Temporomandibular joint inflammation decreases the voltage-gated K+ channel subtype 1.4-immunoreactivity of trigeminal ganglion neurons in rats
M Takeda, T Tanimoto, M Nasu, S Matsumoto - European journal of pain, 2008 - Elsevier
Voltage-gated K+ (Kv) channels are one of the important physiological regulators of the
membrane potentials in excitable cells, including sensory ganglion neurons. The aim of the …
membrane potentials in excitable cells, including sensory ganglion neurons. The aim of the …
Temporomandibular joint inflammation decreases the voltage-gated K+ channel subtype 1.4-immuno reactivity of trigeminal ganglion neurons in rats
M Takeda, T Tanimoto, M Nasu… - European Journal of …, 2008 - hero.epa.gov
Abstract Voltage-gated K+(Kv) channels are one of the important physiological regulators of
the membrane potentials in excitable cells, including sensory ganglion neurons. The aim of …
the membrane potentials in excitable cells, including sensory ganglion neurons. The aim of …
Temporomandibular joint inflammation decreases the voltage-gated K+ channel subtype 1.4-immunoreactivity of trigeminal ganglion neurons in rats
M Takeda, T Tanimoto, M Nasu… - European journal of …, 2008 - pubmed.ncbi.nlm.nih.gov
Voltage-gated K+ (Kv) channels are one of the important physiological regulators of the
membrane potentials in excitable cells, including sensory ganglion neurons. The aim of the …
membrane potentials in excitable cells, including sensory ganglion neurons. The aim of the …
Temporomandibular joint inflammation decreases the voltage‐gated K+ channel subtype 1.4‐immunoreactivity of trigeminal ganglion neurons in rats
M Takeda, T Tanimoto, M Nasu… - European Journal of …, 2008 - Wiley Online Library
Abstract Voltage‐gated K+ (Kv) channels are one of the important physiological regulators of
the membrane potentials in excitable cells, including sensory ganglion neurons. The aim of …
the membrane potentials in excitable cells, including sensory ganglion neurons. The aim of …
Temporomandibular joint inflammation decreases the voltage-gated K+ channel subtype 1.4-immunoreactivity of trigeminal ganglion neurons in rats.
M Takeda, T Tanimoto, M Nasu… - European Journal of Pain …, 2007 - europepmc.org
Voltage-gated K+(Kv) channels are one of the important physiological regulators of the
membrane potentials in excitable cells, including sensory ganglion neurons. The aim of the …
membrane potentials in excitable cells, including sensory ganglion neurons. The aim of the …
[引用][C] Temporomandibular joint inflammation decreases the voltage-gated K+ channel subtype 1.4-immunoreactivity of trigeminal ganglion neurons in rats
M Takeda, T Tanimoto, M Nasu… - European Journal of Pain, 2008 - cir.nii.ac.jp
Temporomandibular joint inflammation decreases the voltage-gated K+ channel subtype 1.4-immunoreactivity
of trigeminal ganglion neurons in rats | CiNii Research CiNii 国立情報学研究所 学術情報 …
of trigeminal ganglion neurons in rats | CiNii Research CiNii 国立情報学研究所 学術情報 …
Temporomandibular joint inflammation decreases the voltage-gated K+ channel subtype 1.4-immunoreactivity of trigeminal ganglion neurons in rats
M Takeda, T Tanimoto, M Nasu, S Matsumoto - European Journal of Pain, 2008 - infona.pl
Voltage-gated K+(Kv) channels are one of the important physiological regulators of the
membrane potentials in excitable cells, including sensory ganglion neurons. The aim of the …
membrane potentials in excitable cells, including sensory ganglion neurons. The aim of the …
[引用][C] Temporomandibular joint inflammation decreases the voltage-gated K^+ channel subtype 1.4-immunoreactivity of trigeminal ganglion neurons in rats
M TAKEDA - Eur J Pain, 2007 - cir.nii.ac.jp
Temporomandibular joint inflammation decreases the voltage-gated K^+ channel subtype
1.4-immunoreactivity of trigeminal ganglion neurons in rats | CiNii Research CiNii 国立 …
1.4-immunoreactivity of trigeminal ganglion neurons in rats | CiNii Research CiNii 国立 …