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== Osteology  ==
The scapula is a thin, flat triangular-shaped bone placed on the postero-lateral aspect of the thoracic cage. It has 2 surfaces, 3 borders, 3 angles and 3 processes.


=== Surfaces ===
== Introduction ==
# <u>Costal Surface or Subscapular Fossa</u><br>It is concave and is directed medially and forwards. It is marked by 3 longitudinal ridges. A thick ridge adjoins the lateral border. This part of the bone is almost rod-like acts a lever for the action of serratus anterior in overhead abduction of the arm.
[[File:Overview of the scapula bone - Kenhub.png|alt=Overview of the scapula bone - anterior view|300x300px|Overview of the scapula bone - anterior view|thumb]]
# <u>Dorsal Surface</u><br>The prominent spine of scapula divides the surface into a smaller supraspinous fossa and a larger infraspinous fossa. The depth of the supraspinous fossa is filled by the supraspinatus muscle.
The scapula is a thin, flat triangular-shaped [[bone]] placed on the postero-lateral aspect of the [[Thoracic Anatomy|thoracic]] cage. It has 2 surfaces, 3 borders, 3 angles and 3 processes<ref>The Skeletal System. [https://www.theskeletalsystem.net/arm-bones/scapula.html Scapula]. 2021 Available from: <nowiki>https://www.theskeletalsystem.net/arm-bones/scapula.html</nowiki>. (accessed August 16 2023).</ref>.


=== Borders ===
== Osteology ==
# <u>Superior Border</u><u><br></u><u></u>It is thin and shorter. It presents the suprascapular notch near the root of the coracoid process. The superior border extends from the superior angle laterally towards coracoid process.
# <u>Lateral Border</u><br>This is thick and presents infraglenoid tubercle at the upper end. The lateral or axillary border runs from the inferior angle to the lateral angle of the scapula.
# <u>Medial Border</u><br>This is thin and extends from superior to inferior angle. With the arm resting by the side, the medial or vertebral border runs almost parallel to the spinal column.
<u></u>


=== Angles ===
The main part of the scapula, the body, consists of a somewhat triangular-shaped flat blade, with an inferiorly pointing apex, referred to as the inferior angle as well as lateral and superior angles. The scapula is described as having superior, medial, and lateral borders. [[File:Scapula post.jpeg|thumb|Dorsal view of the scapula]]
# <u>Superior Angle</u> iscovered by trapezius
#Posteriorly, the scapula is divided into a supraspinous fossa and infraspinous fossa by the scapular spine. Anteriorly, on the costal surface, is the shallow subscapular fossa
# <u>Inferior Angle</u> is covered by the latissimus dorsi. It moves forwards round the chest, when the arm is abducted. Palpation of the inferior angle provides a convenient method for following the movement of the scapula during arm motion.
# Laterally is the glenoid fossa.
# <u>Lateral or Glenoid Angle</u> is broad and bears the glenoid cavity or fossa, which is directed forward, laterally and slightly upwards.
# Anteriorly is the coracoid process
# Superiorly is the acromion that is continuous with the scapular spine and arcs anteriorly over the [[Humerus|humeral]] head. The suprascapular notch lies immediately medial to the base of the coracoid process. The spinoglenoid notch lies posteriorly behind the neck.<ref name=":0">Radiopedia [https://radiopaedia.org/articles/scapula Scapula] Available from:https://radiopaedia.org/articles/scapula (accessed August16 2023).</ref>
[[Image:Gray202.png|Left scapula, costal surface|alt=|right|frameless]]Angles
# Superior Angle is covered by [[trapezius]]
# Inferior angle is covered by the [[Latissimus Dorsi Muscle|latissimus dorsi.]] It moves forwards round the chest, when the arm is abducted. Palpation of the inferior angle provides a convenient method for following the movement of the scapula during arm motion.
# Lateral or Glenoid angle is broad and bears the glenoid cavity or fossa, which is directed forward, laterally and slightly upwards.


