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Extensor digitorum muscle

The extensor digitorum muscle, also known as the extensor digitorum communis, is a slender muscle located in the that primarily functions to extend the four medial fingers (, middle, ring, and little) at their metacarpophalangeal and interphalangeal joints. Originating from the via the , the muscle belly runs down the and gives rise to four distinct tendons that pass through the fourth extensor compartment at the , under the extensor retinaculum. These tendons then insert into the extensor expansions on the surfaces of the middle and distal phalanges of digits 2 through 5, contributing to the extensor mechanism that allows coordinated finger extension. Innervated by the (a branch of the ) with contributions from spinal levels C7 and C8, the muscle receives its blood supply primarily from the posterior interosseous artery. In addition to finger extension, it assists in wrist extension. Clinically, dysfunction of the extensor digitorum can result from conditions like or extensor tendon injuries, leading to impaired finger extension and conditions such as "," highlighting its role in hand function and grip strength.

Anatomy

Origin and insertion

The extensor digitorum muscle originates primarily from the lateral epicondyle of the humerus via the common extensor tendon, with additional attachments to the intermuscular septa that separate it from adjacent muscles in the posterior forearm compartment and to the antebrachial fascia. The muscle belly occupies the superficial layer of the posterior compartment of the forearm, descending along its length before dividing into four distinct tendons in the distal third of the forearm. These tendons course distally, passing through the fourth dorsal extensor compartment at the wrist beneath the extensor retinaculum, and enter the dorsum of the hand. Proximal to the metacarpophalangeal joints, the tendons are interconnected by juncturae tendinum, which consist of variable oblique bands of that link adjacent tendons, particularly between the second and third, third and fourth, and fourth and fifth digits. Each of the four tendons then reaches the (dorsal digital expansion) over the second through fifth digits, where it bifurcates into a central slip inserting onto the dorsal base of the middle phalanx and two collateral (lateral) slips that contribute to the formation of the , ultimately inserting via a terminal onto the dorsal base of the distal phalanx. Anatomical variations in the extensor digitorum muscle are common and include the occasional absence of a dedicated tendon to the fifth (little) finger, observed in the majority of cases, as well as extra slips extending to the thumb in some individuals.

Neurovascular supply and relations

The extensor digitorum muscle is innervated by the posterior interosseous nerve, which is the deep branch of the radial nerve with root values C7 and C8. This nerve enters the muscle belly in the proximal third of the forearm after emerging from the supinator muscle, providing motor supply to facilitate extension of the fingers. The primary blood supply to the extensor digitorum arises from the posterior interosseous artery, a branch of the common interosseous artery that originates from the . Additional contributions come from the radial recurrent artery, which supplies the proximal muscle belly, and the dorsal carpal branch of the , which nourishes the distal tendon regions at the . In the posterior forearm, the extensor digitorum lies in the superficial layer, positioned medial to the extensor carpi radialis brevis and lateral to the extensor digiti minimi and extensor carpi ulnaris. Proximally, it relates to the , which lies deep and through which the posterior interosseous neurovascular bundle passes before supplying the extensor digitorum. Distally, the muscle's four tendons pass under the extensor retinaculum at the within the fourth extensor compartment, bounded medially by the extensor digiti minimi tendon and laterally by the extensor pollicis longus tendon. In the hand, these tendons course superficial to the dorsal interossei muscles as they extend to the digits. The is susceptible to compression near the extensor digitorum at the proximal , particularly at the of Fröhse within the , where fibrous bands or anomalous slips from adjacent extensors can contribute to .

Primary actions

The extensor digitorum muscle primarily extends the metacarpophalangeal (MCP) joints of the second through fifth digits, while secondarily extending the proximal interphalangeal () and distal interphalangeal () joints through its integration into the extensor mechanism of the hand. The muscle's four tendons insert into the extensor expansions over the dorsum of these digits, allowing coordinated extension from a flexed position. When the fingers are extended, the extensor digitorum contributes to overall extension by virtue of its tendons crossing the joint posterior to the axis of rotation, acting in with the extensor carpi radialis longus and brevis to stabilize and elevate the hand. This action helps maintain neutral alignment during finger extension tasks. Due to the oblique orientation of its tendons and the interconnecting juncturae tendinum in the dorsum of the hand, the extensor digitorum produces slight of the third and fourth digits during extension, facilitating lateral separation of the fingers. The muscle plays a key role in opening the hand from a clenched fist by extending the digits and generating tension in the juncturae tendinum, which aids in finger separation and release of grasped objects. Electromyographic studies demonstrate significant activation of the extensor digitorum during isolated finger extension tasks, with distinct patterns observed across its compartments for , , , and movements, confirming its primary role in these actions.

