Shoulder Kinematics and Muscle Activation in Sport Climbers With Shoulder Pain
1 other identifier
observational
30
1 country
1
Brief Summary
Sport climbing has recently become a highly popular sport and was included in the Summer Olympic Games 2021. Shoulder injury accounts for 15 to 20 percent of all sport climbing injuries, and it is the third most common problems, only surpassed by wrist and hand injuries. Sport climbing involves both open and closed chain movements of upper limbs. These prolonged and repetitive movements on vertical or overhanging terrain may lead to overuse and fatigue, which result in injuries. Sport climbing consists of multiple movement elements. Pull up with small holds is a basic movement in sport climbing, and activates many shoulder muscles, including trapezius, serratus anterior, latissimus dorsi. Studies related to sport climbing have focused on observing difference between sport climbers and non-sport climbers. Altered posture, increased scapulohumeral rhythm during arm elevation, and decreased shoulder angle during one-arm hanging have been observed in sport climbers. However, little studies have investigated whether climbers with shoulder injuries demonstrate different shoulder kinematics and muscle activation during tasks related to sport climbing. Therefore, the purpose of this study is to investigate the shoulder kinematics and muscle activation during pull-up with small holds in sport climbers with and without shoulder pain. Methods. Thirty sport climbers with shoulder pain and 30 healthy control subjects matched with gender, age, dominant hand and experience will be recruited in this study. All subjects will undertake physical examinations such as shoulder range of motion (ROM). Shoulder kinematics and muscle activation will be collected during arm elevation in the scapular plane and pull-up with gym-bar and 20mm depth small climbing holds. An electromagnetic tracking system will be used to measure bilateral scapular and humerothoracic kinematics. Surface electromyography (EMG) will be used to record muscle activation of bilateral upper trapezius, lower trapezius, serratus anterior and latissimus dorsi. Demographic data and physical examination will be analyzed by independent t test or Chi-square test. Two-way ANOVA will be used to test differences between groups in kinematics and EMG data at different phases of tasks. If significant interaction effect is found, Post-hoc pairwise comparison with Bonferroni correction will be used. The significant level is set at 0.05.
Trial Health
Trial Health Score
Automated assessment based on enrollment pace, timeline, and geographic reach
participants targeted
Target at below P25 for all trials
Started Nov 2021
Shorter than P25 for all trials
1 active site
Health score is calculated from publicly available data and should be used for screening purposes only.
Trial Relationships
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Study Timeline
Key milestones and dates
Study Start
First participant enrolled
November 10, 2021
CompletedFirst Submitted
Initial submission to the registry
November 17, 2021
CompletedFirst Posted
Study publicly available on registry
December 1, 2021
CompletedPrimary Completion
Last participant's last visit for primary outcome
June 10, 2022
CompletedStudy Completion
Last participant's last visit for all outcomes
June 10, 2022
CompletedSeptember 9, 2022
September 1, 2022
7 months
November 17, 2021
September 7, 2022
Conditions
Keywords
Outcome Measures
Primary Outcomes (6)
Shoulder kinematics during arm elevation
Scapular kinematics, including anterior/posterior tilt, upward/downward rotation, and internal/external rotation in scapular plane elevation at 30°, 60°, 90°, and 120°, and will be described with degree (°).
Immediately during the experiment
Shoulder kinematics during pull-up with gym-bar
Scapular kinematics, including anterior/posterior tilt, upward/downward rotation, and internal/external rotation in pull-up, and will be described with degree (°).
Immediately during the experiment
Shoulder kinematics during pull-up with finger board
Scapular kinematics, including anterior/posterior tilt, upward/downward rotation, and internal/external rotation in pull-up, and will be described with degree (°).
Immediately during the experiment
Scapular muscles activation during arm elevation
The root mean square of electromyography (EMG) data of the upper trapezius, lower trapezius, serratus anterior, and latissimus dorsi 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°.
Immediately during the experiment
Scapular muscles activation during pull-up with gym-bar
The root mean square of electromyography (EMG) data of the upper trapezius, lower trapezius, serratus anterior, and latissimus dorsi will be normalized by the maximum voluntary contraction amplitude (percentage of maximal voluntary contraction, %).
Immediately during the experiment
Scapular muscles activation during pull-up with finger board
The root mean square of electromyography (EMG) data of the upper trapezius, lower trapezius, serratus anterior, and latissimus dorsi will be normalized by the maximum voluntary contraction amplitude (percentage of maximal voluntary contraction, %).
Immediately during the experiment
Study Arms (2)
Shoulder pain climbers group
Subjects with shoulder pain will be included to perform scaption and pull-up, and assess shoulder kinematics and muscle activation at the same time.
Healthy climbers group
Healthy subjects will be included to compare the differences in shoulder kinematics and muscle activation between healthy subjects and subjects with shoulder pain. Subjects in this group will received the same assessments as the shoulder pain climbers group.
Interventions
Lift the arm up in the scapular plane
Grasp the gymbar with both hands and pull up as high as the subject can
The width of the fingerboar is 20 mm. Pull up with fingers on the fingerboard.
Eligibility Criteria
1. Ages ranges from 20-40 years old 2. At least one year of experience of sport climbing 3. Sport Climbing frequency ≥ 6 hours per week in the last one month
You may qualify if:
- Ages ranges from 20-40 years old
- At least one year of experience of sport climbing
- Sport Climbing frequency ≥ 6 hours per week in the last one month
- Shoulder pain ≥ 1 month
- Minimum of 3/10 on the numerical rating scale (NRS) in the last one month
- Ages ranges from 20-40 years old
- Gender, age, dominant hand and experience matching to shoulder pain climbers group
- At least one year of experience of sport climbing
- Sport Climbing at least 6 hours per week in the last one month
- No history of shoulder pain in the last six months
You may not qualify if:
- History of upper limb surgery or fracture
- History of shoulder dislocation
- History of neck pain, back pain, or elbow injuries in the last one year
- Wrist or finger pain during sport climbing \> 3/10 on the numerical rating scale (NRS)
- Shoulder pain during pull-up \> shoulder pain during sport climbing
- Intensive exercise within 12 hours or any delay onset muscle soreness
- Systemic autoimmune disease
- Cancer
- Pregnancy
Contact the study team to confirm eligibility.
Sponsors & Collaborators
Study Sites (1)
National Yang Ming University
Taipei, 112, Taiwan
MeSH Terms
Conditions
Condition Hierarchy (Ancestors)
Study Officials
- PRINCIPAL INVESTIGATOR
Yin-Liang Lin
National Yang Ming Chiao Tung University
Study Design
- Study Type
- observational
- Observational Model
- CASE CONTROL
- Time Perspective
- CROSS SECTIONAL
- Sponsor Type
- OTHER
- Responsible Party
- PRINCIPAL INVESTIGATOR
- PI Title
- Assistant Professor
Study Record Dates
First Submitted
November 17, 2021
First Posted
December 1, 2021
Study Start
November 10, 2021
Primary Completion
June 10, 2022
Study Completion
June 10, 2022
Last Updated
September 9, 2022
Record last verified: 2022-09