ABSTRACT

Fractures usually occur with overriding of bone fragments, thus hindering fracture reduction. The aim of this research was to develop and test a skeletal traction device for use in dogs with long bone fractures. Twenty-one dogs were included, regardless of breed or gender, weighing between two and 27kg, and between two months and 11 years of age, with metaphyseal or diaphyseal fractures that had occurred between three and 24 days prior to intervention. While fixation of the patient's body to the table was performed using nylon straps, the traction force applied along the bone axis of the fractured limb was performed using nylon straps or transfixed pins and stirrups (with the pins implanted in the distal epiphysis of the fractured bone). Tensile strength was measured by a dynamometer, and the maximum load applied was no greater than 25kg. In all cases, the distraction force began at five kilograms except in dogs below this weight, where the starting load was equivalent to the weight of the animal. If necessary, in all dogs, force was increased every five minutes to maintain equal traction to the dog’s weight or values which ranged from the dog’s weight to five kilograms depending on the size of the animal, until the necessary traction for reduction was obtained. For this progression of distension, the equipment had a 25-milimeter-diameter threaded rod, a nut with a rudder system and sliding cylinder outside the rod, which connected to the dog via a chain and the dynamometer. Fracture reduction was achieved in all dogs without bone loss, and the device was shown to be efficient in both allowing and maintaining fracture reduction, with no neurologic, vascular, cutaneous, or articular damage. The developed bone distractor has the following characteristics: simple to construct, low cost, does not harm the patient, and facilitates reduction of the fragments in recent and old fractures.

Keywords:
dog; fractures; reduction; device