Takefumi Negoro scite author profile

Takefumi Negoro

5Publications

57Citation Statements Received

65Citation Statements Given

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122

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Aichi Gakuin University

Publications

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EMG Activities of Two Heads of the Human Lateral Pterygoid Muscle in Relation to Mandibular Condyle Movement and Biting Force

Hiraba

Hibino

Hiranuma

et al. 2000

Journal of Neurophysiology

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Electromyographic (EMG) activities of the superior (SUP) and inferior heads (INF) of the lateral pterygoid muscle (LPT) were recorded in humans during voluntary stepwise changes in biting force and jaw position that were adopted to exclude the effects of acceleration and velocity of jaw movements on the muscle activity. The SUP behaved like a jaw-closing muscle and showed characteristic activity in relation to the biting force. It showed a considerable amount of background activity (5-32% of the maximum) even in the intercuspal position without teeth clenching and reached a nearly maximum activity at relatively lower biting-force levels than the jaw-closing muscles during increment of the biting force. Stretch reflexes were found in the SUP, the function of which could be to stabilize the condyle against the biting force that pulls the condyle posteriorly. This notion was verified by examining the biomechanics on the temporomandibular joint. The complex movements of the mandibular condyle in a sagittal plane were decomposed into displacement in the anteroposterior direction (Ac) and angle of rotation (RAc) around a kinesiological specific point on the condyle. In relation to Ac, each head of the LPT showed quite a similar behavior to each other in all types of jaw movements across all subjects. Working ranges of the muscle activities were almost constant (Ac <3 mm for the SUP and Ac >3 mm for the INF). The amount of EMG activity of the SUP changed in inverse proportion to Ac showing a hyperbola-like relation, whereas that of the INF changed rather linearly. The EMG amplitude of the SUP showed a quasilinear inverse relation with RAc in the hinge movement during which the condyle rotated with no movement in the anteroposterior direction. This finding suggests that the SUP controls the angular relationship between the articular disk and the condyle. On the other hand, the position of the disk in relation to the maxilla, not to the condyle, is controlled indirectly by the INF because the disk is attached to the condyle by tendinous ligaments.

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Movement of the mandibular condyle and activity of the masseter and lateral pterygoid muscles during masticatory-like jaw movements induced by electrical stimulation of the cortical masticatory area of rabbits

Morita

Fujiwara

Negoro

et al. 2008

Archives of Oral Biology

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Histochemical Study of Rabbit Masseter Muscle: The effect of the alteration of food on the muscle fibers

et al. 2001

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Suitable design of mouthguard for sports‐active person with spaced dentition

Chowdhury

Churei

Takahashi

et al. 2014

Dental Traumatology

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Two-stage cleft palate closure by our treatment algorithm in complete unilateral cleft lip and palate: Results of maxillary growth at 6 years of age

Mizuno

Kurita

Imaoka

et al. 2019

Journal of Oral and Maxillofacial Surgery, Medicine, and Pathol

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Takefumi Negoro

EMG Activities of Two Heads of the Human Lateral Pterygoid Muscle in Relation to Mandibular Condyle Movement and Biting Force

Movement of the mandibular condyle and activity of the masseter and lateral pterygoid muscles during masticatory-like jaw movements induced by electrical stimulation of the cortical masticatory area of rabbits

Histochemical Study of Rabbit Masseter Muscle: The effect of the alteration of food on the muscle fibers

Suitable design of mouthguard for sports‐active person with spaced dentition

Two-stage cleft palate closure by our treatment algorithm in complete unilateral cleft lip and palate: Results of maxillary growth at 6 years of age

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