Difference between revisions of "Sternoclavicular Joint"

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The sternoclavicular joint (SCJ) is a diarthrodial, multi-axial saddle joint, and consists of the articulation between the manubrium sterni, the proximal clavicle, and the cartilage of the first rib. The articular surfaces are covered by hyaline cartilage. The joint has an intraarticular disc or meniscus that is made of fibrocartilage. It is attached to the joint capsule anteriorly and posteriorly, first costal cartilage inferiorly and the clavicle superiorly.
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The sternoclavicular joint (SCJ) is a diarthrodial, multi-axial saddle joint, and consists of the articulation between the manubrium sterni, the proximal clavicle, and the cartilage of the first rib. The articular surfaces are covered by hyaline cartilage. The joint has an intraarticular disc or meniscus that is made of fibrocartilage that divides the joint into two cavities. It is attached to the joint capsule anteriorly and posteriorly, first costal cartilage inferiorly and the clavicle superiorly.
  
==Ligaments==
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==Joint Stability==
The joint has limited osseous restraint and is primarily stabilised by the following ligaments.
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With limited osseous restraint and less than half of the medial clavicular surface articulating with the corresponding articular facet on the sternum, one would think that the joint is unstable. However it is actually quite strong with stability being provided by the following ligaments, and to a lesser extent muscular attachments.
  
 
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The subclavius muscle also functions to provide joint stability.
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The subclavius muscle also functions to provide joint stability. The subclavius muscle has a tendinous origin from the first rib just lateral to the costoclavicular ligament. It's insertion is onto the inferior surface of the clavicle. It acts to reduce the rate and range of upward displacement of the clavicle when under lateral compressive loads. It is a shock-absorber, reducing the strain placed on the SCJ.
  
 
==Biomechanics==
 
==Biomechanics==
 
The SCJ is only of five articulations that allow fluid shoulder girdle movement. It provides 35° range of motion for movement in the horizontal and coronal planes and 70° range of motion antero-posteriorly. It also provides 50° of rotation along its long axis. Movement of the shoulder girdle influences movement of the SCJ. With humeral elevation of up to 90°, there is 4° of clavicular elevation about the SCJ with every 10°of humeral elevation. Rigid fixation of the SCJ therefore results in inadequate mobility.
 
The SCJ is only of five articulations that allow fluid shoulder girdle movement. It provides 35° range of motion for movement in the horizontal and coronal planes and 70° range of motion antero-posteriorly. It also provides 50° of rotation along its long axis. Movement of the shoulder girdle influences movement of the SCJ. With humeral elevation of up to 90°, there is 4° of clavicular elevation about the SCJ with every 10°of humeral elevation. Rigid fixation of the SCJ therefore results in inadequate mobility.
  
There are no muscles that immediately act on the SCJ. SCJ motion primarily depends on the motion of the scapula and shoulder girdle, including the clavicle. Muscles that insert on the clavicle that influence SCJ movement are the deltoid, pectoralis major, trapezius, and sternocleidomastoid muscles.
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SCJ motion primarily depends on the motion of the scapula and shoulder girdle, including the clavicle. Muscles that insert on the clavicle that influence SCJ movement are the deltoid, pectoralis major, trapezius, and sternocleidomastoid muscles.
  
 
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==Variants==
 
==Variants==
 
In a small portion of cases there is a facet that articulates with the first rib.
 
In a small portion of cases there is a facet that articulates with the first rib.
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==Age Changes==
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The clavicle is the first bone to ossify, and this occurs in the fifth week of gestation. Meanwhile, the medial physis of the clavicle is the last to fuse, with this occurring between the ages of 23 and 25 years. This makes diagnosing traumatic SCJ instability difficult in younger individuals. Some injuries are misdiagnosed as SCJ dislocations, where they are in fact, medial physeal fracture-separations. The intra-articular disc degenerates over time, and by the seventh and eighth decades it is frequently incomplete.
  
 
==See Also==
 
==See Also==

Revision as of 06:24, 20 April 2021

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SCJ Gray.png
Sternoclavicular Joint
Primary Type Saddle joint"Saddle joint" is not in the list (Synovial Joint, Cartilaginous Joint, Fibrous Joint, Compound Joint) of allowed values for the "Has joint type" property.
Secondary Type
Bones Manubrium, proximal clavicle"Proximal clavicle" is not in the list (Vertebra, Sacrum, Coccyx, Scapula, Clavicle, Humerus, Radius, Ulna, Scaphoid, Lunate, ...) of allowed values for the "Has joint bones" property., cartilage of first rib"Cartilage of first rib" is not in the list (Vertebra, Sacrum, Coccyx, Scapula, Clavicle, Humerus, Radius, Ulna, Scaphoid, Lunate, ...) of allowed values for the "Has joint bones" property.
Ligaments Sternoclavicular, costoclavicular, interclavicular ligs.
Muscles
Innervation Medial supraclavicular (C3-4) and subclavian (C5-6) nn.
Vasculature Internal thoracic and suprascapular aa. (branches of the subclavian a.)
ROM 35° in the horizontal and coronal planes, 70° range of motion anteroposteriorly, 50° of rotation along its long axis.
Volume
Conditions Sternoclavicular Joint Pain and Instability


The sternoclavicular joint (SCJ) is a diarthrodial, multi-axial saddle joint, and consists of the articulation between the manubrium sterni, the proximal clavicle, and the cartilage of the first rib. The articular surfaces are covered by hyaline cartilage. The joint has an intraarticular disc or meniscus that is made of fibrocartilage that divides the joint into two cavities. It is attached to the joint capsule anteriorly and posteriorly, first costal cartilage inferiorly and the clavicle superiorly.