Coordination with other muscles

The extensor digitorum muscle synergizes with the extensor indicis proprius and extensor digiti minimi to enable coordinated extension across the fingers, with the latter two muscles providing additional support for independent extension of the and s, respectively, beyond the primary action on the three digits. This synergy is facilitated by the shared passage of their tendons through the extensor retinaculum and intertendinous connections, allowing balanced force distribution during multi-digit movements. In opposition to the flexor digitorum superficialis and flexor digitorum profundus, the extensor digitorum acts as an during grip formation and finger flexion tasks, countering the flexors to open the hand and release objects. This antagonistic relationship ensures reciprocal control at the metacarpophalangeal and interphalangeal joints, preventing unintended flexion while extending. The muscle integrates with intrinsic hand muscles, including the lumbricals and dorsal interossei, through the extensor hood mechanism—a triangular aponeurotic expansion over the proximal phalanges that receives contributions from these intrinsics to form a conjoint extensor tendon. This integration allows for fine-tuned finger control, where the extensor digitorum primarily drives metacarpophalangeal extension while the intrinsics stabilize and extend the interphalangeal joints. During combined wrist and finger extension, the extensor digitorum's tendons, passing through the fourth compartment beneath the extensor retinaculum, contribute to overall stabilization by sharing tension with adjacent extensors like the extensor indicis. This arrangement prevents tendon bowstringing and maintains alignment under load. In functional hand postures, such as writing or grasping, the extensor digitorum load-shares with other extensors, including the extensor carpi radialis and brevis, to sustain balanced extension and prevent collapse while positioning the fingers for precise . This collaborative role supports efficient energy distribution across the posterior musculature during everyday activities.

Clinical relevance

Associated injuries and conditions

The extensor digitorum muscle and its tendons are commonly implicated in lateral epicondylitis, also known as , which arises from repetitive strain on the common extensor origin at the lateral epicondyle, resulting in microtears and inflammation that manifest as pain and tenderness at the lateral elbow. This condition often affects the extensor digitorum due to its contribution to and extension during forceful gripping activities. Sagittal band rupture, a key stabilizer of the extensor at the metacarpophalangeal (MCP) joint, can lead to or of the extensor digitorum , causing snapping sensations, , and during finger flexion and extension. Such ruptures typically occur from acute trauma, such as forced flexion against resistance, or chronic attrition in inflammatory arthropathies like . In zones and VII—encompassing the dorsum of the hand and —extensor digitorum tendons are susceptible to lacerations from sharp trauma or ruptures due to chronic friction or degeneration, leading to a dropped finger characterized by an inability to actively extend the metacarpophalangeal or interphalangeal joints. These injuries result in extensor lag and unopposed flexion, particularly affecting the middle and ring fingers supplied by the central extensor digitorum tendons. Posterior interosseous nerve syndrome involves compression of the posterior interosseous nerve near the extensor digitorum's proximal attachments in the forearm, leading to weakness in finger extension without associated sensory deficits, as the nerve innervates the deep extensors including the extensor digitorum. Symptoms include radial wrist deviation during extension due to relative sparing of the extensor carpi radialis longus. Risk factors for these associated injuries include overuse in racket sports like , where repetitive extension strains the extensor origin; occupational repetitive motions such as work or typing that overload the tendons; and inflammatory conditions like , where tophaceous deposits can erode and rupture extensor tendons.

