Synovial joint

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Synovial joint
Structure of synovial joint
Types of synovial joints. Clockwise from top-right: ball and socket joint, condyloid joint, plane joint, saddle joint, hinge joint and pivot joint.
Details
Identifiers
Latinjunctura synovialis
TA98A03.0.00.020
TA21533
FMA7501
Anatomical terminology

A synovial joint, also known as diarthrosis, joins bones or cartilage with a fibrous joint capsule that is continuous with the periosteum of the joined bones, constitutes the outer boundary of a synovial cavity, and surrounds the bones' articulating surfaces. This joint unites long bones and permits free bone movement and greater mobility.[1] The synovial cavity/joint is filled with synovial fluid. The joint capsule is made up of an outer layer of fibrous membrane, which keeps the bones together structurally, and an inner layer, the synovial membrane, which seals in the synovial fluid.

They are the most common and most movable type of joint in the body of a mammal. As with most other joints, synovial joints achieve movement at the point of contact of the articulating bones.

Structure

Synovial joints contain the following structures:

  • Synovial cavity: all diarthroses have the characteristic space between the bones that is filled with synovial fluid.
  • Joint capsule: the fibrous capsule, continuous with the periosteum of articulating bones, surrounds the diarthrosis and unites the articulating bones; the joint capsule consists of two layers - (1) the outer fibrous membrane that may contain ligaments and (2) the inner synovial membrane that secretes the lubricating, shock absorbing, and joint-nourishing synovial fluid; the joint capsule is highly innervated, but without blood and lymph vessels, and receives nutrition from the surrounding blood supply via either diffusion (a slow process) or by convection, a far more efficient process achieved through exercise.
  • Articular cartilage: the bones of a synovial joint are covered by this layer of hyaline cartilage that lines the epiphyses of joint end of bone with a smooth, slippery surface that does not bind them together; articular cartilage functions to absorb shock and reduce friction during movement.

Many, but not all, synovial joints also contain additional structures:[2]

  • Articular discs or menisci - the fibrocartilage pads between opposing surfaces in a joint
  • Articular fat pads - adipose tissue pads that protect the articular cartilage, as seen in the infrapatellar fat pad in the knee
  • Tendons[2] - cords of dense regular connective tissue composed of parallel bundles of collagen fibers
  • Accessory ligaments (extracapsular and intracapsular) - the fibers of some fibrous membranes are arranged in parallel bundles of dense regular connective tissue that are highly adapted for resisting strains to prevent extreme movements that may damage the articulation[citation needed]
  • Bursae - saclike structures that are situated strategically to alleviate friction in some joints (shoulder and knee) that are filled with fluid that is similar to synovial fluid[3][page needed]

The bone surrounding the joint on the proximal side is sometimes called the plafond, especially in the talocrural joint. A damage to this occurs in a Gosselin fracture.

Blood supply

The blood supply of a synovial joint is derived from the arteries sharing in the anastomosis around the joint.

Types

There are seven types of synovial joints.[4] Some are relatively immobile, but are more stable. Others have multiple degrees of freedom, but at the expense of greater risk of injury.[4] In ascending order of mobility, they are:

Name Example Description
Plane joints
(or gliding joint)
carpals of the wrist, acromioclavicular joint These joints allow only gliding or sliding movements, are multi-axial such as the articulation between vertebrae.
Hinge joints elbow (between the humerus and the ulna) These joints act as a door hinge does, allowing flexion and extension in just one plane, i.e. uniaxial.
Pivot joints atlanto-axial joint, proximal radioulnar joint, and distal radioulnar joint One bone rotates about another
Condyloid joints
(or ellipsoidal joints)
wrist joint (radiocarpal joint) A condyloid joint is a modified ball and socket joint that allows primary movement within two perpendicular axes, passive or secondary movement may occur on a third axes. Some classifications make a distinction between condyloid and ellipsoid joints;[5][6] these joints allow flexion, extension, abduction, and adduction movements (circumduction).
Saddle joints Carpometacarpal or trapeziometacarpal joint of thumb (between the metacarpal and carpal - trapezium), sternoclavicular joint Saddle joints, where the two surfaces are reciprocally concave/convex in shape, which resemble a saddle, permit the same movements as the condyloid joints but allows greater movement.
Ball and socket joints
"universal Joint"
shoulder (glenohumeral) and hip joints These allow for all movements except gliding
Compound joints[7][8]
/ bicondyloid joints[2]
knee joint condylar joint (condyles of femur join with condyles of tibia) and saddle joint (lower end of femur joins with patella)