=== Processes ===
# <u>Spine or Spinuous Process</u> is a triangular plate of bone with 3 borders and 2 surfaces. It divides the dorsal surface of the scapula into supraspinous and infraspinous fossae. The posterior border is called the crest of the spine which has upper and lower lips.
# <u>The Acromion Process</u> has 2 borders, medial and lateral; 2 surfaces and a facet for clavicle.
# <u>The Coracoid Process </u><br><br>[[Image:Gray202.png|left|Left scapula, costal surface]]


[[Image:Gray203.png|center|left scapula, dorsal surface]]


<br>
== Attachments on Scapula ==
{{#ev:youtube|fEXrPsGySKI|300}} <ref>Kenhub-Learn Human Anatomy.Anatomy and Function of the Scapula-Human Anatomy|Kenhub.Available from:https://youtu.be/fEXrPsGySKI (Assessed 31 July 2020) </ref>
The scapula's stability is dependent on the surrounding musculature, with several muscles that attach directly to the scapula. It has various bony projections for attachment of [[Muscle|muscles]], [[ligament]]<nowiki/>s and other soft-tissue structures.<ref name="WGR">Williams GR Jr, Shakil M, Klimkiewicz J, Iannotti JP. [https://pubmed.ncbi.nlm.nih.gov/10078149/ Anatomy of the Scapulothoracic Articulation]. Clin Orthop Relat Res. 1999; 359:237-246.doi: 10.1097/00003086-199902000-00027. </ref> The levator scapulae attaches at the superior angle of the scapula, while the teres major attaches at the inferior angle of the scapula. The rhomboids major and minor attach to the medial border of the scapula, whereas the serratus anterior attaches to the medial margin. The subscapularis originates on the anterior surface of the scapula, also known as the subscapular fossa. The infraspinatus attaches to the posterior surface, also known as the infraspinous fossa. The superior portion of the posterior side is also known as the supraspinous fossa and the supraspinatus attaches here. The 4 rotator cuff muscles include the supraspinatus, infraspinatus, subscapularis, and teres minor. These 4 muscles form a musculotendinous cuff around the glenohumeral joint and provide muscular support to the joint.<ref name=":2">Merolla G, Cerciello S, Paladini P, Porcellini G. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3711706/ Snapping scapula syndrome: current concepts review in conservative and surgical treatment]. Muscles, ligaments and tendons journal. 2013; 3(2): 80–90.</ref>
=== Attachments on Scapula ===
Scapula has various bony projections for attachment of muscles, ligaments and other soft-tissue structures.<ref name="WGR">Williams GR, Shakil M, Klimkiewicz J. Anatomy of the Scapulothoracic Articulation. Clin Orthop Relat Res. Feb 1999;237-46. [Medline].</ref> These include the scapular spine, acromion process, coracoid process, scapular notch, lateral scapular spine, and glenoid fossa. The suprascapular nerve travels through the notch and provides motor supply to the supraspinatus muscle and infraspinatus muscle, as well as sensation to the acromioclavicular joint.<ref name="WGR" />&nbsp;<ref name="CE">Culham E, Peat M. Functional Anatomy of the Shoulder Complex. J Orthop Sports Phys Ther. Jul 1993;18(1):342-50. [Medline].</ref><br>


=== Ossification ===
==== Muscles ====
The scapula ossifies from one primary centre and seven secondary centres. The primary centre appears near the glenoid cavity during the 8th week of development. The 1st secondary centre appears in the middle of coracoid process during the first year and fuses by the 15th year. The subcoracoid centre appears in the root of the coracoid process during the 10th year and fuses by the 16th to 18th years. The other centres, including 2 for the acromion , oe for the lower 2/3rds of the margin of the glenoid cavity, one for the medial border and one for the inferior angle, appear at puberty and fuse by the 25th year. <ref name="WGR" />
[[File:Muscles of the scapular region posterior aspect Primal.png|alt=|right|frameless|150x150px|Muscles attached to the Scapula ]]
 
