Lateral Scapular Slide Test: Difference between revisions
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== Purpose<br> == | == Purpose<br> == | ||
[[Scapular Dyskinesia|Scapular dyskinesis]] which is the alteration in scapular position maybe caused by decreased muscle performance of scapular stabilizers. The lateral scapular slide test assesses the scapular asymmetry between both sides and the ability of the scapular stabilizer muscles to control the scapular position..<ref name=":0">Odom CJ, Taylor AB, Hurd CE, Denegar CR. [https://academic.oup.com/ptj/article/81/2/799/2829545 Measurement of scapular asymmetry and assessment of shoulder dysfunction using the lateral scapular slide test]: a reliability and validity study. Physical therapy. 2001 Feb 1;81(2):799-809.</ref> | |||
The test maybe used as a quantitative measure of scapular stabilizers muscles strength during rehabilitation program.<ref name=":1">Shadmehr A, Bagheri H, Ansari NN, Sarafraz H. The reliability measurements of lateral scapular slide test at three different degrees of shoulder joint abduction. British journal of sports medicine. 2010 Mar 1;44(4):289-93.</ref> | |||
== Technique<br> == | == Technique<br> == | ||
The scapular position is measured by taking the side-to-side differences between both sides in all 3 test positions. The measurements are taken from the inferior angle of the scapulae to the spinous process of the thoracic vertebrae on the same horizontal plane. | |||
The test is done in 3 positions. With the arm abducted to 0, 45 and 90 degrees in the coronal plane. | |||
* Position 1 involves placing the shoulder in neutral position, with the arms relaxed at the sides. | |||
* Position 2 the humerus is placed in medial rotation and 45 degrees abduction, by positioning the patient’s hands around the waist. | |||
* Position 3 the humerus is placed in maximal medial rotation and 90 degrees abduction. | |||
The test is positive when there is a difference of 1.5 cm when measurements are compared bilaterally.<ref name=":0" /><ref name=":1" /> | |||
== Evidence == | == Evidence == | ||
A study by Odom et al, demonstrated poor diagnostic accuracy. The test demonstrated poor sensitivity and specificity in the 3 test positions.<ref name=":0" /><ref name=":2">Wright AA, Wassinger CA, Frank M, Michener LA, Hegedus EJ. Diagnostic accuracy of scapular physical examination tests for shoulder disorders: a systematic review. British journal of sports medicine. 2013 Sep 1;47(14):886-92.</ref> | |||
== | Another study by Shadmehr et al, also demonstrated poor diagnostic accuracy. The positive and negative likelihood ratios were from 0.94 to 1.22 and from 0.21 to 2.5, respectively. The test demonstrated high sensitivity and low specificity. The use of a caliper in this study instead of a tape could be the reason for improved sensitivity.<ref name=":1" /><ref name=":2" /> | ||
The LSST is based on the assumption that normal shoulder girdle function is symmetrical. However, a study by Koslow et al, done on asymptomatic athletes, found the LSST to have low specificity of 26.8%. The finding of this study is in line with researches reporting that scapular resting position is highly variable between sides.<ref>Koslow PA, Prosser LA, Strony GA, Suchecki SL, Mattingly GE. Specificity of the Lateral Scapular Side Test in Asymptomatic Competitive Athletes. Journal of Orthopaedic & Sports Physical Therapy. 2003 Jun;33(6):331-6.</ref> | |||
== References == | == References == | ||
<references /> | <references /> | ||
Revision as of 11:34, 4 August 2021
Purpose
[edit | edit source]
Scapular dyskinesis which is the alteration in scapular position maybe caused by decreased muscle performance of scapular stabilizers. The lateral scapular slide test assesses the scapular asymmetry between both sides and the ability of the scapular stabilizer muscles to control the scapular position..[1]
The test maybe used as a quantitative measure of scapular stabilizers muscles strength during rehabilitation program.[2]
Technique
[edit | edit source]
The scapular position is measured by taking the side-to-side differences between both sides in all 3 test positions. The measurements are taken from the inferior angle of the scapulae to the spinous process of the thoracic vertebrae on the same horizontal plane.
The test is done in 3 positions. With the arm abducted to 0, 45 and 90 degrees in the coronal plane.
- Position 1 involves placing the shoulder in neutral position, with the arms relaxed at the sides.
- Position 2 the humerus is placed in medial rotation and 45 degrees abduction, by positioning the patient’s hands around the waist.
- Position 3 the humerus is placed in maximal medial rotation and 90 degrees abduction.
The test is positive when there is a difference of 1.5 cm when measurements are compared bilaterally.[1][2]
Evidence[edit | edit source]
A study by Odom et al, demonstrated poor diagnostic accuracy. The test demonstrated poor sensitivity and specificity in the 3 test positions.[1][3]
Another study by Shadmehr et al, also demonstrated poor diagnostic accuracy. The positive and negative likelihood ratios were from 0.94 to 1.22 and from 0.21 to 2.5, respectively. The test demonstrated high sensitivity and low specificity. The use of a caliper in this study instead of a tape could be the reason for improved sensitivity.[2][3]
The LSST is based on the assumption that normal shoulder girdle function is symmetrical. However, a study by Koslow et al, done on asymptomatic athletes, found the LSST to have low specificity of 26.8%. The finding of this study is in line with researches reporting that scapular resting position is highly variable between sides.[4]
References[edit | edit source]
- ↑ 1.0 1.1 1.2 Odom CJ, Taylor AB, Hurd CE, Denegar CR. Measurement of scapular asymmetry and assessment of shoulder dysfunction using the lateral scapular slide test: a reliability and validity study. Physical therapy. 2001 Feb 1;81(2):799-809.
- ↑ 2.0 2.1 2.2 Shadmehr A, Bagheri H, Ansari NN, Sarafraz H. The reliability measurements of lateral scapular slide test at three different degrees of shoulder joint abduction. British journal of sports medicine. 2010 Mar 1;44(4):289-93.
- ↑ 3.0 3.1 Wright AA, Wassinger CA, Frank M, Michener LA, Hegedus EJ. Diagnostic accuracy of scapular physical examination tests for shoulder disorders: a systematic review. British journal of sports medicine. 2013 Sep 1;47(14):886-92.
- ↑ Koslow PA, Prosser LA, Strony GA, Suchecki SL, Mattingly GE. Specificity of the Lateral Scapular Side Test in Asymptomatic Competitive Athletes. Journal of Orthopaedic & Sports Physical Therapy. 2003 Jun;33(6):331-6.
