Extensor Tendon Injuries

Zones

 

I DIPJ

II Middle Phalanx

III PIPJ

IV Proximal Phalanx

V MCPJ

VI Metacarpal

VII Dorsal Wrist Retinaculum

VIII Distal Forearm

IX Mid & Proximal Forearm

 

 

Anatomy

 

Sagittal bands

- stabilise EDC

- extend MCPJ

 

Lateral bands

- lumbricals extended PIPJ

 

Zone 1 Mallet Finger

 

Clinical

- loss of extension of DIPJ

- +/- Swan neck deformity

- hyperextension of PIPJ due to unopposed central slip action 

 

Issues

 

Avascular region of tendon at insertion into DIPJ

- explains poor surgical results

 

Mechanism

 

Closed

 

1.  Forced flexion of extended digit

- Rupture of tendon

- Avulsion of tendon ± small fragment of bone

 

2.  Forced hyperextension of DIPJ

- fracture of dorsal base of P3

 

Open

- Laceration over dorsum of DIPJ

 

Types

 

Type I    

- closed trauma

- no bone or < 1/3

 

Type II  

- laceration

 

Type III  

- deep abrasion

 

Type IV  

A) Transepiphyseal plate fracture in children

B) > 1/3 of joint surface

C) > 1/3 + Volar Subluxation of P3

 

Management

 

1.  No or small Bony Lesion

 

Extension splint (Stack splint) for 6 to 8 weeks

- night splinting further 6 weeks

- 80% good results if treated early

- direct repair should be avoided (poor blood)

 

2.  Bony lesion > 50% with volar subluxation

 

A.  Extension splint

B.  ORIF

- poor skin, high risk of breakdown

C. Dorsal blocking K wire / second K wire across joint

 

3.  Chronic Mallet Finger 

 

1.  Arthrodesis 

- joint incongruent, arthritic or fixed

 

2.  Reconstruction possible if supple

 

4.  Open

 

Suture skin and tendon together

 

Zone 3 Boutonniere Lesion

 

Definition

- disruption of central slip at PIPJ

 

Mechanism

 

Closed

- forced flexion of PIPJ

- causes avulsion of central slip ± bony fragment

 

Open

- laceration over central slip

- similar progressive deformity

 

Pathology

 

Deformity usually not present at time of injury

- develops after 2-3/52

 

1. Flexion of PIPJ

- due to loss of central slip

- unopposed action of FDS

 

2. Stretching of expansion between central & lateral slips 

- transverse retinacular / triangular ligaments

 

3. Lateral bands migrate volar

- position volar to axis of rotation

 

4. Pull of lateral bands exclusively directed to DIPJ

- DIPJ hyperextends

 

5. MCPJ also hyperextends because of pull of long extensor

 

Examination

 

1.  Hold wrist and MCPJ fully flexed

- relaxes lateral bands

- unable to actively extend PIPJ

 

2.  Elson's test

- flex PIPJ to 90^o over edge of table

- unable to actively extend PIPJ against resistance, will hyperextend DIPJ

 

Management

 

Closed

 

1.   Splint PIP in Extension 4/52

- Leave DIPJ free and allow ROM

 

2.  Capener Splint 4/52

 

Open

- central slip & lateral bands sutured with 5/0 nylon

- ff close to insertion, pull-out suture used

- PIPJ splinted in full extension for 6/52

- replaced with Capener splint when wound healed & sutures removed

 

Reconstruction

 

Palmaris longus weave

 

Extensor Tendon Repairs Zone 5 - 9

 

Prognosis

 

Excellent results of repair 5 proximal zones

Only 50% excellent results 4 distal zones

 

Surgery

 

Lacerations >50% zones V-VIII should be repaired

- modified Bunnell or Kessler best

- try to maintain length

 

Dynamic splinting 

 

Greatly improves results and is key 

- need 5mm excursion to prevent adhesions for flexors (Unknown for extensors)

- typical repairs shorten tendon

 

Outrigger with passive extension by rubber bands

- WJ 30^o extension, MP's 10-15^o flexion, IP's 0^o

- allow 5mm excursion of tendon