Managing mandibular fractures in the dog (Proceedings)
May 01, 2011
Application of the fixation must consider the tension and compression surfaces of the bone. All fixation devices are strongest in tension (stresses parallel to the longitudinal axis of the implant); therefore, they should be placed along the lines of tensile stress, or on the tension surface of the bone. In cases of mandibular fractures, this location is along the alveolar border; however, the presence of the teeth will interfere with this most optimal biomechanical location.
The objectives of treatment are to provide early rigid skeletal fixation, with restoration of dental occlusion, thereby achieving an early return to function (eating and drinking – without bypassing the oral cavity via alternate feeding methods, e.g., esophagostomy/gastrostomy tube placement). Techniques and devices most often described for this purpose include: intraosseous wire, used alone or in combination with other skeletal fixation devices, and bone plates and screws.Intraosseous wires
Intraosseous wire fixation is a simple technique that is designed to be used on the basis of the tension-band principle. Due to the wire's small size, a great deal of versatility is possible with the wire location. This permits the tooth roots to be easily avoided when placing wires on the biomechanically advantageous alveolar surface of the bone. Intraosseous wire fixation is used to provide direct support for distracting (due to bending) and shearing forces at the fracture site. A single heavy wire suture (e.g., 1.5-mm) applied to thicker bones, as in the mandibular body or ridges of the vertical mandibular ramus, sufficiently neutralizes bending forces by locating the wire nearer to the alveolar/oral margin rather than to the ventral, or aboral, margin of the bone. This location effectively prevents bending and separation at the tension side of the mandible during normal function (chewing, biting). If anatomic reduction can be maintained, lateral bending, shear and rotational forces on the mandible are minimal. Single intraosseous wires, although most useful in neutralizing bending forces, still may not effectively neutralize shear or rotational forces despite the latter's generally lower magnitude. The addition of a second, or divergent, wire greatly enhances neutralization of these forces. When bony defects are present, either due to trauma or tooth loss this form of fixation is not effective, as it cannot maintain distraction because it cannot function as a buttress device. The limitation of orthopedic wire, therefore, is that it must be used with an understanding of the functional anatomy (placed along the lines of tensile stress) and with an anatomic reconstruction of all bone fragments (used as a rigid suture to compress the fractured bone fragments together).