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Somatosensory & Motor Research Volume 22, 2005 - Issue 3
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Original

Cortical control for mastication in cats: Changes in masticatory movements following lesions in the masticatory cortex

Hisao Hiraba Department of Physiology, Nihon University School of Dentistry, Chiyoda-ku, Tokyo, Japan; Division of Functional Morphology Dental Research Center, Nihon University School of Dentistry, Chiyoda-ku, Tokyo, JapanCorrespondence[email protected]
&
Takako Sato Department of Oral and Maxillofacial Surgery, Nihon University School of Dentistry, Chiyoda-ku, Tokyo, Japan
Pages 171-181 | Received 29 May 2004, Accepted 09 Nov 2004, Published online: 10 Jul 2009

References

  • Bremer F. Physologie nerveuse de la mastication chez le chat et lapin. Réflexes de la mastication. Réponese masticatrices corticales et centre cortical du gout. Arch Int Physiol 1923; 21: 308–352
  • Brodal A. The cerebral cortex. Neurological anatomy in relation to clinical medicine, A Brodal. Oxford University Press, New York 1981; 788–848
  • Brodmann K. Beitrage zur histologischen Lokalization der Grosshirnrinde. I. Die Regio Rolandica. J Psychol Neurol Leipz 1903; 2: 79–107
  • Enomoto S, Schwartz G, Lund JP. The effects of cortical ablation on mastication in the rabbit. Neurosci Lett 1987; 82: 162–166
  • Ferrier D. The function of the brain. 2nd ed. Putnam, New York 1886; 242–262
  • Goldberg L, Chandler SH, Tal M. Relationship between jaw movements and trigeminal motoneuron membrane-potential fluctuations during cortically induced rhythmical jaw movements in the guinea pig. J Neurophysiol 1982; 48: 110–125
  • Hassler R, Muhs-Clement K. Architektonischer Aufbau des sensorimotorischen und parietalen cortex der katze. J Hirnforsch 1964; 6: 377–429
  • Hiraba H, Yoshida T, Furukawa T, Oishi T, Yoshimoto A, Kamogawa H, Sumino R. The function of oro-facial neurons with the ipsi- and the bilateral receptive fields in the first somatosensory cortex of the conscious cat. Shika Kisoka Igakka Zasshi 1992; 34: 481–493, in Japanese
  • Hiraba H, Yamaguchi Y, Iwamura Y. Mastication-related neurons in the orofacial first somatosensory cortex of awake cats. Somatosens Mot Res 1997; 14: 126–137
  • Hiraba H, Yamaguchi Y, Satoh H, Ishibashi Y, Iwamura Y. Deficits of masticatory movements caused by lesions in the orofacial somatosensory cortex of the awake cat. Somatosens Mot Res 2000; 17: 361–372
  • Hiraba H. The function of sensory information from the first somatosensory cortex for facial movements during mastication in cats. Somatosens Mot Res 2004; 21: 87–97
  • Hiraba H, Sato T. Cortical control of mastication in the cat: Properties of mastication-related neurons in motor and masticatory cortices. Somatosens Mot Res 2004; 21: 217–227
  • Huang C-S, Hiraba H, Murray GM, Sessle BJ. Topographical distribution and functional properties of cortically induced rhythmical jaw movements in the monkey (Macaca fascicularis). J Neurophysiol 1989; 61: 635–650
  • Inoue T, Kato T, Masuda T, Kawamura Y, Morimoto T. Modifications of masticatory behavior after trigeminal deafferentation in the rabbit. Exp Brain Res 1989; 74: 579–591
  • Iwamura Y. Bilateral receptive field neurons and callosal connections in the somatosensory cortex. Phil Trans R Soc Lond B 2000; 355: 267–273
  • Iwata K, Itoga H, Ikukawa A, Hanashima N, Sumino R. Movements of the jaw and orofacial regions evoked by stimulation of two different cottical areas in cats. Brain Res 1985; 418: 183–187
  • Larson CR, Byrd KE, Garthwaite CR, Luschei ES. Alterations in the pattern of mastication after ablations of the lateral precentral cortex in rhesus macaques. Exp Neurol 1980; 70: 638–651
  • Lund JP, Enomoto S. The generation of mastication by the mammalian central nervous system. Neural control or rhythmic movements in vertebrates, AH Cohen, S Rossignol, S Grillner. Wiley, New York 1988; 41–72