Joint Stability

With limited osseous restraint and less than half of the medial clavicular surface articulating with the corresponding articular facet on the sternum, one would think that the joint is unstable. However it is actually quite strong with stability being provided by the following ligaments, and to a lesser extent muscular attachments.

Ligament Description Function
Sternoclavicular ligament This consists of the anterior, posterior, superior, and inferior sternoclavicular ligaments. It attaches the manubrium sterni to the clavicle The posterior component, provides primary anteroposterior stabilisation of the SCJ. The anterior ligament also stabilises the SCJ and prohibits excessive superior displacement
Costoclavicular ligament Attaches the cartilage of the first rib to the clavicle. Twisted cord like appearance. Strongest of all ligaments. Mediates bilateral clavicle and anterior first rib stability. By anchoring the inferior surface of the sternal end of the clavicle to the first rib, it serves as the primary restraint for the SCJ. Anterior portion resists upward rotation and lateral clavicular movement. Posterior portion resists downward rotation and medial clavicular movement.
Interclavicular ligament Attaches the proximal end of one clavicle to the other. It also attaches to the superior manubrium sterni. Facilitates medial traction of both clavicles, resisting upward movement of the medial clavicle in response to axial load to the shoulder and distal clavicle.
Intra-articular disc ligament Dense and fibrous. Originates from the chondral joint of the first rib, passes vertically through the SCJ creating two distinct joint areas. Attachments on both the superior and posterior clavicular aspects. Integrates with the capsular ligament Resists medial displacement upon compressive forces applied to the clavicle
Capsular ligament (anterior and posterior) Thickenings around the joint capsule which enshrouds the external portion of the SCJ Resists upward movement of the medial clavicle in response to axial load placed on the distal clavicle. Anterior and posterior stability.

The subclavius muscle also functions to provide joint stability. The subclavius muscle has a tendinous origin from the first rib just lateral to the costoclavicular ligament. It's insertion is onto the inferior surface of the clavicle. It acts to reduce the rate and range of upward displacement of the clavicle when under lateral compressive loads. It is a shock-absorber, reducing the strain placed on the SCJ.

Biomechanics

The SCJ is only of five articulations that allow fluid shoulder girdle movement. It provides 35° range of motion for movement in the horizontal and coronal planes and 70° range of motion antero-posteriorly. It also provides 50° of rotation along its long axis. Movement of the shoulder girdle influences movement of the SCJ. With humeral elevation of up to 90°, there is 4° of clavicular elevation about the SCJ with every 10°of humeral elevation. Rigid fixation of the SCJ therefore results in inadequate mobility.

SCJ motion primarily depends on the motion of the scapula and shoulder girdle, including the clavicle. Muscles that insert on the clavicle that influence SCJ movement are the deltoid, pectoralis major, trapezius, and sternocleidomastoid muscles.

Motion Muscles Innervation
Elevation levator scapulae, upper trapezius, rhomboid major and minor muscles dorsal scapular nerve, C5 ventral ramus, C3-C4 ventral rami
Depression pectoralis minor, lower trapezius, serratus anterior and inferior muscles medial pectoral nerve, spinal accessory nerve, long thoracic nerve
Protraction pectoralis minor, serratus anterior muscles medial pectoral nerve, long thoracic nerve
Retraction middle trapezius, latissimus dorsi, rhomboid major and minor muscles spinal accessory nerve, thoracodorsal nerve, dorsal scapular nerve
Rotation via elevation of the glenoid cavity upper and lower trapezius, serratus anterior and inferior muscles suprascapular nerve, axillary nerve, long thoracic nerve
Rotation via depression of the glenoid cavity levator scapulae, latissimus dorsi, pectoralis minor, rhomboid major and minor muscles dorsal scapular nerve, thoracodorsal nerve, medial pectoral nerve, dorsal scapular nerve

Relations

There are several vital structures directly posterior to the SCJ. This includes the brachiocephalic trunk, internal jugular vein, common carotid artery, vagus nerve, phrenic nerve, trachea, and oesophagus. These structures may be as close as 1mm to the joint. They are susceptible to injury with posterior dislocation and surgical procedures.

SCJ relations.jpg

Variants

In a small portion of cases there is a facet that articulates with the first rib.

Age Changes

The clavicle is the first bone to ossify, and this occurs in the fifth week of gestation. Meanwhile, the medial physis of the clavicle is the last to fuse, with this occurring between the ages of 23 and 25 years. This makes diagnosing traumatic SCJ instability difficult in younger individuals. Some injuries are misdiagnosed as SCJ dislocations, where they are in fact, medial physeal fracture-separations. The intra-articular disc degenerates over time, and by the seventh and eighth decades it is frequently incomplete.

See Also

References

  • Epperson & Varacallo. Anatomy, Shoulder and Upper Limb, Sternoclavicular Joint. 2021. . PMID: 30725943.
  • Garcia et al.. Sternoclavicular Joint Instability: Symptoms, Diagnosis And Management. Orthopedic research and reviews 2020. 12:75-87. PMID: 32801951. DOI. Full Text.
  • Sewell et al.. Instability of the sternoclavicular joint: current concepts in classification, treatment and outcomes. The bone & joint journal 2013. 95-B:721-31. PMID: 23723264. DOI.