Wrist Explained

Wrist
Latin:articulatio radiocarpalis

In human anatomy, the wrist is variously defined as (1) the carpus or carpal bones, the complex of eight bones forming the proximal skeletal segment of the hand;[1] [2] (2) the wrist joint or radiocarpal joint, the joint between the radius and the carpus and; (3) the anatomical region surrounding the carpus including the distal parts of the bones of the forearm and the proximal parts of the metacarpus or five metacarpal bones and the series of joints between these bones, thus referred to as wrist joints.[3] [4] This region also includes the carpal tunnel, the anatomical snuff box, bracelet lines, the flexor retinaculum, and the extensor retinaculum.

As a consequence of these various definitions, fractures to the carpal bones are referred to as carpal fractures, while fractures such as distal radius fracture are often considered fractures to the wrist.

Structure

The distal radioulnar joint (DRUJ) is a pivot joint located between the distal ends of the radius and ulna, which make up the forearm. Formed by the head of the ulna and the ulnar notch of the radius, the DRUJ is separated from the radiocarpal (wrist) joint by an articular disk lying between the radius and the styloid process of the ulna. The capsule of the joint is lax and extends from the inferior sacciform recess to the ulnar shaft. The DRUJ works with the proximal radioulnar joint (at the elbow) for pronation and supination.

The radiocarpal (wrist) joint is an ellipsoid joint formed by the radius and the articular disc proximally and the proximal row of carpal bones distally. The carpal bones on the ulnar side only make intermittent contact with the proximal side - the triquetrum only makes contact during ulnar abduction. The capsule, lax and un-branched, is thin on the dorsal side and can contain synovial folds. The capsule is continuous with the midcarpal joint and strengthened by numerous ligaments, including the palmar and dorsal radiocarpal ligaments, and the ulnar and radial collateral ligaments.

The parts forming the radiocarpal joint are the lower end of the radius and under surface of the articular disk above; and the scaphoid, lunate, and triquetral bones below. The articular surface of the radius and the undersurface of the articular disk form together with a transversely elliptical concave surface, the receiving cavity. The superior articular surfaces of the scaphoid, lunate, and triquetrum form a smooth convex surface, the condyle, which is received into the concavity.[5]

Carpal bones of the hand:

In the hand proper a total of 13 bones form part of the wrist: eight carpal bones - scaphoid, lunate, triquetral, pisiform, trapezium, trapezoid, capitate, and hamate - and five metacarpal bones - the first, second, third, fourth, and fifth metacarpal bones.

The midcarpal joint is the S-shaped joint space separating the proximal and distal rows of carpal bones. The intercarpal joints, between the bones of each row, are strengthened by the radiate carpal and pisohamate ligaments and the palmar, interosseous, and dorsal intercarpal ligaments. Some degree of mobility is possible between the bones of the proximal row while the bones of the distal row are connected to each other and to the metacarpal bones - at the carpometacarpal joints - by strong ligaments - the pisometacarpal and palmar and dorsal carpometacarpal ligament - that makes a functional entity of these bones. Additionally, the joints between the bases of the metacarpal bones - the intermetacarpal articulations - are strengthened by dorsal, interosseous, and palmar intermetacarpal ligaments.

The earliest carpal bones to ossify are capitate bone and hamate bone in the first six months of an infant life.[6]

Articulations

The radiocarpal, intercarpal, midcarpal, carpometacarpal, and intermetacarpal joints often intercommunicate through a common synovial cavity.[7]

Articular surfaces

It has two articular surfaces named, proximal and distal articular surfaces respectively. The proximal articular surface is made up of the lower end of the radius and a triangular articular disc of the inferior radio-ulnar joint. On the other hand, the distal articular surface is made up of proximal surfaces of the scaphoid, triquetral and lunate bones.[8]

Function

Movement

The extrinsic hand muscles are located in the forearm where their bellies form the proximal fleshy roundness. When contracted, most of the tendons of these muscles are prevented from standing up like taut bowstrings around the wrist by passing under the flexor retinaculum on the palmar side and the extensor retinaculum on the dorsal side. On the palmar side the carpal bones form the carpal tunnel,[9] through which some of the flexor tendons pass in tendon sheaths that enable them to slide back and forth through the narrow passageway (see carpal tunnel syndrome).[10]

Starting from the mid-position of the hand, the movements permitted in the wrist proper are (muscles in order of importance):

However, movements at the wrist can not be properly described without including movements in the distal radioulnar joint in which the rotary actions of supination and pronation occur and this joint is therefore normally regarded as part of the wrist.[12]

Clinical significance

Wrist pain has a number of causes, including carpal tunnel syndrome, ganglion cyst,[13] tendinitis,[14] and osteoarthritis. Tests such as Phalen's test involve palmarflexion at the wrist.

