1 Introduction top
Olecranon screw traction is a useful technique for fractures that are not amenable to closed reduction and K-wire fixation.
In emerging healthcare settings, this may be a useful technique for severely displaced 13-M/3.1 III, 13-M/3.1 IV, 13-M/3.2 III and 13-M/3.2 IV fractures.
Indications for this technique are rare in settings where operating facilities, image intensification and the requisite specialist skills are readily available.
Manipulation of a displaced fracture in a child is painful and is very difficult with awake-sedation techniques. General anesthesia is therefore required for insertion of the olecranon screw and arrangement of the traction system.
2 Fixation topenlarge
Equipment check list:
- Olecranon wing screw (if available), or a bent Schanz screw (3.0/4.0 mm), or large cancellous screw
- Sterile skin preparation
- # 15 blade
- Hand drill or T-handle chuck
Note: A large cancellous screw with a short thread can be inserted to the thread depth and then a traction loop fashioned around the neck of the screw for attachment of the cord.
The patient is positioned supine.
The skin is painted with antiseptic and draped with sterile towels exposing the elbow.
See also the additional material on preoperative preparation.
The following structures are identified and can be marked with a skin marker pen:
- Tip of the olecranon
- Subcutaneous surface of the proximal ulna
- Medial humeral epicondyle
- Lateral humeral epicondyle
- Radial head
Note: In a swollen elbow the anatomical landmarks may be difficult to palpate and x-ray control of the proposed entry track may be used.
A stab incision is made directly over the subcutaneous proximal ulna directly opposite the tip of the coronoid process. Palpating the radial head may help to identify the level of the coronoid process.
Insertion of screw
The tip of the olecranon screw, or self-drilling Schanz screw, is placed directly onto the bone.
The screw is advanced by hand until the resistance of the anterior cortex is felt. In the case of a cancellous screw, the most proximal thread turn should not be buried underneath the skin.
If an olecranon wing screw is used, the screw is turned until the wings are oriented directly medial to lateral.
3 Reduction topenlarge
Soft tissue reduction
As a preliminary reduction of the fracture, the soft tissue shortening and soft tissue reduction need to be addressed.
A careful inspection of the soft tissues is performed to look for:
- The degree of swelling
- The position of the humeral shaft relative to the muscles (ie, buttonholed anteriorly)
- Tethering of the dermis over the humeral shaft (pucker sign)
The goal of the reduction maneuver is to disengage the humeral shaft from the muscles and skin, allowing accurate reduction of the bony fragments.
A palpable soft tissue reduction will often be felt during the application of traction.
The pucker sign, if present, will visibly reduce with successful traction.
Pearl: If the muscle is stuck despite traction, a milking maneuver can be attempted.
Starting proximally at the humeral head, the brachialis muscle is gently and repeatedly "milked" distally and anteriorly in order to liberate the soft tissues from around the protruding proximal fragment.
4 Traction topenlarge
Once the soft tissue reduction is completed, positional control will be achieved during the traction phase.
Primary traction is applied directly to the olecranon screw starting with 2.5 kg until the scapula is just lifted off the bed.
A cloth sling can be used to support the forearm for reasons of comfort, but is rarely necessary.
If necessary a valgus force can be produced by moving the attachment point of the traction rope medially on the olecranon implant or Schanz pin. This is useful in preventing a varus malunion.
It is unusual to position the cord on the lateral side to produce a varus force, as this may result in varus malunion.
Healing in neutral or in a small amount of valgus is cosmetically acceptable.
In practice overhead olecranon traction results in a pronated forearm, which tends to tilt the fragment out of varus malposition.
As swelling reduces and comfort improves, the position can be adjusted as needed during the first 4-5 days of traction.
Alignment of the fracture can be assessed by visual inspection, and portable plain x-rays.
Modest amounts of residual translation or rotation still allow good cosmetic and functional results.
A varus position should be avoided, as this can be a common source of poor cosmesis and patient's and parents' dissatisfaction.
5 Immobilization topenlarge
After 10-14 days, when nontender fracture callus is palpable, the traction screw is removed, usually under light sedation.
The injured arm is then placed in a splint or cast with the elbow at 90° flexion for two more weeks.
Some surgeons will use a simple collar and cuff at this stage, especially in the younger child
Note: In any case of elbow immobilization by plaster cast, careful observation of the neurovascular situation is essential both in the hospital and at home.