Flexor Tendon Repair

Concepts

 

1. Core suture

 

Strength of repair proportional to

A.  Number of strands crossing the gap (not suture type)

B.  Suture size (usually non absorbable braided suture 3/0 or 4/0)

 

2. Repair strength increases more rapidly with early motion stress

 

3. Dorsal sutures are stronger but may interfere with blood supply

 

4. Repairs usually rupture at knots

 

5. Locking loops decrease pull out and increase strength

 

7. Peripheral Circumferential Suture 

- increases repair strength by 10-50%

- reduces gapping and bulk of repair significantly

- closure of epitenon with 6/0 suture

 

Partial Tendon Lacerations

 

< 25%

- debride

 

25 - 25%

- epitenon repair

 

> 50%

- core and epitenon repair

 

Early ROM Rehabilitation

 

1.  Load at failure at 3 weeks 

- immediately mobilised tendons 3 x > immobilised tendons

- more rapid collagen realignment

- histological exam increased healing response with decreased scar response

 

2.  Early mobilization decreases adhesions

 

Early Active ROM Protocol 

 

Position in extension blocking splint

- wrist and MCPJ flexed

- DIPJ and PIPJ in extension

 

Stage 1

- passive flexion using the other hand (5 times per hour)

- active extension of finger in splint

- splint never removed

 

Stage 2

- once full passive motion gained (each hour)

- 5 x passive finger flexion & active extension

- 5 x active finger flexion & 5 active finger extension

- splint never removed

 

6 Weeks

- splint removed & active wrist movement

- no resistance

 

8 weeks 

- resistive work (sponge squeezing)

 

12 Weeks 

- normal activity

 

Incisions 

 

Brunner incisions

- incorporate laceration

- avoid sharp angles <60^o

- longitudinal incisions over flexor creases avoided

 

Identify and protect NV bundles

 

Expose synovial sheath

- preserve A2 and A4

- can remove other pulleys

 

Zones of Injury

 

Zone 1 

- distal to FDS (FDP only)

 

Zone 2 

- between A1 pulley and FDS insertion (2 tendons in sheath)

 

Zone 3 

- in palm, lumbrical origin

 

Zone 4 

- in carpal tunnel

 

Zone 5 

- proximal to carpal tunnel

 

Management

 

Zone 1

 

Causes

 

1.  Open / laceration

 

2.  Rugger jersey finger

- most common RF

- caught in jersey whilst grasping

- RF forcibly extended at DIPJ while FDP is contracting maximally

- due to common muscle belly for FDP to LF, RF, MF

 

Types

 

Avulsion FDP Type 1

- FDP retracts into palm

- vinculum ruptured

- tender swelling in palm 

- may need separate palmar incision

- need to pass under A2 and A4 pulley

- suture tendon to paediatric feeding catheter

- must be repaired in 7-10 days

 

Avulsion FDP Type 2 

- most common type

- retracts to PIPJ level

- vinculum intact

- swelling at PIPJ level

- early reinsertion best

- can be repaired up to 3 months after injury 

- may progress to type 1 injury if vinculae give way

 

Avulsion FDP Type 3 

- large bony fragment

- A4 pulley catches fragment & prevents retraction

- early reattachment

 

Repair

 

1.  Tendon to tendon repair

- if possible

 

2.  Insufficient distal tendon

- prepare bony insertion

- modified Kessler into tendon

- pass suture ends through distal phalanx and nail plate

- tie over button

- use 4.0 monofilament i.e. prolene

- need to remove button and sutures at 8/52

 

3.  Bony avulsion

- ORIF / button repair

 

Zone 2 / Bunnell No Man's Land

 

Problem

- both tendons injured

- high risk of bulky repairs / adhesions / poor function

 

Technique

 

Tendon laceration

- usually distal to skin cut

- need to retrieve tendons from palm

- A2 & A4 pulleys need preservation

- FDS & FDP both repaired if possible

- may only need one limb of FDS

 

Core Suture

- 2 x modified Kessler

- can use 2 x loop sutures to create 4 strand modified Kessler

- best to use prolene as will run easier than polyfilament suture

 

Peripheral suture

- 6.0 prolene running suture

- do dorsal aspect of tendon first, then core, then complete volar aspect

- very important for strength and allowing smooth glide

 

Zone 3

 

Delayed repair up to 3 weeks possible 

- lumbrical holds tendon 

- relatively good prognosis

 

Zone 4

 

Rigid compartment

- good result more difficult to achieve

- often complicated by median nerve injury

- should repair within 3 weeks to avoid myostatic muscle contraction

 

Zone 5 

 

Loose compartment

- good prognosis but associated nerve injuries important prognostically

- quality of repair not so important

- should repair within 3 weeks otherwise muscle contraction occurs