Dynamic Stabilisers of the Shoulder Complex: Difference between revisions

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== Glenohumeral joint stability ==
== Glenohumeral joint stability ==


=== Deltoid and glenohumeral stabilization ===
=== Deltoid and Rotator cuff ===
 
==== Deltoid and glenohumeral stabilization ====
Deltoid has a significant role as a stabilizer and generally accepted as a prime mover for glenohumeral  abduction along with supraspinatus.
Deltoid has a significant role as a stabilizer and generally accepted as a prime mover for glenohumeral  abduction along with supraspinatus.


From the figure that show the line of action of deltoid with arm at side , the parallel force component (fx)directed superior is larger of three other component so that , the majority of deltoid contraction causes humeral head translate superior and a small applied perpendicular force is  directed to rotate humerus . That we need an inferior pull force to offset the (fx) component of middle deltoid for active arm elevation as gravity force can't balance this force.<ref>Levangie PK, Norkin CC. Joint Structure and Function; A Comprehensive Analysis. 5th. Philadelphia: Fadavis Company. 2012.</ref>
From the figure that show the line of action of deltoid with arm at side , the parallel force component (fx)directed superior is larger of three other component so that , the majority of deltoid contraction causes humeral head translate superior and a small applied perpendicular force is  directed to rotate humerus . That we need an inferior pull force to offset the (fx) component of middle deltoid for active arm elevation as gravity force can't balance this force.<ref>Levangie PK, Norkin CC. Joint Structure and Function; A Comprehensive Analysis. 5th. Philadelphia: Fadavis Company. 2012.</ref>


=== Rotator cuff and glenohumeral stabilization ===
==== Rotator cuff and glenohumeral stabilization ====
Rotator cuff not only abduct the shoulder it play a role as a stabilizer muscles<ref>Escamilla RF, Yamashiro K, Paulos L, Andrews JR. [https://www.ncbi.nlm.nih.gov/pubmed/19769415 Shoulder muscle activity and function in common shoulder rehabilitation exercises. Sports medicine.] 2009 Aug 1;39(8):663-85.</ref>
Rotator cuff not only abduct the shoulder it play a role as a stabilizer muscles<ref>Escamilla RF, Yamashiro K, Paulos L, Andrews JR. [https://www.ncbi.nlm.nih.gov/pubmed/19769415 Shoulder muscle activity and function in common shoulder rehabilitation exercises. Sports medicine.] 2009 Aug 1;39(8):663-85.</ref>


From figure 2 we can see all three muscles (teres minor,subscapularis,infraspinatus) in relation to their anatomical position and their muscle fiber direction from origin to insertion, tend to have similar inferior line of pull<ref name=":0" /> and with the summation of three forces of rotator cuff they nearly offset  superior translation of humeral head created by deltoid. The wide range of motion of the shoulder is allowed by the variety of rotational moments of the cuff muscles<ref>Longo UG, Berton A, Papapietro N, Maffulli N, Denaro V. [https://www.ncbi.nlm.nih.gov/pubmed/?term=Biomechanics+of+the+rotator+cuff%3A+European+perspective.+InRotator+Cuff+Tea Biomechanics of the rotator cuff: European perspective. InRotator Cuff Tea]r 2012 (Vol. 57, pp. 10-17). Karger Publishers.</ref>. Teres minor ,Infraspinatus as they are external rotators they contribute in abduction of arm by external rotation that participate clearing greater tubercle underneath the acromion. [[File:Muscles Rotator Cuff.jpg|thumb|figure 2|249x249px]]
From figure 2 we can see all three muscles (teres minor,subscapularis,infraspinatus) in relation to their anatomical position and their muscle fiber direction from origin to insertion, tend to have similar inferior line of pull<ref name=":0" /> and with the summation of three forces of rotator cuff they nearly offset  superior translation of humeral head created by deltoid. The wide range of motion of the shoulder is allowed by the variety of rotational moments of the cuff muscles<ref>Longo UG, Berton A, Papapietro N, Maffulli N, Denaro V. [https://www.ncbi.nlm.nih.gov/pubmed/?term=Biomechanics+of+the+rotator+cuff%3A+European+perspective.+InRotator+Cuff+Tea Biomechanics of the rotator cuff: European perspective. InRotator Cuff Tea]r 2012 (Vol. 57, pp. 10-17). Karger Publishers.</ref>. Teres minor ,Infraspinatus as they are external rotators they contribute in abduction of arm by external rotation that participate clearing greater tubercle underneath the acromion. [[File:Muscles Rotator Cuff.jpg|thumb|figure 2|249x249px]]
=== Supraspinatus and glenohumeral stabilization ===
==== Supraspinatus and glenohumeral stabilization ====
Regarding to supraspinatus location more superior than the three other rotator cuff it has a line of pull superior that can't offset deltoid force.
Regarding to supraspinatus location more superior than the three other rotator cuff it has a line of pull superior that can't offset deltoid force.


