Lag Sign of the Shoulder: Difference between revisions

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The external rotation lag sign (ERLS) was originally described by Hertel et al in 1996<ref name="Hertel">Hertel R, Ballmer FT, Lambert SM, Gerber C. Lag signs in the diagnosis of rotator cuff rupture. J Shoulder Elbow Surg 1996;5:307-13.</ref>. The purpose of this clinical diagnostic test is to assess the presence of a full-thickness rotator cuff tear. In particular the ERLS is designed to test the integrity of the supraspinatus and infraspinatus tendons.


== Purpose<br>  ==
== Technique  ==


The external rotation lag sign (ERLS) was originally described by Hertel et al in 1996<sup>1</sup>. The purpose of this clinical diagnostic test is to assess the presence of a full-thickness rotator cuff tear. In particular the ERLS is designed to test the integrity of the supraspinatus and infraspinatus tendons.  
The ERLS is performed with the patient seated. The elbow is passively flexed to 90° and the shoulder abducted to 90° and held 5° off maximal external rotation (to avoid elastic recoil of the joint capsule and the scapulothoracic joint). The patient is then asked to maintain the position actively while the examiner releases the wrist while maintaining support through the elbow. An inability to maintain the position (lag) would suggest a full-thickness tear of the rotator cuff<ref name="Miller">Miller CA, Forrester GA, Lewis JS. The validity of the lag signs in diagnosing full-thickness tears of the rotator cuff: a preliminary investigation. Arch Phys Med Rehabil 2008;89:1162-8.</ref>. The magnitude of the lag is recorded in degrees to the nearest 5°. The contralateral side serves as a control, especially to evaluate small lags that could be related to hyperlaxity or to overzealous external rotation by the examiner<ref name="Hertel" />.<br>


== Technique<br> ==
Testing and interpretation can be complicated by pathologic changes in passive range of motion (PROM) at the glenohumeral joint. When PROM is reduced because of capsular contracture or increased because of a subscapularis rupture, for instance, false-negative and false-positive results, respectively, can be expected<ref name="Hertel" />.<br>  


The ERLS is performed with the patient seated. The elbow is passively flexed to 90° and the shoulder elevated 20° (in the plane of the scapula) and held 5° off maximal external rotation (to avoid elastic recoil of the joint capsule and the scapulothoracic joint). The patient is then asked to maintain the position actively while the examiner releases the wrist while maintaining support through the elbow. An inability to maintain the position (lag) would suggest a full-thickness tear of the rotator cuff<sup>2</sup>. The magnitude of the lag is recorded in degrees to the nearest 5°. The contralateral side serves as a control, especially to evaluate small lags that could be related to hyperlaxity or to overzealous external rotation by the examiner<sup>3</sup>.<br>
{{#ev:youtube|7UsAcorKQUk}}


Testing and interpretation can be complicated by pathologic changes in passive range of motion (PROM) at the glenohumeral joint. When PROM is reduced because of capsular contracture or increased because of a subscapularis rupture, for instance, false-negative and false-positive results, respectively, can be expected<sup>1</sup>.<br>
== Evidence Summary  ==


[[Image:Lag.jpg|frame|center|100x50px]]
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Study<br>


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== Evidence  ==
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| Study<br><br>
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| Subjects (n)<br>  
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| Inclusion Criteria<br>  
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<br>  


The ERLS has been shown to be a highly specific clinical test for ruling in the diagnosis of a full-thickness tear of the supraspinatus and/or infraspinatus tendon(s) <sup>1-3</sup>. Evidenced by the less than optimal negative likelihood ratios and sensitivity values, a negative test result is less useful at ruling out the same diagnosis<sup>2-3</sup>.
The ERLS has been shown to be a highly specific clinical test for ruling in the diagnosis of a full-thickness tear of the supraspinatus and/or infraspinatus tendon(s)<ref name="Hertel" /><ref name="Miller" />. Evidenced by the less than optimal negative likelihood ratios and sensitivity values, a negative test result is less useful at ruling out the same diagnosis<ref name="Hertel" /><ref name="Miller" />.  
 
== References<br> ==
 
1. Hertel R, Ballmer FT, Lambert SM, Gerber C. Lag signs in the diagnosis of rotator cuff rupture. J Shoulder Elbow Surg 1996;5:307-13.  


