Kimiko Kameyama scite author profile

Kimiko Kameyama

5Publications

86Citation Statements Received

24Citation Statements Given

How they've been cited

131

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Affiliations

Kurume University Medical Center, Fukuoka Dental College, Kurume University

Publications

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Mechanisms Mediating the Vasorelaxing Action of Eugenol, a Pungent Oil, on Rabbit Arterial Tissue

Nishijima¹,

Uchida²,

Kameyama

et al. 1999

Japanese Journal of Pharmacology

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The inhibitory actions of eugenol on intracellular Ca2+ concentration ([Ca2+]i) and the contractions induced by excess extracellular K+ concentration ([K+]o) in rabbit thoracic aorta were investigated. Application of excess [K+]o solution (30-90 mM) produced contraction and increased the intensity of the Ca2+ fluorescence signal. Pretreatment with eugenol (> or =0.1 mM) reduced both the amplitude of contraction and the intensity of the Ca2+ fluorescence signal, but the contraction was more strongly affected than the [Ca2+]i. Application of eugenol (0.3 mM) to tissue precontracted by 90 mM [K+]o solution (immediately after the removal of the 90 mM [K+]o solution) slowed the decay of the [Ca2+]i signal, but it did not change the rate of relaxation. Carbonyl cyanide m-chlorophenylhydrozone (10 microM), a mitochondrial metabolic inhibitor, produced a reduction in tension despite a slight increase in [Ca2+]i when applied to muscle precontracted by 90 mM [K+]o solution. These results indicate that eugenol relaxes the rabbit thoracic aorta while suppressing the Ca2+-sensitivity and both the uptake and extrusion mechanisms for Ca2+. To judge from the similarities between its actions and those of metabolic inhibitors, eugenol may produce its actions at least partly through metabolic inhibition.

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Isoflurane inhibits neuronal Ca2+ channels through enhancement of current inactivation

Kameyama¹,

Aono²,

Kitamura³

1999

British Journal of Anaesthesia

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To help clarify the mechanisms by which volatile anaesthetics act on neuronal Ca2+ channel currents (IBa), the effects of isoflurane were studied on IBa in rat dorsal root ganglion (DRG) cells. Voltage-dependent IBa were pharmacologically subdivided into L-, N- and P/Q-types, and toxin-resistant IBa. At clinically relevant concentrations, isoflurane inhibited the L-, N- and P/Q-types, but not toxin-resistant IBa. The IC50 values for the L-, N- and P/Q-types were 0.7%, 1.3% and 3.0%, respectively (concentrations equivalent to 0.35, 0.68 and 1.46 mmol litre-1 in the aqueous phase). Isoflurane also produced initial transient augmentation of the N-type IBa. Isoflurane shifted the mid-point of the steady-state inactivation curve for the L-, N- and P/Q-type IBa towards negative potentials, and prolonged the time constant of current reactivation. We conclude that isoflurane inhibited L-, N- and P/Q-type IBa in rat DRG neurones by enhancing current inactivation and prolonging recovery time after inactivation. Transient augmentation of the N-type IBa may also form part of the overall actions of isoflurane in DRG neurones.

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Effects of Nasal Application of an Epinephrine and Lidocaine Mixture on the Hemodynamics and Nasal Mucosa in Oral and Maxillofacial Surgery

Kameyama

Watanabe

Kano

et al. 2008

Journal of Oral and Maxillofacial Surgery

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Antinociceptive action of amlodipine blocking N-type Ca2+ channels at the primary afferent neurons in mice

Murakami

Nakagawasai

Fujii

et al. 2001

European Journal of Pharmacology

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Artificial activation of bovine oocytes matured in vitro by electric shock or exposure to ionophore A23187

Aoyagi¹,

Kameyama²,

Takeda³

1992

Theriogenology

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Kimiko Kameyama

Mechanisms Mediating the Vasorelaxing Action of Eugenol, a Pungent Oil, on Rabbit Arterial Tissue

Isoflurane inhibits neuronal Ca2+ channels through enhancement of current inactivation

Effects of Nasal Application of an Epinephrine and Lidocaine Mixture on the Hemodynamics and Nasal Mucosa in Oral and Maxillofacial Surgery

Antinociceptive action of amlodipine blocking N-type Ca2+ channels at the primary afferent neurons in mice

Artificial activation of bovine oocytes matured in vitro by electric shock or exposure to ionophore A23187

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