17 muscles attach to the scapula!
== Soft Tissue ==
 
=== Muscles ===
* [[Subscapularis|Subscapularis]] arises from the medial 2/3rds of the subscapular fossa.
* [[Subscapularis|Subscapularis]] arises from the medial 2/3rds of the subscapular fossa.
* [[Supraspinatus|Supraspinatus]] arises from medial 2/3rds of supraspinous fossa including upper surface of the spine
* [[Supraspinatus|Supraspinatus]] arises from medial 2/3rds of supraspinous fossa including upper surface of the spine
* [[Infraspinatus|Infraspinatus arises]] from medial 2/3rds of infraspinous fossa, including lower surface of spinthe e.
* [[Infraspinatus|Infraspinatus arises]] from medial 2/3rds of infraspinous fossa, including lower surface of the spine.
* [[Deltoid|Deltoid arises]] from lower border of the crest of spinthe e and from lateral border acromion.
* [[File:Muscles of the scapular region anterior aspect Primal.png|thumb|150x150px|Muscles attached to the Scapula ]][[Deltoid|Deltoid arises]] from lower border of the crest of the spine and from lateral border acromion.
* Latissimus Dorsi lower fibres originate from inferior angle of scapthe ula
* [[Latissimus Dorsi Muscle|Latissimus Dorsi]] lower fibres originate from inferior angle of the scapula
* [[Trapezius|Trapezius]] is inserted into the upper border of the crest of the spine and into medial border of the acromion.
* [[Trapezius|Trapezius]] is inserted into the upper border of the crest of the spine and into medial border of the acromion.
* Serratus anterior is inserted along the medial border of costal surface; 1 digitation from the superior angle to the root of spthe ine, 2 digitations to the medial border, 5 digitations to the inferior angle.
* [[Serratus Anterior|Serratus anterior]] is inserted along the medial border of costal surface; 1 digitation from the superior angle to the root of the spine, 2 digitations to the medial border, 5 digitations to the inferior angle.
* The long head of [[biceps brachii]] arises from supraglenoid tubercle and the short head from the lateral part of the tip of the coracoid process.
* The long head of [[Biceps Brachii]] arises from supraglenoid tubercle and the short head from the lateral part of the tip of the coracoid process.
* Coracobrachialis arises from medial part of tip ohe tf coracoids process  
* [[Coracobrachialis Muscle|Coracobrachialis]] arises from medial part of tip of the coracoids process
* Pectoralis minor is inserted into the medial borderand superior surface of coracoidsprocess.
* [[Pectoralis Minor|Pectoralis minor]] is inserted into the medial border and superior surface of coracoids process.
* The long head of [[Triceps brachii|triceps]] arises from infraglenoid tubercle
* The long head of [[Triceps brachii|triceps]] arises from infraglenoid tubercle
* [[Teres Minor|Teres minor]] arises from upper 2/3rds of rough strip on the dorsal surface along the lateral border.  
* [[Teres Minor|Teres minor]] arises from upper 2/3rds of rough strip on the dorsal surface along the lateral border.  
* Teres major arises from lower 1/3rd of rough strip on the dorsal aspect of lateral border  
* [[Teres Major|Teres major]] arises from lower 1/3rd of rough strip on the dorsal aspect of lateral border  
* [[Levator Scapulae|Levator scapulae is]] inserted along the dorsal aspect of the medial border, from superior angle up to root of spinthe e
* [[Levator Scapulae|Levator scapulae is]] inserted along the dorsal aspect of the medial border, from superior angle up to root of the spine
* Rhomboideus minor is inserted into medial border (dorsal aspect) opposite to root of spine
* [[Rhomboids|Rhomboideus minor]] is inserted into medial border (dorsal aspect) opposite to root of spine
* Rhomboideus major is inserted into the medial border (dorsal aspect) between the root of spine and inferior angle
* [[Rhomboids|Rhomboideus major]] is inserted into the medial border (dorsal aspect) between the root of spine and inferior angle
* Inferior belly of omohyoid arises from upper border near suprthe ascapular notch.
* Inferior belly of omohyoid arises from upper border near the suprascapular notch.
[[Image:Gray202.png|Left scapula, costal surface|alt=|frameless|right]][[Image:Gray203.png|left scapula, dorsal surface|alt=|right|frameless]]


