Sage Journals: Discover world-class research

Abstract

Estimation of chewing force from electromyograms (EMGs) calibrated in isometric biting yielded strikingly high force values. We tested the hypothesis that EMG-based force predictions are excessive because of differing activity/bite-force relations in mastication and isometric biting. In nine patients, unilateral bite forces and EMGs of 4 elevator muscles were recorded during chewing and isometric clenching on a bite-fork. We estimated chewing force by substituting chewing EMGs of each muscle into isometric activity/bite-force regressions. The estimates were compared with actual chewing forces recorded by intra-oral transducers. In all muscles except the balancing-side masseter, the activity/bite-force ratio was significantly higher in chewing than in isometric biting. The actual mean chewing force amounted to 220 N, while EMG-based estimates ranged from 273 to 475 N, depending on the muscle used for estimation. The results indicate that different activity/force characteristics in dynamic and isometric biting can cause overestimation when chewing force is predicted from masticatory EMGs.

Get full access to this article

View all access options for this article.

References

Ahlgren J, Öwall B -1970-. Muscular activity and chewing force: a polygraphic study of human mandibular movements. Arch Oral Biol 15:271–280.

Anderson DJ, Picton DCA -1958-. Masticatory stresses in normal and modified occlusion. J Dent Res 37:312–317.

Bakke M, Michler L, Han K, Möller E -1989-. Clinical significance of isometric bite-force versus electrical activity in temporal and masseter muscles. Scand J Dent Res 97:539–551.

De Boever JA, McCall WD Jr, Holden S, Ash MM Jr -1978-. Functional occlusal forces: an investigation by telemetry. J Prosthet Dent 40:326–333.

Hagberg C -1987-. The amplitude distribution of electromyographic activity in painful masseter muscles during unilateral chewing. J Oral Rehabil 14:531–540.

Hatcher DC, Faulkner MG, Hay A -1986-. Development of mechanical and mathematical models to study temporomandibular joint loading. J Prosthet Dent 55:377–384.

Hylander WL, Johnson KR -1989-. The relationship between masseter force and masseter electromyogram during mastication in the monkey Macaca fascicularis. Arch Oral Biol 34:713–722.

Jäger K, Graber G, Schrutt L -1989-. Aufbau und Test einer Meßkette zur Kaukraftmessung [Construction and testing of a strain gauge for measuring masticatory force]. Schweiz Monatsschr Zahnmed 99:670–675.

Komi PV -1973-. Relationship between muscle tension, EMG and velocity of contraction under concentric and eccentric work. In: New developments in electromyography and clinical neurophysiology. Desmedt JE, editor. Basel: Karger, pp. 596-606.

10.

Lindauer SJ, Gay T, Rendell J -1993-. Effect of jaw opening on masticatory muscle EMG-force characteristics. J Dent Res 72:51–55.

11.

Lundgren D, Laurell L -1986-. Occlusal force pattern during chewing and biting in dentitions restored with fixed bridges of cross-arch extension. I. Bilateral end abutments. J Oral Rehabil 13:57–71.

12.

Manns A, Spreng M -1977-. EMG amplitude and frequency at different muscular elongations under constant masticatory force or EMG activity. Acta Physiol Lat Am 27:259–271.

13.

Mao J, Osborn JW -1994-. Direction of a bite force determines the pattern of activity in jaw-closing muscles. J Dent Res 73:1112–1120.

14.

Mericske-Stern R, Geering AH, Bürgin WB, Graf H -1992-. Three-dimensional force measurements on mandibular implants supporting overdentures. Int J Oral Maxillofac Implants 7:185–194.

15.

Miles TS, Madigan ML -1983-. Programming of antagonist muscle stiffness during masticatory muscle unloading in man. Arch Oral Biol 28:947–951.

16.

Morneburg T, Proeschel P -2002-. Measurement of masticatory forces and implant loads. A methodological and clinical study. Int J Prosthodont 15:20–27.

17.

Ottenhoff FA, van der Bilt A, van der Glas HW, Bosman F -1992-. Peripherally induced and anticipating elevator muscle activity during simulated chewing in humans. J Neurophysiol 67:75–83.

18.

Ottenhoff FA, Van der Bilt A, Van der Glas HW, Bosman F, Abbink JH -1996-. The relationship between jaw elevator muscle surface electromyogram and simulated food resistance during dynamic condition in humans. J Oral Rehabil 23:270–279.

19.

Proeschel P, Raum J -2001-. Preconditions for estimation of masticatory forces from dynamic electromyograms and isometric bite-force/activity relations of elevator muscles. Int J Prosthodont 14:563–569.

20.

Proeschel P, Ohkawa S, Hardtmann G, Ott RW -1994-. Zur Möglichkeit der Kaukraftabschätzung aus dem Elektromyogramm der Elevatoren. Dtsch Zahnärztl Z 49:37–40.

21.

Pruim GJ, Ten Bosch JJ, De Jongh HJ -1978-. Jaw muscle EMG-activity and static loading of the mandible. J Biomechan 11:389–395.

22.

Schindler HJ, Stengel E, Spieß WEL -1998-. Elektromyographische Aktivität, Kraftentwicklung und Kinematik beim Kauen fester Nahrungstexturen. Dtsch Zahnärztl Z 53:551–556.

23.

Slagter AP, Bosman F, van der Glas HW, van der Bilt A -1993-. Human jaw-elevator muscle activity and food comminution in the dentate and edentulous state. Arch Oral Biol 38:195–205.

24.

Tate GS, Throckmorton GS, Ellis E 3rd, Sinn DP, Blackwood DJ -1994-. Estimated masticatory forces in patients before orthognathic surgery. J Oral Maxillofac Surg 52:130–136.

25.

Trainor PG, McLachlan KR, McCall WD -1995-. Modelling of forces in the human masticatory system with optimization of the angulations of the joint loads. J Biomechan 28:829–843.

26.

Van Eijden TM, Brugman P, Weijs WA, Oosting J -1990-. Coactivation of jaw muscles: recruitment order and level as a function of bite force direction and magnitude. J Biomechan 23:475–485.

Task-dependence of Activity/ Bite-force Relations and its Impact on Estimation of Chewing Force from EMG

Abstract

Get full access to this article

References