EXTENSOR CARPI ULNARIS TENDINOPATHY. Amanda Cooper

EXTENSOR CARPI ULNARIS TENDINOPATHY Amanda Cooper

OVERVIEW Anatomy Biomechanics Injury Pathology Assessment Treatment

Anatomy Origin: Middle third of the posterior border of ulna Lateral epicondyle of humerus Insertion: Dorso-ulnar aspect of the base of the 5 th metacarpal Innervation: Posterior interosseous nerve (C7 & C8), the continuation of deep branch of radial nerve Main Action: Wrist extension and ulnar deviation. It also assists to provide stability at the wrist.

Anatomy Fibro-osseous tunnel Distal ulna - ulnar groove 1.5 to 2cm length band of connective tissue (ECU subsheath) Stabilises the tendon at the level of the distal ulna ECU subsheath lies deep to the extensor retinaculum The overlying extensor retinaculum courses over the ECU and distal ulna to attach to the pisiform and triquetrum. Does not play a role in stabilising the ECU tendon. Linea jugata provides dynamic stability

Anatomy Linea Jugata

Anatomy Linea Jugata

Anatomical Variations Shallow osseous groove Anomalous tendinous slips (EDM)

Biomechanics Pronation Straight course Minimal force on subsheath Supination ECU radially translates forming ulnar directed obtuse angle This angle is further increased with wrist flexion and ulnar deviation Maximal force on subsheath

Injury Pathology 1. ECU Subluxation 2. ECU Tenosynovitis 3. ECU Rupture

Differential Diagnosis Associated Injuries / Differential Diagnosis TFCC injury Lunotriquetral instability DRUJ injury Ulnar styloid non-union

ECU Subluxation Requires an injury to the ECU subsheath ECU tendon is no longer maintained within its fibro-osseous groove Usually occurs as a result of acute injury Forceful supination, flexion and ulnar deviation Tennis, golf, weight lifting, rodeo Cricket, forceful twisting of a drill Can develop into a chronic injury if left untreated

ECU Subluxation Injury is classified into three groups: A. Stripping injury B. Ulnar sided rupture of subsheath C. Radial sided rupture of subsheath

ECU Subluxation A. Stripping injury ECU subsheath is stripped at its ulnar attachment, forming a false pouch into which the ECU tendon can sublux (supination) Normal subsheath preventing subluxation Stripping of subsheath at ulnar attachment resulting in subluxation during supination

ECU Subluxation B. Ulnar sided rupture of subsheath Likely most common pattern of injury Subluxes in supination with relocation of tendon upon pronation C. Radial sided rupture of subsheath Tendon is more likely to relocate lying above the ruptured subsheath. Functional healing of the tendon is prevented Ulnar sided rupture Relocates beneath ruptured subsheath Radial sided rupture Relocates atop ruptured subsheath Supination Pronation

ECU Tenosynovitis & Tendinosis Insidious onset Chronic stress is placed upon the tendon resulting in inflammation of its synovial lining, causing tenosynovitis Office workers, Boiler maker, Chicken Treat Over time, stress may also lead to tendon degeneration and altered collagen content, resulting in tendinosis with or without partial tears. Second most common site of wrist tendinopathy in athletes Racquet sports, golf, rowing Frequent early finding in patients with RA

ECU Tenosynovitis & Tendinosis T1 Weighted axial image Yellow asterisk = Normal ECU tendon Red arrow = ECU subsheath Blue arrow = extensor retinaculum STIR axial image Blue arrow = fluid surrounding the ECU tendon Red asterisk = reactive marrow oedema

ECU Rupture Rare Characteristic cascade of events Initial acute luxation event Low grade persistent pain (often with accompanying tenosynovitis) Local steroid injections (may have provided temporary relief) Increasing pain limits wrist activity, and subsequent imaging reveals the tendon rupture Decreased grip strength

ECU Rupture Tendon is absent Red arrow = subsheath is thickened Red arrowhead = chronically torn from radial aspect

Assessment Location of pain &/or swelling Dorso-ulnar wrist Onset of symptoms Acute vs. gradual onset Mechanism of injury Forceful supination, flexion, ulnar deviation Repetitive ulnar deviation

Clinical Assessment Tendon stability Painful snapping or clicking sensation of the ECU tendon during provocative testing Active supination Passive supination Active supination, flexion and ulnar deviation MMT Resisted wrist extension and ulnar deviation ECU synergy test (Ruland & Hogan 2008)

ECU Synergy Test 1. Elbow flexed 90 ; forearm in full supination; wrist neutral; fingers in full extension 2. Examiner grasps patients thumb and middle finger and palpates the ECU tendon with the other hand. The patient then abducts the thumb against resistance 3. Presence of both ECU and FCU muscle contraction is confirmed 4. Re-creation of pain along the dorsal ulnar aspect of the wrist is considered to be a positive test for ECU tendonitis

Imaging MRI (supination) Dynamic ultrasound (pronation & supination)

Conservative Management Rest NSAIDs Immobilisation (splinting or casting) Ergonomic assessment Activity modification

Conservative Management ECU Subluxation Maintain forearm in pronation. Wrist in slight extension and radial deviation 6-12 weeks Mixed results in literature

Conservative Management ECU Tenosynovitis Ulnar gutter to prevent ulnar deviation Advise patient to avoid forearm rotation 3-6 weeks

Activity Analysis & Modification Activity Analysis Identification of tasks involving repetitive ulnar deviation Ergonomic assessment Activity Modification To enable the person to continue with activity Use other hand Alternative grip Assistive devices or equipment

Ergonomic Equipment Avoid ulnar deviation Whale mouse: designed to promote a relaxed hand position and neutral deviation at the wrist Split keyboard: maintains neutral alignment

Medical Management Indications: ECU tenosynovitis/tendinosis who remain symptomatic despite conservative treatment Torn subsheath ends widely separated Tendon lies outside the torn subsheath (radial sided tears) ECU rupture

Medical Management Corticosteroid injection (with caution)

Medical Management Surgery Direct repair Subsheath reconstruction Radially based extensor retinacular flap Free retinacular graft Sulcus deepening Tenosynovectomy (+/- tendon debridement) Tendon graft from palmaris longus for ECU ruptures Immobilisation in extension & pronation for 4 weeks post surgery

Conclusion Important to have an understanding of the different types of injuries that can occur as this will affect your treatment plan ECU subluxation versus ECU tenosynovitis Start by looking at the mechanism of injury

Conclusion ECU subluxation Acute injury forceful supination, flexion, ulnar deviation Focus is on limiting supination Sugar tong versus wrist gauntlet Need for further study into the effectiveness of splinting for ECU subluxation Does the location of the tear have an impact i.e. ulnar versus radial sided subsheath tears Importance of the linea jugata

Conclusion ECU tenosynovitis Gradual onset repetitive ulnar deviation Focus is limiting ulnar deviation Importance of OT role in activity analysis and modification. ECU synergy test

Thank you

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