 |
 |
 |
 |
 |
 |
Sains Malaysiana 44(4)(2015): 593–597
Muscle
Spindles Provide Servo-assistance to Jaw-closing Muscles for Chewing Hard Foods
(Otot Gelendung Memberikan Servo-Bantuan kepada Otot Rahang-Tutup
untuk Mengunyah Makanan Keras)
1Dept. of Oral Biology
& Biomedical Sciences, Faculty of Dentistry, University of Malaya
50603 Kuala Lumpur, Malaysia
2Division of Oral
Physiology, Dept. of Oral Biological Science, Graduate Sch. of Med. and
Dent. Sci.Niigata University, Japan
Received: 30 April 2014/Accepted: 31 October 2014
ABSTRACT
The fundamental pattern of chewing induced by the network of
neurons called central pattern generator has been reported to be modified by
the information arising from the various oro-facial sensory receptors including
muscle spindles of jaw closing muscles. The cell bodies of primary afferent
neurons from these muscle spindles lie in mesencephalic trigeminal nucleus (MTN)
in the brainstem. The aim of the study was to understand whether muscle
spindles from jaw-closing muscles play any role in hard food chewing. Single
neuronal discharge of muscle spindle afferents was recorded from the MTN simultaneous
with jaw-movement and electromyograpic (EMG) activities of the left
masseter (jaw-closing) muscle during chewing soft and hard foods (apple and
pellet) in awake rabbits. Ten consecutive chewing cycles were taken for
analysis. Discharge of nineteen muscle spindles from seven rabbits was
successfully recorded. Muscle-spindle discharge was significantly higher during
the closing phase of jaw-movement for the hard food chewing than for the soft
food. The jaw-closing muscle EMG activity was significantly
higher during hard food chewing compared to soft food. The spindle discharge
was higher when the masseter muscle activity was greater for chewing hard food.
Significant positive (r=0.822, p=<0.001) correlation was found between the difference of muscle
activity between apple and pellet and the difference of spindle discharge
between apple and pellet. Above findings suggest that the increase of spindle
discharge during hard food chewing may play a role for facilitating jaw-closing
muscle activities and thereby provides servo-assistance to jaw-closing muscles
to compensate the hardness of food.
Keywords: Hard food; jaw-closing muscle; muscle spindles; neuronal
discharge
ABSTRAK
Pola asas pengunyahan yang diaruhkan oleh rangkaian neuron yang dikenali
sebagai penjana pola pusat telah dilapor boleh mengalami pengubahsuaian
daripada maklumat yang diperoleh daripada pelbagai deria orofasial
termasuk gelendung otot pada otot penutupan rahang. Jasad sel neuron
aferen utama daripada gelendung otot ini, terletak di dalam ‘Mesencepholic
Trgeminal Nucleus (MTN)’ di dalam batang otak. Tujuan
kajian ini adalah untuk memahami sama ada gelendung otot dari otot-tutup
rahang memainkan sebarang peranan dalam proses mengunyah makanan
keras. Pelepasan neuron tunggal oleh gelendung otot aferen telah
direkodkan dari MTN serentak
dengan pergerakan rahang dan akitiviti elektromigram (EMG)
bahagian kiri otot maseter (rahang-tutup) arnab sewaktu mengunyah
makanan lembut dan keras (epal dan pellet). Dalam kajian ini, sepuluh
kitar pengunyahan secara berturutan telah dipilih untuk dianalisis.
Pelepasan 19 gelendung otot dari 7 ekor arnab telah berjaya direkodkan.
Gelendung otot dilepaskan paling tinggi sewaktu fasa pergerakan
rahang tutup untuk mengunyah makanan keras berbanding makanan lembut.
Aktiviti EMG otot penutupan rahang adalah
lebih tinggi dan signifikan semasa pengunyahan makanan keras berbanding
dengan makanan lembut. Pelepasan gelendung otot adalah lebih tinggi
semasa aktiviti otot masseter tinggi bagi jenis makanan keras. Keputusan
yg diperoleh menunjukkan korelasi positif yang signifikan (r=0.822, p=<0.001) bagi aktiviti otot
dan perbezaan pelepasan gelendong antara epal dan pellet. Hasil
kajian menunjukkan pelepasan gelendung sewaktu pengunyahan makanan
keras mungkin memainkan peranan untuk membantu aktiviti otot rahang-tutup
dan seterusnya menyediakan servo-bantuan kepada otot rahang-tutup
untuk mengkompensasi makanan yang berjenis keras.