Diagnosis and management

Diagnosis of extensor digitorum-related issues typically involves a clinical to assess function and elicit symptoms. Provocative maneuvers, such as the resisted or extension , reproduce pain at the lateral in cases of associated lateral epicondylitis, confirming involvement of the common extensor origin including the extensor digitorum . For integrity evaluation, serves as a first-line tool with 84% for detecting extensor injuries, allowing dynamic assessment of or partial tears. (MRI) provides detailed visualization of pathology, such as ruptures or inflammation, with utility in preoperative planning, though it shows lower (44%) compared to for acute injuries. (EMG) is indicated when nerve involvement, such as posterior interosseous neuropathy affecting extensor digitorum innervation, is suspected, helping differentiate myopathic from neuropathic causes. Conservative management forms the initial approach for most extensor digitorum disorders, emphasizing to alleviate overuse , application of for inflammation reduction, and nonsteroidal drugs (NSAIDs) for control in acute phases. incorporates eccentric strengthening exercises to promote remodeling, alongside to improve flexibility, particularly effective for recovery. Splinting, such as a relative motion extension splint, stabilizes the in cases of sagittal band injury causing subluxation, allowing protected motion while preventing recurrence. Surgical interventions are reserved for refractory or severe cases, including release of the origin for persistent unresponsive to conservative measures, performed via open, , or arthroscopic approaches to decompress the . For extensor digitorum ruptures, primary repair using core sutures is standard in acute settings, while grafting with autografts like palmaris longus is employed for delayed or extensive defects to bridge gaps and restore extension. Sagittal band reconstruction, often with local slips or anchors, addresses chronic dislocations by recentralizing the extensor over the . Rehabilitation protocols post-treatment prioritize early protected mobilization to minimize adhesions and optimize outcomes, starting with static splinting for 4-6 weeks followed by controlled active exercises. Gradual progression to full activity, incorporating ergonomic modifications to reduce repetitive loading, aids in preventing recurrence of overuse injuries. is favorable with early intervention, as protocols enabling active motion within days of repair yield superior and strength compared to prolonged , with good functional recovery in over 80% of cases.

