Effects of the Kinetic Chain Approach for Scapular Dyskinesis

Shoulder Impingement Syndrome Clinical Trial

Official title: Effects of the Kinetic Chain Management Approach on Pain and Performance in Volleyball Athletes With Scapular Dyskinesia: A Randomized Controlled Trial

Status Completed

Clinical Trial Summary

Volleyball is a highly technical sport which involved powerful overhead movements performed repetitively. Shoulder injuries is the third-most commonly injured body part in volleyball, with the majority resulting from chronic overuse. Abnormal scapular motions and positions relative to the thorax have been linked to various shoulder pathologies, including subacromial impingement, rotator cuff tears, and glenohumeral inferior instability. Also, Muscular imbalances around the shoulder complex could lead to dyskinesis and resulting in shoulder joint injuries (e.g. instability and impingement).

The concept of "kinetic chain" is coordinated sequencing of the segments. Sequential activation of the LE, pelvis and trunk muscles is required to facilitate the forces to be transferred appropriately from these body segments to the UE.

Reeser et al. have identified risk factors for volleyball-related shoulder pain and dysfunction. They found volleyball athletes who demonstrated core instability would show greater relevance to SICK scapula, and they also more likely to report a history of shoulder problems. Sciascia et al. also have reviewed that 49% athletes with posterior-superior labral tears showed either decreased hip rotators flexibility or decreased hip abductors strength. Consequently, the deficits in kinetic chain segments would resulted in scapula dyskinesis, even lead to shoulder girdle dysfunction or injury.

Therefore, the modern training programs for athletes, especially in overhead players, should combine kinetic chain exercises to improve upper- and lower body core strength, sport-specific strength, performance, and prevent injury occurrence or recurrence.

In consideration of no randomized controlled trials (RCTs) have been performed to determine whether kinetic chain exercise would be more effective to conventional scapula training for patients with secondary shoulder impingement. The purpose of the study is to investigate the effects of kinetic chain management approach (KC) and conventional training of scapula dyskinesis (CT) in volleyball athletes with scapular dyskinesia. The investigators hypothesized that KC group would be more effective in self-reported pain, and their scapula would become more stable during movement task (arm-lifting and spiking) after a 4-week training program than CT group.

Clinical Trial Description

Volleyball is a highly technical sport which involved powerful overhead movements performed repetitively. Shoulder injuries is the third-most commonly injured body part in volleyball, with the majority resulting from chronic overuse. Abnormal scapular motions and positions relative to the thorax have been linked to various shoulder pathologies, including subacromial impingement, rotator cuff tears, and glenohumeral inferior instability. Also, Muscular imbalances around the shoulder complex could lead to dyskinesis and resulting in shoulder joint injuries (e.g. instability and impingement).

The concept of "kinetic chain" is coordinated sequencing of the segments. Sequential activation of the LE, pelvis and trunk muscles is required to facilitate the forces to be transferred appropriately from these body segments to the UE.

One previous study have identified risk factors for volleyball-related shoulder pain and dysfunction. They found volleyball athletes who demonstrated core instability would show greater relevance to SICK scapula, and they also more likely to report a history of shoulder problems. Another study also have reviewed that 49% athletes with posterior-superior labral tears showed either decreased hip rotators flexibility or decreased hip abductors strength. Consequently, the deficits in kinetic chain segments would resulted in scapula dyskinesis, even lead to shoulder girdle dysfunction or injury.

Therefore, the modern training programs for athletes, especially in overhead players, should combine kinetic chain exercises to improve upper- and lower body core strength, sport-specific strength, performance, and prevent injury occurrence or recurrence.

In consideration of no randomized controlled trials (RCTs) have been performed to determine whether kinetic chain exercise would be more effective to conventional scapula training for patients with secondary shoulder impingement. The purpose of the study is to investigate the effects of kinetic chain management approach (KC) and conventional training of scapula dyskinesis (CT) in volleyball athletes with scapular dyskinesia. The investigators hypothesized that KC group would be more effective in self-reported pain, and their scapula would become more stable during movement task (arm-lifting and spiking) after a 4-week training program than CT group.

