, corticospinal excitability decreases and inhibition increases in patients with shoulder injuries such as instability, rotator cuff tendinopathy and SIS. These corticospinal changes are believed to be related to chronicity of symptoms and lack of treatment effects. Previous studies have applied many types of treatments to SIS, such as manipulation, taping, and exercises. However, most studies mainly focused on the outcomes of pain and function, few studies investigated changes in neuromuscular control following treatments. Yet, no study has addressed how corticospinal system changes following treatment in patient with shoulder injuries. Motor skill training, which has been widely used in training healthy subjects or patients with neurological disorders, has been shown to change corticospinal systems, including increasing excitability and decreasing inhibition. To our knowledge, no study has integrated the concepts of motor skill learning into a short-term treatment or investigated the effects of motor skill training on corticospinal systems in patients with SIS. The purposes of the study are to investigate the effects of short-term motor skill training on pain, neuromuscular control, corticospinal system in patients with SIS, and also to investigate whether changes in corticospinal parameters will be related to changes in pain, function and neuromuscular control.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

TREATMENT

Interventions

Scapular control trainingPROCEDURE

Participants in this group will learn how to maintain normal scapular position at first. Then they will progress to moving arm with good scapular control with mirror. Afterward, participants will undergo movements protocol which give different directions of arm movements while keeping scapula in a good alignment. They will also receive scapular-focused exercises. The difficulty of the movement protocol will increase weekly. They will be trained three times per week for 6 weeks with an average duration of 30 min per session.

General exercisePROCEDURE

Participants in this group will receive a general shoulder strengthening with theraband or dumbbell. Load will increase weekly. They will be trained three times per week for 6 weeks with an average duration of 30 min per session.

Eligibility

Sex: ALLMin age: 20 YearsMax age: 40 YearsHealthy volunteers:

Medical Language ↔ Plain English

Inclusion Criteria (patients with shoulder impingement) : 1. perform overhead exercise at least 4 hours a week 2. present type I or II scapular dyskinesis at rest or moving 3. pain at least two weeks 4. 3 of 6 impingement test present positive * Neer's impingement test: arm abduction overhead with shoulder internal rotation and thumb downward. If feel pain, then positive. * Hawkins-Kennedy impingement Test: arm lift to horizontal plane, elbow flexion to 90 degree. Tester put force on forearm toward shoulder internal rotation. If feel pain, then positive. * Empty can test: shoulder abduction with thumb down, then give a resistive force toward up. If feel pain, then positive. * Resistive shoulder external rotation test: elbow flexion to 90 degrees and do resistive shoulder rotation. If feel pain, then positive. * Rotator cuff tenderness test: tester put pressure on rotator cuff. If feel pain, then positive. * Painful arc: perform arm elevation. If feel pain during movement, then positive. Inclusion Criteria (healthy people) : 1. perform overhead exercise at least 4 hours a week 2. no any symptoms or injuries on shoulder and neck Exclusion Criteria: 1. Have a history of dislocation, fracture, or surgery of upper extremity 2. A history of direct contact injury to the neck or upper extremities within the past 12 months 3. A concussion within the past 12 months or a history of three or more concussions 4. Brain injury and neurological impairment 5. History of frequent headache or dizziness 6. Contraindications to the use of transcranial magnetic stimulation (TMS), assessed with a safety screening questionnaire, including pregnancy, history of seizure, epilepsy and syncope, having cochlear implant, having medal implant and taking anti-depressant medication.

Outcomes

Primary Outcomes

Change in neurophysiological measures - Active motor threshold

Active motor threshold (AMT) will be described with the percentage (%) of maximum stimulator output (MSO).

Time frame: Change from baseline AMT at 6 weeks

Change in neurophysiological measures - Motor evoked potential

Motor evoked potential (MEP) will be described with millivolt (mV) at different points and with different stimulus intensity

Time frame: Change from baseline MEP at 6 weeks

Change in neurophysiological measures - Cortical silent period

Cortical silent period (CSP) will be measured with millisecond (ms).

Time frame: Change from baseline CSP at 6 weeks

Change in neurophysiological measures - Short interval cortical inhibition and short interval cortical facilitation

Short interval cortical inhibition (SICI) and short interval cortical facilitation (SICF) will be defined as percentage (%) of conditioning responses vs testing responses

Time frame: Change from baseline SICI and SICF at 6 weeks

Change in shoulder pain

Pain will be measured with a numerical rating scale (0-10). Zero indicates the absence of pain, while 10 represents the most intense pain possible. No unit.

Time frame: Change from baseline pain at 6 weeks

Change in shoulder function

Function will be measured questionnaire, Flexilevel Scale of Shoulder Function (FLEX-SF). There are 15 questions on each difficulty version. Zero indicates the most difficulty, while 3 means the least difficulty.

Time frame: Change from baseline function at 6 weeks and 3 months

Long-term change in shoulder pain

Pain will be measured with a numerical rating scale (0-10). Zero indicates the absence of pain, while 10 represents the most intense pain possible. No unit.

Time frame: Change from baseline pain at 3 months

Long-term change in shoulder function

Function will be measured questionnaire, FLEX-SF. There are 15 questions on each

Time frame: Change from baseline pain at 3 months

Secondary Outcomes

Scapular kinematics

Including anterior/posterior tilt, upward/downward rotation, and internal/external rotation in scapula plan elevation at 30°, 60°, 90°, and 120°, will be calculated and will be described with degree (°).

Time frame: Change from baseline scapular kinematics at 6 weeks

Scapular muscle activation

The root mean square of electromyography (EMG) data of the upper trapezius, lower trapezius, and serratus anterior will be normalized by the maximum voluntary contraction amplitude (percentage of maximal voluntary contraction, %) and calculated over three 30° increments of motion during arm elevation from 30° to 120°, including 30° - 60°, 60° - 90°, and 90° - 120°

Time frame: Change from baseline muscle activation at 6 weeks