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For full rang shoulder elevation and reaching activities we need a force couples act on scapulothoracic joint for full rhythmic movement
For full rang shoulder elevation and reaching activities we need a force couples act on scapulothoracic joint for full rhythmic movement


=== Serratus anterior ===
=== Serratus anterior muscle and Trapezius ===
 
==== Serratus anterior<ref>Neumann DA, Camargo PR. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6849091/ Kinesiologic considerations for targeting activation of scapulothoracic muscles: part 1: serratus anterior]. Brazilian journal of physical therapy. 2019 Feb 2.</ref> ====
Serratus anterior muscle as a primary protractor muscle, it's capable of producing scapular protraction, upward rotation, external rotation and posterior tilting of scapula with progress arm elevation.
Serratus anterior muscle as a primary protractor muscle, it's capable of producing scapular protraction, upward rotation, external rotation and posterior tilting of scapula with progress arm elevation.


The strong action of serratus as a protractor need an apposite force to control  this movement. Serratus anterior and trapezius muscles work as a primary force couple to rotate scapula upward.
The strong action of serratus as a protractor need an apposite force to control  this movement. Serratus anterior and trapezius muscles work as a primary force couple to rotate scapula upward.


Weakness or inhibition of serratus anterior  
==== Trapezius muscle<ref>Camargo PR, Neumann DA. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6849087/ Kinesiologic considerations for targeting activation of scapulothoracic muscles–part 2: trapezius]. Brazilian journal of physical therapy. 2019 Feb 3.</ref> ====
Trapezius has a retraction effect on scapula to counter the protraction and lateral pull of serratus anterior


=== Trapezius muscle ===
==== <u>Upper trapezius</u> ====
Has a retraction effect on scapula to counter the protraction and lateral pull of serratus anterior. 
 
==== Upper trapezius ====
Take in consideration it's insertion to clavicle, it produce upward rotation of scapula indirect. It contributes to first degrees of clavicle elevation and retraction.
Take in consideration it's insertion to clavicle, it produce upward rotation of scapula indirect. It contributes to first degrees of clavicle elevation and retraction.


==== Middle trapezius ====
==== <u>Middle trapezius</u> ====
Contributes to offset the strong action of serratus anterior as a protractor and also produces an external rotation of scapula but it has a downward moment arm on scapula larger than it's upward moment arm.
Contributes to offset the strong action of serratus anterior as a protractor and also produces an external rotation of scapula but it has a downward moment arm on scapula larger than it's upward moment arm.


==== Lower trapezius ====
==== <u>Lower trapezius</u> ====
With serratus anterior lower trapezius is a primary upward rotators of scapula, it creates an upward rotation moment arm when the axis reach acromioclavicular joint.
With serratus anterior lower trapezius is a primary upward rotators of scapula, it creates an upward rotation moment arm when the axis reach acromioclavicular joint.


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{{#ev:youtube|YbbzQs7OBoY|300}}<ref>Muscle and Motion. Force Couple , Scapular Force Couple. Available from: http://www.youtube.com/watch?v=YbbzQs7OBoY[last accessed 12/3/2020]</ref>
{{#ev:youtube|YbbzQs7OBoY|300}}<ref>Muscle and Motion. Force Couple , Scapular Force Couple. Available from: http://www.youtube.com/watch?v=YbbzQs7OBoY[last accessed 12/3/2020]</ref>


=== Rhomboid muscle and Teres major ===
* The [[Rhomboids|rhomboid]] downward rotation action on scapula help to offset the undesired upward rotatory torque of [[Teres Major|teres major]] 
* Acts eccentrically to control change position of scapula during arm elevation so it contributes to counter the lateral translation force of serratus anterior.
* It has another stabilization role for scapula during adduction or extension.