References

  1. [1]
    Extensor Digitorum - UW Radiology - University of Washington
    Origin: Lateral epicondyle of humerus ; Insertion: Extensor expansions of medial four digits ; Action: Extends medial four digits at metacarpophalangeal joints; ...
  2. [2]
    Extensor Digitorum
    EXTENSOR DIGITORUM. ORIGIN Common extensor origin on anterior aspect of lateral epicondyle of humerus. INSERTION External expansion to middle and distal ...<|control11|><|separator|>
  3. [3]
    [PDF] Upper Extremity Muscle Table - Stritch School of Medicine
    Jul 16, 2015 · Extensor digitorum. Lateral epicondyle of humerus. Extensor expansions of medial four digits. Radial nerve (posterior interosseous). Extends ...
  4. [4]
    Anatomy, Shoulder and Upper Limb, Wrist Extensor Muscles - NCBI
    [3] The first extensor compartment is comprised of the APL and EPB tendons. The second extensor compartment is comprised of the ECRB and ECRL muscle tendons.
  5. [5]
    Assessment of Individual Finger Muscle Activity in the Extensor ...
    The extensor digitorum communis (ED) is a slender muscle group in the dorsal forearm from which tendons arise to the index (D2), medius (D3), ring (D4), ...
  6. [6]
    Dorsal forearm muscles: US anatomy Pictorial Essay - PMC
    Extensor digitorum communis originates from the posterior fascia of the epicondyle, the antebrachial fascia and the fibrous septa which divide it from ...
  7. [7]
    Extensor digitorum - e-Anatomy - IMAIOS
    Origin: Lateral epicondyle (common extensor tendon) · Insertion: 2nd through 5th phalanges · Artery: Interosseous recurrent artery and posterior interosseous ...<|control11|><|separator|>
  8. [8]
    Extensor digitorum muscle - Kenhub
    Origin, Lateral epicondyle of humerus (common extensor tendon) ; Insertion, Extensor expansions of digits 2-5 ; Action, Metacarpophalangeal / Interphalangeal ...
  9. [9]
    Extensor digitorum muscle | Radiology Reference Article
    Sep 6, 2025 · Summary · origin: lateral epicondyle of humerus · insertion: middle, distal phalanges on dorsal surface; extensor expansions of digits 2-5.
  10. [10]
    [PDF] The anatomy and prevalence of the juncturae tendinum in the hands ...
    Nov 15, 2014 · The tendons of the extensor digitorum communis. (edc) muscle are linked distally on the dorsum of the hand by connections – the juncturae ...
  11. [11]
    Anatomical variations of the hand extensors - PubMed
    In the majority of specimens, extensor digitorum had no independent slip to the little finger; it gave off a single tendon to the index, double tendons to the ...Missing: extra | Show results with:extra
  12. [12]
    (PDF) Anatomical Variations of the Extrinsic Musculature of Thumb
    Aug 7, 2025 · The Extensor Digitorum provided an extra tendon to the pollicis; a similar insertion as the EPL was recognised. In Cadaver 3 (77-year-old ...<|control11|><|separator|>
  13. [13]
    https://teachmeanatomy.info/upper-limb/muscles/posterior-forearm/
  14. [14]
    https://teachmeanatomy.info/upper-limb/areas/extensor-tendon-compartments-wrist/
  15. [15]
    Posterior Interosseous Nerve Syndrome - StatPearls - NCBI Bookshelf
    Posterior interosseous nerve syndrome is a compressive neuropathy of the posterior interosseous nerve which innervates the extensor compartment of the forearm.Missing: digitorum | Show results with:digitorum
  16. [16]
    Extensor Digitorum - Attachments - Actions - TeachMeAnatomy
    Oct 5, 2022 · Innervation: Radial nerve (deep branch). Blood supply: Radial artery. By TeachMeSeries Ltd (2025). Fig 1. The muscles in the superficial layer ...
  17. [17]
    Extracting extensor digitorum communis activation patterns using ...
    Oct 6, 2015 · Our results revealed distinct activation patterns during individual finger extensions, especially between index and middle finger extensions, ...
  18. [18]
    Assessment of Individual Finger Muscle Activity in the Extensor ...
    In the present study, this hypothesis was evaluated by measuring electromyography (EMG) from the ED parts and surrounding muscles during individual finger ...
  19. [19]
    Changes in hand muscle synergies in subjects with spinal cord injury
    The synergies most commonly observed in able-bodied subjects were co-activation of extensor digitorum communis and extensor indicis proprius, as well as of ...
  20. [20]
    Extensor Muscle - an overview | ScienceDirect Topics
    The deep muscles include the extensor muscles of the thumb and fingers (dorsal compartment 1, 3, and 4): extensor policis brevis (EPB), abductor pollicis longus ...
  21. [21]
    Extensor Hood Mechanism Hand - Physiopedia
    The extensor hood surrounds the MCP joint laterally, medially, and dorsally, and receives tendinous fibers from the lumbricals and interossei. 5. Fibers of the ...
  22. [22]
    [PDF] The Functional Anatomy of the Extensor Mechanism of the Finger
    side by tendons of the lumbricals and interossei. How does the extensor mechanism achieve simultaneous extension of the two finger joints? It does so by a ...
  23. [23]
    Extensor hood - e-Anatomy - IMAIOS