=== Ligaments ===
==== Ligaments ====
* The margin of glenoid cavity gives attachment to the capsule of shouthe lder joint and to the glenoid labrum  
* The margin of glenoid cavity gives attachment to the capsule of [[Glenohumeral Joint|shoulder joint]] and to the [[Glenoid Labrum|glenoid labrum]]
* The margin of the facet on the medial aspect of the acromion gives attachment to the capsule of the acromioclavicular joint  
* The margin of the facet on the medial aspect of the acromion gives attachment to the capsule of the [[Acromioclavicular Joint|acromioclavicular joint]]
* The coracoacromial ligament is attached to the lateral border of the coracoids process and to the medial side of the tip of the acromion process  
* The coracoacromial ligament is attached to the lateral border of the coracoid process and to the medial side of the tip of the acromion process
* The coracohumeral ligament is attached to the root of the coracoids process.  
* The coracohumeral ligament is attached to the root of the coracoids process.
* The coracoclavicular ligament is attached to the coracoid process; the trapezoid part on the superior aspect, and the conoid part near the root.&nbsp;The coracoclavicular ligament is made up of 2 bands: the conoid and the trapezoid, both of which provide vertical stability. The coracoacromial ligament connects the coracoid process to the acromion.  
* The coracoclavicular ligament is attached to the coracoid process; the trapezoid part on the superior aspect, and the conoid part near the root. The coracoclavicular ligament is made up of 2 bands: the conoid and the trapezoid, both of which provide vertical stability. The coracoacromial ligament connects the coracoid process to the acromion.
* The suprascapular ligament bridges across the suprascapular notch and converts it into a foramen which transmits the suprascapular nerve. The suprascapular ligament lie above the ligament.
* The suprascapular ligament bridges across the suprascapular notch and converts it into a foramen which transmits the suprascapular nerve. The suprascapular ligament lie above the ligament.
* The spinoglenoid ligayment bridges the spinoglenoid notch. The suprascapular vessels and nerve pass to it.  
* The spinoglenoid ligament bridges the spinoglenoid notch. The suprascapular vessels and nerve pass to it.
* The acromioclavicular ligament connects the distal end of the clavicle to the acromion and provides horizontal stability  
* The acromioclavicular ligament connects the distal end of the clavicle to the acromion and provides horizontal stability


=== Bursae ===
==== Bursae ====
There are two major bursae:  
There are two major bursae:  
# Scapulothoracic Bursa, between the serratus and the thorax, and
# Scapulothoracic Bursa, between the serratus and the thorax, and
# Subscapularis Bursa, between the subscapularis and the serratus.<br>  
# Subscapularis Bursa, between the subscapularis and the serratus.<br>


<br>
== Biomechanics ==
[[File:Muscles Rotator Cuff.jpg|frameless|right]]
The scapula upwardly rotates in the frontal plane, posteriorly tilts in the parasagittal plane, and externally rotates in the transverse plane during functional elevation. Scapular control is essential to scapulohumeral coordination. Posterior tilting is responsible for humeral clearance during the acromiohumeral portion of shoulder elevation.


[[Image:Arm muscles back.png|center|back muscles of the arm]]<br>
Scapula articulates with the posterior chest wall and is alone in conjunction with the upper limb by the acromioclavicular joint.  The acromioclavicular joint has no distinct movements and is only associated with movements by the scapulothoracic joint. The scapulothoracic joint movement is dependent on the acromioclavicular and sternoclavicular joints. The scapulohumeral rhythm is a combination of motions of the scapula, clavicle, and humerus to get full elevation of the arm, which has a 2:1 ratio. This means for every two degrees of movement at the humerus, the scapula moves one degree. To get the full 180 degrees of elevation of the arm, 120 degrees of movement occur at the glenohumeral joint, while 60 degrees of upward rotation occurs at the scapulothoracic joint. The scapula must upwardly rotate, posteriorly tilt and externally rotate, while the clavicle must elevate, retract and posteriorly roll. The thoracic spine must extend. The muscle synergists for upward rotation are the upper and lower trapezius and the serratus anterior.