== Conclusion ==
== Conclusion ==
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== Physical therapy intervention ==
== Physical therapy intervention ==
Imbalance of local or global dynamic stabilizers or both result in improper movement of shoulder girdle, scapular dyskinesia, shoulder impingement.
Imbalance of local or global dynamic stabilizers or both result in improper movement of shoulder girdle, [[Scapular Dyskinesia|scapular dyskinesia]], shoulder impingement.


Eccentric exercise for rotator cuff tendonopathy will be effective for collagen re-alignment of tendons.
Eccentric exercise for rotator cuff tendonopathy will be effective for collagen re-alignment of tendons.

Revision as of 01:49, 24 March 2020

Original Editor - Khloud Shreif

Top Contributors - Khloud Shreif, Amanda Ager, Kim Jackson and Rishika Babburu  

Introduction[edit | edit source]

The stability of shoulder joint like any other joints in body depend on static and dynamic stabilizer ,static stabilizers of shoulder are joint labrum and capsuloligaments component. .Dynamic stabilizers we mean muscles for example (supraspinatus, infraspinatus, subscapularis ,teres minor) plus periscapular muscles[1], which are very important for homogeneous shoulder movement to avoid some of shoulder problems for example: shoulder impingement .Dynamic stability of shoulder divided into; glenohumeral stability/local and scapulothoracic contribution stability/global.

figure 1 line of action of three parts of deltoid follows line of pull of middle deltoid the deltoid force resolved into a very large translatory component (Fx) and a small rotatory component (Fy).[2]

Glenohumeral joint stability[edit | edit source]

Deltoid and Rotator cuff[edit | edit source]

Deltoid and glenohumeral stabilization[edit | edit source]

Deltoid has a significant role as a stabilizer and generally accepted as a prime mover for glenohumeral abduction along with supraspinatus.

From the figure that show the line of action of deltoid with arm at side , the parallel force component (fx)directed superior is larger of three other component so that , the majority of deltoid contraction causes humeral head translate superior and a small applied perpendicular force is directed to rotate humerus . That we need an inferior pull force to offset the (fx) component of middle deltoid for active arm elevation as gravity force can't balance this force.[3]

Rotator cuff and glenohumeral stabilization[edit | edit source]

Rotator cuff not only abduct the shoulder it play a role as a stabilizer muscles[4]

From figure 2 we can see all three muscles (teres minor,subscapularis,infraspinatus) in relation to their anatomical position and their muscle fiber direction from origin to insertion, tend to have similar inferior line of pull[2] and with the summation of three forces of rotator cuff they nearly offset superior translation of humeral head created by deltoid. The wide range of motion of the shoulder is allowed by the variety of rotational moments of the cuff muscles[5]. Teres minor ,Infraspinatus as they are external rotators they contribute in abduction of arm by external rotation that participate clearing greater tubercle underneath the acromion.

figure 2

Supraspinatus and glenohumeral stabilization[edit | edit source]

Regarding to supraspinatus location more superior than the three other rotator cuff it has a line of pull superior that can't offset deltoid force.

Even though it still an effective stabilizer due to it's larger moment arm ,it's capable to elevate glenohumeral joint near normal.[2]

From illustrated above we can consider deltoid and rotator cuff as one of a force couple of glenohumeral joint.

Imbalance of one or more of these muscle consider a contribution cause to shoulder problems (impingement , bursitis , instability )

Scapulothoracic joint stability[edit | edit source]

For full rang shoulder elevation and reaching activities we need a force couples act on scapulothoracic joint for full rhythmic movement

Serratus anterior muscle and Trapezius[edit | edit source]

Serratus anterior[6][edit | edit source]

Serratus anterior muscle as a primary protractor muscle, it's capable of producing scapular protraction, upward rotation, external rotation and posterior tilting of scapula with progress arm elevation.

The strong action of serratus as a protractor need an apposite force to control this movement. Serratus anterior and trapezius muscles work as a primary force couple to rotate scapula upward.

Trapezius muscle[7][edit | edit source]

Trapezius has a retraction effect on scapula to counter the protraction and lateral pull of serratus anterior.

Upper trapezius[edit | edit source]

Take in consideration it's insertion to clavicle, it produce upward rotation of scapula indirect. It contributes to first degrees of clavicle elevation and retraction.