    The extensor hood gains significant reinforcement from contributions of the intrinsic hand muscles, specifically the lumbricals and interossei (palmar, dorsal).<|separator|>
  24. [24]
    https://www.kenhub.com/en/library/anatomy/anatomy-of-grip
  25. [25]
    https://www.sciencedirect.com/science/article/pii/B9780128121627000138
  26. [26]
    Lateral Epicondylitis (Tennis Elbow) - Shoulder & Elbow - Orthobullets
    May 5, 2025 · Lateral Epicondylitis (also known as Tennis Elbow) is an overuse injury caused by eccentric overload at the origin of the common extensor ...
  27. [27]
    Lateral Epicondylitis (Tennis Elbow) - Medscape Reference
    Jul 19, 2024 · Lateral epicondylitis (commonly referred to as “tennis elbow”) is related to excessive wrist extension. It is the most common overuse syndrome.
  28. [28]
    Treatment of Sagittal Band Injuries and Extensor Tendon Subluxation
    Injury to the SB causes persistent swelling, pain, and extensor tendon instability, resulting in limitations to full active metacarpophalangeal (MCP) joint ...
  29. [29]
    Extensor Tendon Injuries of the Finger - Radsource
    With injury to the sagittal band, the extensor tendon will be subluxed or dislocated and the sagittal band will be discontinuous (7a, 8a). The patient often ...
  30. [30]
    Extensor Tendon Injuries - Hand - Orthobullets
    Jan 4, 2025 · Extensor Tendon Injuries are traumatic injuries to the extensor tendons that can be caused by laceration, trauma, or overuse.Missing: dropped | Show results with:dropped
  31. [31]
    Extensor Tendon Lacerations - Medscape Reference
    Jul 15, 2022 · This article reviews the current understanding of diagnosis and treatment of the complete range of extensor tendon laceration issues.Missing: dropped | Show results with:dropped
  32. [32]
    PIN Compression Syndrome - Hand - Orthobullets
    Dec 18, 2023 · PIN compression syndrome is a compressive neuropathy of the PIN which affects the nerve supply of the forearm extensor compartment.
  33. [33]
    Posterior Interosseous Nerve Syndrome - Radsource
    Compression of the posterior interosseous nerve can result in a variety of clinical symptoms. The onset of pain or weakness is often insidious.
  34. [34]
    Tennis Elbow (Lateral Epicondylitis) - OrthoInfo - AAOS
    Tennis elbow, or lateral epicondylitis, is a condition in which the forearm muscles become damaged from overuse. The condition is common in athletes and in ...Missing: digitorum | Show results with:digitorum
  35. [35]
    Extensor Tendonitis: What It Is, Causes & Treatment - Cleveland Clinic
    Extensor tendinitis is usually caused by repetitive motions that build up irritation in your tendons over time and overload your tendons with increased weight ...Missing: factors racket
  36. [36]
    Multiple Tophaceous Gout of Hand with Extensor Tendon Rupture
    Dec 20, 2017 · It should be recognized that gouty tophi might cause tendon rupture, and control of serum UA is important to prevent tendon rupture.
  37. [37]
    The diagnostic value of ultrasonography and magnetic resonance ...
    In extensor tendon injuries, the sensitivity and accuracy values were both 84% for USG and 44% and 47% for MRI, respectively. In flexor tendon injuries, the ...
  38. [38]
    Posterior Interosseous Neuropathy: Electrodiagnostic Evaluation - NIH
    Posterior interosseous neuropathy is an uncommon but well-studied condition. Typically, this condition presents with weakness in finger and thumb extension with ...Case Report · Fig. 1 · Discussion<|control11|><|separator|>
  39. [39]
    Treatment of Tendinopathy: What Works, What Does Not, and ... - NIH
    Overall, a short course of NSAIDs appears a reasonable option for the treatment of acute pain associated with tendon overuse, particularly about the shoulder.
  40. [40]
    Evaluation and Management of Elbow Tendinopathy - PMC - NIH
    Conservative measures include rest, activity modification ... anti-inflammatory medications, and physical therapy for stretching and range of motion.
  41. [41]
    Sagittal Band Rupture - Hand - Orthobullets
    Nov 9, 2022 · Sagittal Band Ruptures lead to dislocation of the extensor tendons and may be caused by trauma or by a chronic inflammatory process such as ...Missing: muscle | Show results with:muscle<|control11|><|separator|>
  42. [42]
    Extensor tendon release in tennis elbow: results and prognostic ...
    A lateral release is performed by an open, mini-open or percutaneous approach. The latter approach may result in shorter rehabilitation [10]. The results after ...
  43. [43]
    Management of Extensor Tendon Injuries - PMC - PubMed Central
    Feb 23, 2012 · Complete lacerations to zone IV and VII involve surgical primary repair followed by 6 weeks of splinting in extension. Zone VIII require ...Extensor Tendon Injuries · Repair Of Extensor Injuries · Zone I InjuriesMissing: dropped | Show results with:dropped
  44. [44]
    Outcome of early active mobilization after extensor tendon repair - NIH
    Rehabilitation done for repaired extensor tendon injuries by active mobilization plan using a simple static splint has shown good results.Missing: prognosis intervention