== Biomechanics  ==
A study reported that scapular upward rotation and retraction are greatest during abduction elevation, when compared to flexion elevation. They also discovered that posterior tilting was greatest during flexion elevation.<ref>Fung M, Kato S, Barrance PJ, Elias JJ, McFarland EG, Nobuhara K, et al. [https://www.jshoulderelbow.org/article/S1058-2746(01)48100-6/fulltext Scapular and clavicular kinematics during humeral elevation: a study with cadavers]. J Shoulder Elbow Surg. 2001; 10 (3):278-85</ref> Any disturbance in this rhythm can decrease scapulothoracic movement and can be associated with fatigue, impingement, instability, and limits in elevation. <ref name="WGR" /> <ref name="CE">Culham E, Peat M. [https://www.jospt.org/doi/epdf/10.2519/jospt.1993.18.1.342 Functional Anatomy of the Shoulder Complex]. J Orthop Sports Phys Ther. 1993;18(1):342-50.</ref>


The scapula upwardly rotates in the frontal plane, posteriorly tilts in the parasagittal plane, and externally rotates in the transverse plane during functional elevation. Scapular control is essential to scapulohumeral coordination. Posterior tilting is responsible for humeral clearance during the acromiohumeral portion of shoulder elevation.  
== Resources ==
Watch this 3 minute video for a recap
{{#ev:youtube|fEXrPsGySKI|500}}<ref>KenHub. Anatomy and function of the scapula. Available from: http://www.youtube.com/watch?v=fEXrPsGySKI [last accessed 16/8/2023]</ref>


Fung et al discovered that scapular upward rotation and retraction are greatest during abduction elevation, when compared to flexion elevation. They also discovered that posterior tilting was greatest during flexion elevation. Any disturbance in this rhythm can decrease scapulothoracic movement and can be associated with fatigue, impingement, instability, and limits in elevation. <ref name="WGR" /> <ref name="CE" />  
== Related pathology ==
* [[Scapular Dyskinesia]]
* [[Winged scapula]]
* [[Bankart lesion]]
* [[Acromioclavicular Joint Disorders|acromioclavicular joint injury]]
* [[osteochondroma]]
* [[Giant Cell Tumor|giant cell tumour]]
* [[chondrosarcoma]]
* [[osteosarcoma]]
* [[Ewing's Sarcoma|Ewing's sarcoma]]
* [[Multiple Myeloma|multiple myeloma]]<ref name=":0" />


== References  ==
== References  ==
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[[Category:Shoulder - Anatomy]]   
[[Category:Shoulder - Anatomy]]   
[[Category:Thoracic Spine]]  
[[Category:Thoracic Spine]]  
[[Category:Thoracic Spine - Anatomy]]
[[Category:Thoracic Spine - Anatomy]]  
[[Category:Thoracic Spine - Anatomy]]  
[[Category:Thoracic Spine - Bones]]
[[Category:Thoracic Spine - Bones]]
[[Category:Anatomical Landmarks]]

Latest revision as of 13:34, 26 August 2023

Original Editor - Venus Pagare

Top Contributors - Venus Pagare, Kim Jackson, Lucinda hampton, Uchechukwu Chukwuemeka, Chrysolite Jyothi Kommu, Oyemi Sillo, Joao Costa, Naomi O'Reilly, Vanessa Rhule and Ewa Jaraczewska  

Introduction[edit | edit source]

Overview of the scapula bone - anterior view
Overview of the scapula bone - anterior view

The scapula is a thin, flat triangular-shaped bone placed on the postero-lateral aspect of the thoracic cage. It has 2 surfaces, 3 borders, 3 angles and 3 processes[1].

Osteology[edit | edit source]

The main part of the scapula, the body, consists of a somewhat triangular-shaped flat blade, with an inferiorly pointing apex, referred to as the inferior angle as well as lateral and superior angles. The scapula is described as having superior, medial, and lateral borders.