Function

The movements possible with synovial joints are:

  • abduction: movement away from the mid-line of the body
  • adduction: movement toward the mid-line of the body
  • extension: straightening limbs at a joint
  • flexion: bending the limbs at a joint
  • rotation: a circular movement around a fixed point

Clinical significance

The joint space equals the distance between the involved bones of the joint. A joint space narrowing is a sign of either (or both) osteoarthritis and inflammatory degeneration.[9] The normal joint space is at least 2 mm in the hip (at the superior acetabulum),[10] at least 3 mm in the knee,[11] and 4–5 mm in the shoulder joint.[12] For the temporomandibular joint, a joint space of between 1.5 and 4 mm is regarded as normal.[13] Joint space narrowing is therefore a component of several radiographic classifications of osteoarthritis.

In rheumatoid arthritis, the clinical manifestations are primarily synovial inflammation and joint damage. The fibroblast-like synoviocytes, highly specialized mesenchymal cells found in the synovial membrane, have an active and prominent role in the pathogenic processes in the rheumatic joints.[14] Therapies that target these cells are emerging as promising therapeutic tools, raising hope for future applications in rheumatoid arthritis.[14]

References

  1. ^ The Musculoskeletal System. In: Dutton M. eds. Dutton's Orthopaedic Examination, Evaluation, and Intervention, 5e. McGraw-Hill; Accessed January 25, 2021. https://accessphysiotherapy-mhmedical-com.libaccess.lib.mcmaster.ca/content.aspx?bookid=2707&sectionid=224662311
  2. ^ a b c Drake, Richard L.; Vogl, Wayne; Mitchell, Adam W. M.; Gray, Henry (2015). "Skeletal system". Gray's Anatomy for Students (3rd ed.). p. 20. ISBN 978-0-7020-5131-9. OCLC 881508489.
  3. ^ Tortora & Derrickson () Principles of Anatomy & Physiology (12th ed.). Wiley & Sons
  4. ^ a b Umich (2010). "Introduction to Joints". Learning Modules - Medical Gross Anatomy. University of Michigan Medical School. Archived from the original on 2011-11-22.
  5. ^ Rogers, Kara (2010) Bone and Muscle: Structure, Force, and Motion p.157
  6. ^ Sharkey, John (2008) The Concise Book of Neuromuscular Therapy p.33
  7. ^ Moini (2011) Introduction to Pathology for the Physical Therapist Assistant pp.231-2
  8. ^ Bruce Abernethy (2005) The Biophysical Foundations Of Human Movement pp.23, 331
  9. ^ Jacobson, Jon A.; Girish, Gandikota; Jiang, Yebin; Sabb, Brian J. (2008). "Radiographic Evaluation of Arthritis: Degenerative Joint Disease and Variations". Radiology. 248 (3): 737–747. doi:10.1148/radiol.2483062112. ISSN 0033-8419. PMID 18710973.
  10. ^ Lequesne, M (2004). "The normal hip joint space: variations in width, shape, and architecture on 223 pelvic radiographs". Annals of the Rheumatic Diseases. 63 (9): 1145–1151. doi:10.1136/ard.2003.018424. ISSN 0003-4967. PMC 1755132. PMID 15308525.
  11. ^ Roland W. Moskowitz (2007). Osteoarthritis: Diagnosis and Medical/surgical Management, LWW Doody's all reviewed collection. Lippincott Williams & Wilkins. p. 6. ISBN 9780781767071.
  12. ^ "Glenohumeral joint space". radref.org., in turn citing: Petersson, Claes J.; Redlund-Johnell, Inga (2009). "Joint Space in Normal Gleno-Humeral Radiographs". Acta Orthopaedica Scandinavica. 54 (2): 274–276. doi:10.3109/17453678308996569. ISSN 0001-6470. PMID 6846006.
  13. ^ Massilla Mani, F.; Sivasubramanian, S. Satha (2016). "A study of temporomandibular joint osteoarthritis using computed tomographic imaging". Biomedical Journal. 39 (3): 201–206. doi:10.1016/j.bj.2016.06.003. ISSN 2319-4170. PMC 6138784. PMID 27621122.
  14. ^ a b Nygaard, Gyrid; Firestein, Gary S. (2020). "Restoring synovial homeostasis in rheumatoid arthritis by targeting fibroblast-like synoviocytes". Nature Reviews Rheumatology. 16 (6): 316–333. doi:10.1038/s41584-020-0413-5. PMC 7987137. PMID 32393826.