  • Lund JP, Lamarre Y. Activity of neurons in the lower precentral cortex during voluntary and rhythmical jaw movements in the monkey. Exp Brain Res 1974; 19: 282–299
  • Lund JP, Sessle BJ. Oro-facial and jaw muscle afferent projections to neurons in cat frontal cortex. Exp Neurol 1974; 45: 314–331
  • Lund JP, Sasamoto K, Murakami T, Olsson KA. Analysis of rhythmical jaw movements produced by electrical stimulation of motor-sensory cortex of rabbits. J Neurophysiol 1984; 52: 1014–1029
  • Luschei ES, Goldberg LJ. Neural mechanisms of mandibular control: Mastication and voluntary biting. Handbook of physiology, Sec. 1: Neurophysiology, Vol. II: Motor control, VB Brooks. American Physiological Society, Washington 1981; 1237–1274
  • Luschei ES, Goodwin GM. Role of monkey precentral cortex in control of voluntary jaw movements. J Neurophysiol 1975; 38: 146–157
  • Manzoni T, Barbaresi P, Conti F, Fabri M. The callosal connections of the primary somatosensory cortex and the neuronal bases of midline fusion. Exp Brain Res 1989; 76: 251–266
  • Mao C-C, Coull BM, Gloper LAC, Rau MT. Anterior operculum syndrome. Neurol 1989; 39: 1169–1172
  • McGuinness E, Siverten D, Allman JM. Organization of the face representation in macaque motor cortex. J Comp Neurol 1980; 193: 591–608
  • Meadows JC. Dysphagia in unilateral cerebral lesions. J Neurol Neurosurg Psychiat 1973; 36: 853–860
  • McFarland DH, Lund JP. An investigation of the coupling between respiration, mastication, and swallowing in the awake rabbit. J Neurophysiol 1993; 69: 95–108
  • Morimoto T, Kawamura Y. Properties of tongue and jaw movements elicited by stimulation of the orbital gyrus in the cat. Arch Oral Biol 1973; 18: 361–372
  • Murray GM, Lin L-D, Moustafa EM, Sessle BJ. Effects of reversible inactivation by cooling of the primate face motor cortex on the performance of a trained tongue-protrusion task and trained biting task. J Neurophysiol 1991; 65: 511–530
  • Murray GM, Sessle BJ. Functional properties of single neurons in the face primate motor cortex of the primate. I. Input and output features of tongue motor cortex. J Neurophysiol 1992; 67: 747–758
  • Nakamura Y, Katakura N. Generation of masticatory rhythm in the brainstem. J Neurosci Res 1995; 23: 1–9
  • Nakamura Y, Enomoto S, Kato M. The role of medial bulbar reticular neurons in the orbital cortically induced masticatory rhythm in cats. Brain Res 1980; 202: 207–212
  • Nakamura Y, Takatori M, Kubo Y, Nozaki S, Enomoto S. Masticatory rhythm formation-facts and a hypothesis. Integrative control function of the brain. vol. II, M Ito, N Tsukahara, K Kubota, K Yagi. Elsevier/Kodansha Scientific, Amsterdam/Tokyo 1979; 321–331
  • Narita N, Yamamura K, Yao D, Martin RE, Martin Y, Masuda Y, Sessle BJ. Effects on mastication of reversible bilateral inactivation of the lateral pericentral cortex in the monkey (Macaca fascicularis). Arch Oral Biol 2002; 47: 637–688
  • Penfield W, Rasmussen T. Cerebral cortex of man. A clinical study of localization on function. Macmillan, New York 1950; 77–86
  • Robbins J, Levine RS. Swallowing after unilateral stroke of the cerebral cortex: Preliminary experience. Dysphagia 1988; 3: 11–17
  • Sahara Y, Hashimoto N, Nakamura Y. Hypoglossal premotor neurons in the rostral medullary parvocellular reticular formation participate in cortically-induced rhythmical tongue movements. Neurosci Res 1996; 26: 119–131
  • Sessle BJ, Wesendanger M. Structural and functional definition of the motor cortex in the monkey (Macaca fascicularis). J Physiol Lond 1982; 323: 245–265
  • Vogt C, Vogt O. Allegemeinere Ergebnisse unserer Hirnforschung. J Psychol Neurol Leipz 1919; 25: 277–462
  • Yamamura K, Narita N, Yao D, Martin RE, Masuda Y, Sessle BJ. Effects of reversible bilateral inactivation of face primary motor cortex on mastication and swallowing. Brain Res 2002; 944: 40–55

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