The hand may deviate at the wrist in some conditions, such as rheumatoid arthritis.

Ossification of the bones around the wrist is one indicator used in taking a bone age.

A wrist fracture usually means a fracture of the distal radius.

History

Etymology

The English word "wrist" is etymologically derived from the Proto-Germanic word wristiz from which are derived modern German Rist ("instep", "wrist") and modern Swedish vrist ("instep", "ankle"). The base writh- and its variants are associated with Old English words "wreath", "wrest", and "writhe". The wr- sound of this base seems originally to have been symbolic of the action of twisting.[15]

See also

Sources

Notes and References

  1. "The wrist contains eight bones, roughly aligned in two rows, known as the carpal bones."
  2. Book: Essential clinical anatomy . Moore KL, Agur AM . Lippincott Williams & Wilkins . 2006 . 0-7817-6274-X . 485 . The wrist (carpus), the proximal segment of the hand, is a complex of eight carpal bones. The carpus articulates proximally with the forearm at the wrist joint and distally with the five metacarpals. The joints formed by the carpus include the wrist (the radiocarpal joint), intercarpal, carpometacarpal, and intermetacarpal joints. Augmenting movement at the wrist joint, the rows of carpals glide on each other [...] .
  3. "With the large number of bones composing the wrist (ulna, radius, eight carpas, and five metacarpals), it makes sense that there are many, many joints that make up the structure known as the wrist."
  4. Book: Orthopaedic surgery: the essentials . Baratz M, Watson AD, Imbriglia JE . Thieme . 1999 . 0-86577-779-9 . 391 . The wrist joint is composed of not only the radiocarpal and distal radioulnar joints but also the intercarpal articulations. .
  5. Web site: Wrist Joint. The Lecturio Medical Concept Library . 2021-06-23.
  6. Al-Khater KM, Hegazi TM, Al-Thani HF, Al-Muhanna HT, Al-Hamad BW, Alhuraysi SM, Alsfyani WA, Alessa FW, Al-Qwairi AO, Al-Qwairi AO, Bayer SB, Siddiqui FB . 6 . Time of appearance of ossification centers in carpal bones. A radiological retrospective study on Saudi children . Saudi Medical Journal . 41 . 9 . 938–946 . September 2020 . 32893275 . 7557557 . 10.15537/smj.2020.9.25348 .
  7. Book: Oxford textbook of rheumatology . Isenberg DA, Maddison P, Woo P . Oxford University Press . 2004 . 0-19-850948-0 . 87 .
  8. Web site: Wrist Joint . Earth's Lab .
  9. Book: Rea P . Chapter 3 - Neck. 2016-01-01 . Essential Clinically Applied Anatomy of the Peripheral Nervous System in the Head and Neck. 131–183 . Rea P . Academic Press. en. 10.1016/b978-0-12-803633-4.00003-x. 978-0-12-803633-4 .
  10. Book: Anatomy & Physiology: The Unity of Form and Function . Saladin KS . McGraw-Hill . 3rd . 2003 . 361, 365 .
  11. Book: Lalani I, Argoff CE . Chapter 10 - History and Physical Examination of the Pain Patient. 2008-01-01. 10.1016/B978-032304184-3.50013-3 . Raj's Practical Management of Pain . Fourth . 177–188. Benzon HT, Rathmell JP, Wu CL, Turk DC . Philadelphia. Mosby. en. 978-0-323-04184-3 .
  12. Book: Understanding joints: a practical guide to their structure and function . Kingston B . Nelson Thornes . 2000 . 0-7487-5399-0 . 126–127 .
  13. Book: Stretanski MF . Chapter 32 - Hand and Wrist Ganglia. 2020-01-01. 10.1016/B978-0-323-54947-9.00032-8 . Essentials of Physical Medicine and Rehabilitation . Fourth . 169–173. Frontera WR, Silver JK, Rizzo TD . Philadelphia. Content Repository Only!. en. 978-0-323-54947-9 . 229189365.
  14. Book: Waldman SD . Chapter 58 - Flexor Carpi Radialis Tendinitis. 2014-01-01 . Atlas of Uncommon Pain Syndromes . Third . 172–174. Waldman SD . Philadelphia. W.B. Saunders. en. 10.1016/b978-1-4557-0999-1.00058-7. 978-1-4557-0999-1 .
  15. Web site: Hand Etymology. American Society for Surgery of the Hand.