1 Principles top
Long leg splintage is a useful technique for temporary immobilization of a fracture involving the distal femur. It can be used in the emergency room to immobilize the limb of a patient with an isolated injury.
It can also be used as a temporary aid to fracture stabilization in the multiple injured patient.
Care should always be taken with any splint to protect pressure areas, such as the Achilles tendon, lateral and medial malleoli and the heel, as ulceration in these areas can be extremely difficult to treat.
Fixed splints should not be applied to patients that have other pathological conditions in the lower limb, neurological compromise that causes sensory defects, such as spinal injury, or diabetes with peripheral neuropathy, or in patients who are unconscious.
Types of splint
The splint is both inexpensive, and both easy and quick to apply. It is not possible, however, to obtain good three point immobilization of distal femoral fractures with any splint. The conical shape of the thigh will not allow for close apposition of a splint.
For treatment of distal-femur fractures alone the ankle does not need to be immobilized and therefore a cylinder splint can be used. If there is an ipsilateral ankle, or foot, fracture, the long leg cylinder splint can be converted to one that incorporates the ankle and foot. A cylinder long leg splint is described here, as it is the most commonly used.
It is recognized that perfect realignment of a displaced distal femoral fracture will be impossible with a long leg cylinder splint. However, it helps to bring the fracture out to length and to correct some of the common hyperextension deformity.
Note: If the splint is not able to control the length adequately, this would be an indication for tibial skeletal traction, when a spanning external fixator could not be made available for provisional stabilization.
The surgeon applying the long leg splint must remember that the common deformity of a supracondylar femoral fracture is shortening and hyperextension of the distal fragment. In order to counteract the hyperextension, either a bolster can be placed under the supracondylar region, or preferably the knee can be sufficiently flexed by bringing the leg off the end or side of the table.
In order to maintain the length of the fracture in the long leg splint care must be taken to provide good supracondylar molding.
2 Splint application topenlarge
A preliminary reduction of the distal femoral fracture is performed. An assistant is needed to provide manual traction through the ankle while the splint is being applied.
With the leg under manual traction and the knee flexed 20°, ample splint padding is then placed around the leg. The padding starts at the supramalleolar region and extends up to the top of the thigh. It is important to make this several layers thick above the ankle and at the upper thigh to reduce the risk of pressure problems in these areas.
12.5 cm wide plaster slabs are used medially, laterally, and posteriorly. Medially and laterally, 5 layers of plaster are used. Posteriorly, 10 layers of plaster are used. The plaster is wetted, placed on the leg and then secured with additional cast padding and elastic bandages.
While the plaster is drying supracondylar molding is performed and held until the splint material is hard.
The elastic bandage should not be placed too tightly around the leg. The advantage of the non-circumferential splint is that it allows for swelling and it is therefore ideal during the early days following a fracture.