Reaction Strains on the Condylar Neck During Mastication and Maximum Muscle Stimulation in Different Condylar Positions: An Experimental Study in the Miniature Pig

Abstract

Most researchers agree that the primate temporomandibular joint (TMJ) is loaded compressively during function and that condylar position must play a role in mediating such loads. However, the precise nature of that role remains unclear. Using a pig model in this study, we attempted to analyze strain on the neck of the condyle during normal mastication and during simulated function in different condylar positions. Miniature three-element rosette strain gauges were bonded to the lateral surface of the condylar neck in 4 female miniature pigs (one per condyle). Measurements of strain were made during normal mastication and with the pigs under general anesthesia during maximum stimulation of the masseter and temporalis muscles in each of five condylar positions-centric occlusion, centric relation, anterior, relaxed and wide open-established through use of acrylic splints. Condylar position was evaluated by superimposition of lateral and dorsoventral cephalograms, with measurement of horizontal and vertical changes in location of implants placed on the neck of the condyle relative to implants placed on the zygomatic arch. As in primates, the TMJ was found to be load-bearing during mastication, with compressive strain oriented approximately perpendicular to the occlusal plane. In 3 pigs, strain was higher during balancing than during working function. During stimulation, the TMJ reaction strains were significantly lower with the condyles in the anterior position compared with the other positions, and the compressive strain was directed more anteriorly along the neck of the condyle in that position.