Middle trapezius[edit | edit source]

Contributes to offset the strong action of serratus anterior as a protractor and also produces an external rotation of scapula but it has a downward moment arm on scapula larger than it's upward moment arm.

Lower trapezius[edit | edit source]

With serratus anterior lower trapezius is a primary upward rotators of scapula, it creates an upward rotation moment arm when the axis reach acromioclavicular joint.

Serratus anterior and trapezius muscles they act agnostic for scapular movement and as a synergistic with glenohumeral forces[edit | edit source]

[8]

Rhomboid muscle and Teres major[edit | edit source]

  • The rhomboid downward rotation action on scapula help to offset the undesired upward rotatory torque of teres major
  • Acts eccentrically to control change position of scapula during arm elevation so it contributes to counter the lateral translation force of serratus anterior.
  • It has another stabilization role for scapula during adduction or extension.

Conclusion[edit | edit source]

figure 3

For smooth synchronous movement of shoulder we need deltoid and rotator cuff muscles to work in proper timing and adequate forces to offset each other.As deltoid act to stabilize humeral head against glenoid cavity with small participation to abduct the arm, there are(subscapularis, teres minor, infraspinatus) their force of pull balance deltoid action along with supraspinatus that participate mainly in arm abduction.

Deficit in one of these forces for example;insufficient activation of rotator cuff /deltoid over activation participate to narrowing coracoacomial space (figure 3) that compress tendons in this space[9]

Physical therapy intervention[edit | edit source]

Imbalance of local or global dynamic stabilizers or both result in improper movement of shoulder girdle, scapular dyskinesia, shoulder impingement.

Eccentric exercise for rotator cuff tendonopathy will be effective for collagen re-alignment of tendons.

Strength for weak or inhibited muscles like serratus anterior, rotator cuff muscles.

Muscles re-education to be activated in proper time is important to restore balance.

for more exercise this page below:

Related topics:[edit | edit source]

anatomy and biomechanics/biomechanics of shoulder movement/static structure and mechanoreceptors

shoulder musculature

  • Stability and instability of the glenohumeral joint: the role of shoulder muscles[10]

References[edit | edit source]

  1. Curl LA, Warren RF. Glenohumeral joint stability: selective cutting studies on the static capsular restraints. Clinical Orthopaedics and Related Research®. 1996 Sep 1;330:54-65.
  2. 2.0 2.1 2.2 Levangie PK, Norkin CC. Joint Structure and Function; A Comprehensive Analysis. 5th. Philadelphia: Fadavis Company. 2012.
  3. Levangie PK, Norkin CC. Joint Structure and Function; A Comprehensive Analysis. 5th. Philadelphia: Fadavis Company. 2012.
  4. Escamilla RF, Yamashiro K, Paulos L, Andrews JR. Shoulder muscle activity and function in common shoulder rehabilitation exercises. Sports medicine. 2009 Aug 1;39(8):663-85.
  5. Longo UG, Berton A, Papapietro N, Maffulli N, Denaro V. Biomechanics of the rotator cuff: European perspective. InRotator Cuff Tear 2012 (Vol. 57, pp. 10-17). Karger Publishers.
  6. Neumann DA, Camargo PR. Kinesiologic considerations for targeting activation of scapulothoracic muscles: part 1: serratus anterior. Brazilian journal of physical therapy. 2019 Feb 2.
  7. Camargo PR, Neumann DA. Kinesiologic considerations for targeting activation of scapulothoracic muscles–part 2: trapezius. Brazilian journal of physical therapy. 2019 Feb 3.
  8. Muscle and Motion. Force Couple , Scapular Force Couple. Available from: http://www.youtube.com/watch?v=YbbzQs7OBoY[last accessed 12/3/2020]
  9. <article> Joseph B. Myers, Ji-Hye Hwang, Maria R. Pasquale, J. Troy Blackburn and Scott M. Lephart. Rotator cuff coactivation ratios in participants with subacromial impingement syndrome.  Journal of Science and Medicine in Sport, Volume 12, Issue 6, November 2009, Pages 603-608 </article>
  10. Labriola JE, Lee TQ, Debski RE, McMahon PJ. Stability and instability of the glenohumeral joint: the role of shoulder muscles. Journal of shoulder and elbow surgery. 2005 Jan 1;14(1):S32-8.
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