The investigators plan to recruit 50 volleyball athletes. The sample size will be determined by previous studies and our future pilot study. It will be based on a significance level of 0.05, and a power of 0.80 to detect a difference on scapular upward rotation of 4° with a standard deviation of 4.5°. Based on these criteria, at least 21 participants with secondary shoulder impingement syndrome will be required in each group. To account for a withdrawal rate of 10%, participants will be included at least in each group. They will mainly be recruited from the universities in Taipei. A physical therapist will first evaluate the subject whether they are diagnosed of scapular dyskinesia. For subjects' evaluation, physical examination will include observation, palpation, selective tissue tension test (STTT), impingement sign test (Neer's, Hawkins-Kennedy), and scapular motor control test (flexion, abduction, external/internal rotation). Moreover, the investigators will design a check list to confirm whether they meet the inclusion/exclusion criteria. Patients who meet the criteria will enroll in this study, and then each of them will randomly be divided into two training groups.

The self-reported worst pain in the previous week will be measured using the visual analog scale (VAS; maximum score = 10 cm). The VAS is a self-reporting tool used to assess the level of pain of patients with shoulder pain due to scapular dyskinesis. Patients will be asked to draw a mark along a 10-cm line that indicates the amount of pain they are experiencing relative to a score of 0, indicating no pain, and a score of 10, indicating the most pain (worst). On the VAS, the investigators will choose to measure the "worst" pain, because previous studies suggested that it was more reliable than measuring "usual" pain.

LIBERTY™ electromagnetic tracking system (Polhemus, Colchester, VT, USA) was used to collect three-dimensional kinematic (3D) data during arm-lifting task and spiking task at a sampling rate of 120 Hz, and the software Motion Monitor® (Innovative Sport Training, Inc., Chicago. IL. USA) was used to analyze the data. The main measurement of shoulder kinematics include scapular upward/downward rotation, internal/external rotation, and anterior/posterior tilting. A stylus was used to digitize the bony landmarks for defining the anatomical coordinate system. The methods for this measure have been described previously.

For collecting muscle activation data, the investigators used surface electromyography (sEMG, TeleMyo 2400 G2 Telemetry; Noraxon USA, Inc., USA) to collect scapular muscles' activation during arm-lifting task. The investigators will measure the muscle activities of SA, UT, and LT. The electrodes will be placed according to previous studies, and will be positioned in parallel to the direction of the muscle fibers.

For exercise performance assessment during spiking task, the investigators measured scapular kinematics consistency. The spiking task is consisted of total 30 rep of spiking, including initial 5 trials, 20 rep of fatigue, and last 5 trials. The investigators will conduct a pilot study to confirm the measurement which the investigators designed with enough reliability and validity.

The data of each outcome measures would collect at before (PRE measurement) and after 4-week intervention (POST measurement) except for self-reported pain (VAS), which would be collected at each end of week in addition. If the subject could not complete PRE and/or POST measurement, the investigators will note the reason which makes him/her unable to finish the whole trials, such as pain, instability or any discomfort.

Statistical analysis will be done on intention-to-treat basis using SPSS software (version 20; formerly SPSS Inc, now IBM Corporation, Armonk, NY). Missing data will be replaced using a conservative method with the last score carried forward. The independent t test or Chi-square test will be used for baseline demographic data. Descriptive statistics will include mean, standard deviation, and 95% confidence interval values, and the investigators will calculate 2 × 2 analyses of variance (ANOVAs; group × time; p < 0.05) for each outcome variables. Significant differences revealed by the ANOVA will be further examined using Bonferroni post hoc analysis. The alpha (α) level will be set at 0.05. ;

Related Conditions & MeSH terms

• Shoulder Impingement Syndrome

• NCT number: NCT03566849
• Study type: Interventional
• Source: National Yang Ming University
• Status: Completed
• Phase: N/A
• Start date: December 15, 2017
• Completion date: December 10, 2018