2. Miller CA, Forrester GA, Lewis JS. The validity of the lag signs in diagnosing full-thickness tears of the rotator cuff: a preliminary investigation. Arch Phys Med Rehabil 2008;89:1162-8.
== References  ==


3. Hertel R, Ballmer FT, Lambert SM, Gerber C. Lag signs in the diagnosis of rotator cuff rupture J Shoulder Elbow Surg 1996;5:307-13.<br>
<references />
[[Category:Special_Tests]]
[[Category:Sports Medicine]]
[[Category:Athlete Assessment]]
[[Category:Shoulder]]
[[Category:Shoulder - Special Tests]]
[[Category:Shoulder - Assessment and Examination]]
[[Category:Assessment]]

Latest revision as of 20:51, 21 November 2019

Original Editor - Ernest Gamble

Top Contributors - Ernest Gamble, Admin, Rachael Lowe, Kim Jackson, Kai A. Sigel, WikiSysop, George Prudden, Wanda van Niekerk, Tony Lowe and Laura Ritchie  

Purpose[edit | edit source]

The external rotation lag sign (ERLS) was originally described by Hertel et al in 1996[1]. The purpose of this clinical diagnostic test is to assess the presence of a full-thickness rotator cuff tear. In particular the ERLS is designed to test the integrity of the supraspinatus and infraspinatus tendons.

Technique[edit | edit source]

The ERLS is performed with the patient seated. The elbow is passively flexed to 90° and the shoulder abducted to 90° and held 5° off maximal external rotation (to avoid elastic recoil of the joint capsule and the scapulothoracic joint). The patient is then asked to maintain the position actively while the examiner releases the wrist while maintaining support through the elbow. An inability to maintain the position (lag) would suggest a full-thickness tear of the rotator cuff[2]. The magnitude of the lag is recorded in degrees to the nearest 5°. The contralateral side serves as a control, especially to evaluate small lags that could be related to hyperlaxity or to overzealous external rotation by the examiner[1].

Testing and interpretation can be complicated by pathologic changes in passive range of motion (PROM) at the glenohumeral joint. When PROM is reduced because of capsular contracture or increased because of a subscapularis rupture, for instance, false-negative and false-positive results, respectively, can be expected[1].

Evidence Summary[edit | edit source]

Study

 Subjects (n)
 Inclusion Criteria
 Exclusion Criteria
 Reference Standard
 Sens.
 Spec.
 +LR
 -LR

Hertel et al1

 100
Patients who subsequently underwent open or arthroscopic surgery were included. Patients with any impairment of PROM at glenohumeral joint were excluded.
Arthroscopy or open surgery
 0.91 (ss+is)
 1.0 (ss+is)

 infinite
 0.09
Miller et al2
 37
 Patients with shoulder pain (pain in the C5-6 dermatome), full passive movement of the involved shoulder, and age over 18 years.
Patients with previous surgery to the symptomatic upper limb and any symptoms of neurologic origin.
 Diagnostic ultrasound
 .46 (ss+is)
.94 (ss+is)
 7.2
 0.55
Castoldi et al3
 401
 Retrospective review of 401 consecutive patient cases with painful shoulder conditions who subsequently underwent open or arthroscopic surgery.
 Patients with acute traumatic conditions, acute postoperative conditions, fractures, frozen shoulder with great deficit of range of motion and neurologic disorders.
 Arthroscopy or open surgery
 .56 (ss only)
 .98 (ss only)
 28.0
 0.45

Abbreviations for full-thickness tear locations: ss=supraspinatus, is=infraspinatus, ss+is=supraspinatus and infraspinatus


The ERLS has been shown to be a highly specific clinical test for ruling in the diagnosis of a full-thickness tear of the supraspinatus and/or infraspinatus tendon(s)[1][2]. Evidenced by the less than optimal negative likelihood ratios and sensitivity values, a negative test result is less useful at ruling out the same diagnosis[1][2].

References[edit | edit source]

  1. 1.0 1.1 1.2 1.3 1.4 Hertel R, Ballmer FT, Lambert SM, Gerber C. Lag signs in the diagnosis of rotator cuff rupture. J Shoulder Elbow Surg 1996;5:307-13.
  2. 2.0 2.1 2.2 Miller CA, Forrester GA, Lewis JS. The validity of the lag signs in diagnosing full-thickness tears of the rotator cuff: a preliminary investigation. Arch Phys Med Rehabil 2008;89:1162-8.
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