Dorsal view of the scapula
  1. Posteriorly, the scapula is divided into a supraspinous fossa and infraspinous fossa by the scapular spine. Anteriorly, on the costal surface, is the shallow subscapular fossa
  2. Laterally is the glenoid fossa.
  3. Anteriorly is the coracoid process
  4. Superiorly is the acromion that is continuous with the scapular spine and arcs anteriorly over the humeral head. The suprascapular notch lies immediately medial to the base of the coracoid process. The spinoglenoid notch lies posteriorly behind the neck.[2]

Angles

  1. Superior Angle is covered by trapezius
  2. Inferior angle is covered by the latissimus dorsi. It moves forwards round the chest, when the arm is abducted. Palpation of the inferior angle provides a convenient method for following the movement of the scapula during arm motion.
  3. Lateral or Glenoid angle is broad and bears the glenoid cavity or fossa, which is directed forward, laterally and slightly upwards.


Attachments on Scapula[edit | edit source]

The scapula's stability is dependent on the surrounding musculature, with several muscles that attach directly to the scapula. It has various bony projections for attachment of muscles, ligaments and other soft-tissue structures.[3] The levator scapulae attaches at the superior angle of the scapula, while the teres major attaches at the inferior angle of the scapula. The rhomboids major and minor attach to the medial border of the scapula, whereas the serratus anterior attaches to the medial margin. The subscapularis originates on the anterior surface of the scapula, also known as the subscapular fossa. The infraspinatus attaches to the posterior surface, also known as the infraspinous fossa. The superior portion of the posterior side is also known as the supraspinous fossa and the supraspinatus attaches here. The 4 rotator cuff muscles include the supraspinatus, infraspinatus, subscapularis, and teres minor. These 4 muscles form a musculotendinous cuff around the glenohumeral joint and provide muscular support to the joint.[4]

Muscles[edit | edit source]

17 muscles attach to the scapula!

  • Subscapularis arises from the medial 2/3rds of the subscapular fossa.
  • Supraspinatus arises from medial 2/3rds of supraspinous fossa including upper surface of the spine
  • Infraspinatus arises from medial 2/3rds of infraspinous fossa, including lower surface of the spine.
  • Muscles attached to the Scapula
    Deltoid arises from lower border of the crest of the spine and from lateral border acromion.
  • Latissimus Dorsi lower fibres originate from inferior angle of the scapula
  • Trapezius is inserted into the upper border of the crest of the spine and into medial border of the acromion.
  • Serratus anterior is inserted along the medial border of costal surface; 1 digitation from the superior angle to the root of the spine, 2 digitations to the medial border, 5 digitations to the inferior angle.
  • The long head of Biceps Brachii arises from supraglenoid tubercle and the short head from the lateral part of the tip of the coracoid process.
  • Coracobrachialis arises from medial part of tip of the coracoids process
  • Pectoralis minor is inserted into the medial border and superior surface of coracoids process.
  • The long head of triceps arises from infraglenoid tubercle
  • Teres minor arises from upper 2/3rds of rough strip on the dorsal surface along the lateral border.
  • Teres major arises from lower 1/3rd of rough strip on the dorsal aspect of lateral border
  • Levator scapulae is inserted along the dorsal aspect of the medial border, from superior angle up to root of the spine
  • Rhomboideus minor is inserted into medial border (dorsal aspect) opposite to root of spine
  • Rhomboideus major is inserted into the medial border (dorsal aspect) between the root of spine and inferior angle
  • Inferior belly of omohyoid arises from upper border near the suprascapular notch.

