1 Indications for nonoperative treatment topenlarge
Undisplaced, or minimally displaced, fractures of the metacarpal shaft can
be treated nonoperatively.
Most of these fractures produce a flexion deformity and often minimal shortening. If the flexion deformity exceeds 10-20 degrees in fractures of the second and third metacarpals, or 20-30 degrees in fractures of the fourth and fifth metacarpals, ORIF is recommended. Shortening of less than 2 mm does not interfere with function, but more than 5 mm can not be accepted.
Irreducible rotational malalignment is an indication for ORIF.
2 Reduction topenlarge
Displacement usually occurs as a flexion deformity that can be reduced by exerting pressure on the metacarpal head from the palmar aspect, either directly, or using the proximal phalanx as a piston.
Especially in spiral oblique fractures, shortening of the metacarpal is associated with rotational malalignment. Reduction, therefore, is achieved by a combination of longitudinal traction on the finger and derotation.
There is a high risk of secondary redisplacement, indicating ORIF as the treatment of choice in such cases.
3 Option 1: Immobilization with palmar splint topenlarge
A splint may be applied with the hand in an intrinsic plus (Edinburgh) position and the wrist in slight extension of 20-30 degrees.
In compliant patients, only the fractured finger ray and the two adjacent
rays are included in the splint, in fractures of the third, or fourth,
metacarpal. In fractures of the second metacarpal, it may be sufficient to
include only the second and third rays. In fractures of the fifth metacarpal,
the fifth and fourth rays are included.
The splint is held in place with an elastic bandage. The bandage should not be overtightened at the level of the wrist joint, so as to avoid excessive swelling of the hand.
Direct skin contact of adjacent fingers should be prevented by placing gauze
pads between them.
This splint is easy to apply and needs no hand therapy during the period of immobilization. A potential disadvantage of this technique is the complete immobilization of uninjured fingers and joints.
4 Option 2: Immobilization with a forearm cast and finger splint topenlarge
A standard forearm cast is applied, including the wrist joint in 30 degrees of extension, and the aluminium splint is incorporated in the cast. This aluminium splint must be pre-bent to 90 degrees proximal to the level of the MCP joint of the injured finger. The finger is taped to this splint in an intrinsic plus position. Correct rotational alignment must be checked. The other fingers are not immobilized.
The cast must only be applied once the initial swelling has abated, usually a few days after the injury.
Correct bending of the aluminium splint and correct fixation of the splint in the cast are difficult but essential. The bend for the flexion of the MCP joint is more proximal than often perceived. There is a risk of excessive pressure and later ulceration of the soft tissues at the level of the bend if it is too distal.
The advantage of this technique is that only the injured finger is
immobilized. Usually hand therapy is not necessary.
Another advantage is that this technique helps maintain length in shortened fractures, but there is less control over rotation than with immobilisation of the adjacent rays (Option 1).
5 Option 3: Attelle fonctionelle topenlarge
This splint comprises 3 parts:
- A dorsal splint maintaining the wrist in 30 degrees of extension and the MCP joints in full flexion, reaching distally to the PIP joints
- A palmar splint supporting the wrist in 30 degrees of extension, reaching the distal flexion crease of the palm
- A “buddy splintage,” or strapping (syndactylisation), applied at the middle phalanges II-V.
This technique allows immediate mobilization of the interphalangeal joints of all fingers. Its application, however, is difficult, and correct exercising must be supervised by a hand therapist. “Buddy splintage,” prevents rotational malalignment.