Abstract
In this study, the effects of temporomandibular joint (TMJ) repositioning by use of an acrylic appliance on maximum and submaximum physiologic and performance measures were evaluated in seven male and four female volunteers with documented TMJ malalignment. In an attempt to remove design inadequacies of previous research in this area, a double-blind strategy was used. Subjects were randomly assigned to each of four conditions: 1) normal, without a bite splint, 2) with a placebo splint with no occlusal contact so as to maintain normal jaw position, 3) with a splint that optimized jaw position, and 4) with a splint that magnified the subject's normal degree of malocclusion. Measurements were taken of visual reaction time and movement time, muscular strength of the grip, elbow flexors, and leg extensors, submaximal and maximal oxygen uptake, perceived exertion, anaerobic power output, and all-out working capacity in both arm and leg exercise on a cycle ergometer. Analysis of variance for repeated measures indicated that in no instance were the differences in mean scores on physiologic and performance measures with TMJ repositioning or placebo statistically significant when compared with the normal condition. This was the case for the group as a whole and when the five subjects with the greatest TMJ dysfunction were analyzed separately. These findings strongly support the contention that the beneficial effects of short-term TMJ repositioning on exercise performance noted in previous reports may be the result of inadequacies in research design and evaluation rather than the true effects of the bite splint.
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Notes on contributors
Leonard B. Goldstein
Leonard B. Goldstein, D.D.S., is director of the Long Island Center for Craniofacial Pain in Hauppage, New York.
William D. McArdle
William D. McArdle, M.Ed., Ph.D., is a professor in the Department of Health and Physical Education at Queens College of the City University of New York at Flushing.
Fred C. Last
Fred C. Last, D.M.D., is with the Long Island Center for Craniofacial Pain in Hauppage, New York.
Robert Spina
Robert Spina, M.S., is a doctoral student at the Human Energy Research Laboratory at the University of Pittsburgh.
Steven Lichtman
Steven Lichtman, M.S., is a doctoral student in the Department of Movement Sciences, Applied Physiology Laboratory at Teachers College, Columbia University.
James E. Meyer
James E. Meyer, M.S., is with the Laboratory of Applied Physiology, Department of Physical Education, Queens College of the City University of New York at Flushing.
Al I. Berger
Al I. Berger, D.D.S., is president of the Renaissance Communication Network in Flushing, New York.