Ligaments[edit | edit source]

  • The margin of glenoid cavity gives attachment to the capsule of shoulder joint and to the glenoid labrum
  • The margin of the facet on the medial aspect of the acromion gives attachment to the capsule of the acromioclavicular joint
  • The coracoacromial ligament is attached to the lateral border of the coracoid process and to the medial side of the tip of the acromion process
  • The coracohumeral ligament is attached to the root of the coracoids process.
  • The coracoclavicular ligament is attached to the coracoid process; the trapezoid part on the superior aspect, and the conoid part near the root. The coracoclavicular ligament is made up of 2 bands: the conoid and the trapezoid, both of which provide vertical stability. The coracoacromial ligament connects the coracoid process to the acromion.
  • The suprascapular ligament bridges across the suprascapular notch and converts it into a foramen which transmits the suprascapular nerve. The suprascapular ligament lie above the ligament.
  • The spinoglenoid ligament bridges the spinoglenoid notch. The suprascapular vessels and nerve pass to it.
  • The acromioclavicular ligament connects the distal end of the clavicle to the acromion and provides horizontal stability

Bursae[edit | edit source]

There are two major bursae:

  1. Scapulothoracic Bursa, between the serratus and the thorax, and
  2. Subscapularis Bursa, between the subscapularis and the serratus.

Biomechanics[edit | edit source]

Muscles Rotator Cuff.jpg

The scapula upwardly rotates in the frontal plane, posteriorly tilts in the parasagittal plane, and externally rotates in the transverse plane during functional elevation. Scapular control is essential to scapulohumeral coordination. Posterior tilting is responsible for humeral clearance during the acromiohumeral portion of shoulder elevation.

Scapula articulates with the posterior chest wall and is alone in conjunction with the upper limb by the acromioclavicular joint. The acromioclavicular joint has no distinct movements and is only associated with movements by the scapulothoracic joint. The scapulothoracic joint movement is dependent on the acromioclavicular and sternoclavicular joints. The scapulohumeral rhythm is a combination of motions of the scapula, clavicle, and humerus to get full elevation of the arm, which has a 2:1 ratio. This means for every two degrees of movement at the humerus, the scapula moves one degree. To get the full 180 degrees of elevation of the arm, 120 degrees of movement occur at the glenohumeral joint, while 60 degrees of upward rotation occurs at the scapulothoracic joint. The scapula must upwardly rotate, posteriorly tilt and externally rotate, while the clavicle must elevate, retract and posteriorly roll. The thoracic spine must extend. The muscle synergists for upward rotation are the upper and lower trapezius and the serratus anterior.

A study reported that scapular upward rotation and retraction are greatest during abduction elevation, when compared to flexion elevation. They also discovered that posterior tilting was greatest during flexion elevation.[5] Any disturbance in this rhythm can decrease scapulothoracic movement and can be associated with fatigue, impingement, instability, and limits in elevation. [3] [6]

Resources[edit | edit source]

Watch this 3 minute video for a recap

[7]

Related pathology[edit | edit source]

References[edit | edit source]

  1. The Skeletal System. Scapula. 2021 Available from: https://www.theskeletalsystem.net/arm-bones/scapula.html. (accessed August 16 2023).
  2. 2.0 2.1 Radiopedia Scapula Available from:https://radiopaedia.org/articles/scapula (accessed August16 2023).
  3. 3.0 3.1 Williams GR Jr, Shakil M, Klimkiewicz J, Iannotti JP. Anatomy of the Scapulothoracic Articulation. Clin Orthop Relat Res. 1999; 359:237-246.doi: 10.1097/00003086-199902000-00027.
  4. Merolla G, Cerciello S, Paladini P, Porcellini G. Snapping scapula syndrome: current concepts review in conservative and surgical treatment. Muscles, ligaments and tendons journal. 2013; 3(2): 80–90.
  5. Fung M, Kato S, Barrance PJ, Elias JJ, McFarland EG, Nobuhara K, et al. Scapular and clavicular kinematics during humeral elevation: a study with cadavers. J Shoulder Elbow Surg. 2001; 10 (3):278-85
  6. Culham E, Peat M. Functional Anatomy of the Shoulder Complex. J Orthop Sports Phys Ther. 1993;18(1):342-50.
  7. KenHub. Anatomy and function of the scapula. Available from: http://www.youtube.com/watch?v=fEXrPsGySKI [last accessed 16/8/2023]
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