Kata kunci: Makanan keras;
otot gelendung; otot rahang-tutup; pengeluaran neuron REFERENCES
Agrawal, Lucas, P.W., Bruce, I.C. & Prinz, J.F. 1998.
Food properties that influence neuromuscular activity during human mastication. J. Dent. Res. 77: 1931-1938.
Appenteng, K., Morimoto, T. & Taylor, A. 1980. Fusimotor
activity in masseter nerve of the cat during reflex jaw movements. J.
Physiol. 305: 415-431.
Appenteng, K., Donovan, M.J. O’, Somjen G., Stephens, J.A.
& Taylor, A. 1978. The projection of jaw elevator muscle spindle afferents
to fifth nerve motoneurones in the cat. J. Physiol. 279: 409-423.
Dessem, D. & Taylor, A. 1989. Morphology of jaw-muscle
spindle afferents in the rat. J. Comp. Neurol. 282: 389-403.
Gottlieb, S. & Taylor, A. 1983. Interpretation of
fusimotor activity in cat masseter nerve during reflex jaw movements. J.
Physiol. 345: 423-438.
Hidaka, O., Morimoto, T., Kato, T., Masuda, Y., Inoue, T.
& Takada, K. 1999. Behavior of jaw muscle spindle afferents during
cortically induced rhythmic jaw movements in the anesthetized rabbit. J.
Neurophysiol. 82: 2633-2640.
Hiiemae, K., Heath, M.R., Heath, G., Kazazoglu, E., Murray,
J., Sapper, D. & Hamblett, K. 1996. Natural bites, food consistency and
feeding behaviour in man. Arch. Oral Biol. 41: 175-189.
Horio, T. & Kawamura, Y. 1989. Effects of texture of
food on chewing patterns in the human subject. J. Oral Rehabil. 16:
177-183.
Lund, J.P. 1991. Mastication and its control by the brain
stem. Crit. Rev. Oral Biol. Med. 2: 33-64.
Lund, J.P. & Kolta, A. 2006. Generation of the central
masticatory pattern and its modification by sensory feedback. Dysphagia 21:
167-174.
Masuda, Y., Morimoto, T., Hidaka, O., Kato, T., Matsuo, R.,
Inoue, T., Kobayashi, M. & Taylor, A. 1997. Modulation of jaw muscle
spindle discharge during mastication in the rabbit. J. Neurophysiol. 77:
2227-2231.
Matsunami, K. & Kubota, K. 1972. Muscle afferents of
trigeminal mesencephalic tract nucleus and mastication in chronic monkeys. Jpn.
J. Physiol. 22: 545-555.
Nozaki, S., Iriki, A. & Nakamura, Y. 1985. Trigeminal mesencephalic
neurons innervating functionally identified muscle spindles and involved in the
monosynaptic stretch reflex of the lateral
pterygoid muscle of the guinea pig, J. Comp. Neurol. 236: 106-120.
Taylor, A., Appenteng, K. & Morimoto, T. 1981.
Proprioceptive input from the jaw muscles and its influence on lapping,
chewing, and posture. Can. J. Physiol. Pharmacol. 59: 636-644.
Yamada, Y., Yamamura, K. & Inoue, M. 2005. Coordination
of cranial motoneurons during mastication. Respir. Physiol. Neurobiol.
147: 177-189.
Yamada, Y., Haraguchi, N., Sasaki, K. & Oi, M. 1988.
Two-dimensional jaw tracking and EMG recording system implanted in the freely
moving rabbit. J. Neurosci. Methods 23(3): 257-261.
Yamamoto, T., Matsuo, R., Kiyomitsu, Y. & Kitamura, R.
1989. Sensory and motor responses of trigeminal and reticular neurons during
ingestive behavior in rats. Exp. Brain Res. 76: 386-400.
Zakir, H.M., Kitagawa, J., Yamada, Y., Kurose, M.,
Mostafeezur, R.M. & Yamamura, K. 2010. Modulation of spindle discharge from
jaw-closing muscles during chewing foods of different hardness in awake
rabbits. Brain Res. Bull. 83(6): 380-386.
*Corresponding author; email: zakir@um.edu.my
|
|||
|
