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Takeshi Y Hiyama

Showing results (1-10 of 42) with videos related to

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Physiological Reports|March 13, 2024
Brain sodium sensing for regulation of thirst, salt appetite, and blood pressureTakeshi Y Hiyama
Yonago Acta Medica|February 19, 2025
Understanding of Thirst in Medical ScienceTakeshi Y Hiyama
Chemical Senses|March 2, 2005
Sodium-level-sensitive sodium channel and salt-intake behaviorMasaharu Noda, Takeshi Y Hiyama
Pflugers Archiv : European Journal of Physiology|December 11, 2014
Sodium sensing in the brainMasaharu Noda, Takeshi Y Hiyama
Neuroscience Research|August 14, 2016
Sodium sensing in the subfornical organ and body-fluid homeostasisTakeshi Y Hiyama, Masaharu Noda
The Neuroscientist : a Review Journal Bringing Neurobiology, Neurology and Psychiatry|June 26, 2014
The Na(x) Channel: What It Is and What It DoesMasaharu Noda, Takeshi Y Hiyama
Neuroscience Letters|February 9, 2010
Na(x)-deficient mice show normal vasopressin response to dehydrationAyano Nagakura, Takeshi Y Hiyama, Masaharu Noda
Plos One|July 23, 2011
Osmosensitivity of transient receptor potential vanilloid 1 is synergistically enhanced by distinct activating stimuli such as temperature and protonsEri Nishihara, Takeshi Y Hiyama, Masaharu Noda
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|October 22, 2004
The subfornical organ is the primary locus of sodium-level sensing by Na(x) sodium channels for the control of salt-intake behaviorTakeshi Y Hiyama, Eiji Watanabe, Haruo Okado, et al.
Neuroscience Letters|September 6, 2002
NaX sodium channel is expressed in non-myelinating Schwann cells and alveolar type II cells in miceEiji Watanabe, Takeshi Y Hiyama, Ryuji Kodama, et al.
Pageof 5

Showing results (1-10 of 42) with videos related to

Sort By:
Pageof 5
Physiological Reports|March 13, 2024
Brain sodium sensing for regulation of thirst, salt appetite, and blood pressureTakeshi Y Hiyama
Yonago Acta Medica|February 19, 2025
Understanding of Thirst in Medical ScienceTakeshi Y Hiyama
Chemical Senses|March 2, 2005
Sodium-level-sensitive sodium channel and salt-intake behaviorMasaharu Noda, Takeshi Y Hiyama
Pflugers Archiv : European Journal of Physiology|December 11, 2014
Sodium sensing in the brainMasaharu Noda, Takeshi Y Hiyama
Neuroscience Research|August 14, 2016
Sodium sensing in the subfornical organ and body-fluid homeostasisTakeshi Y Hiyama, Masaharu Noda
The Neuroscientist : a Review Journal Bringing Neurobiology, Neurology and Psychiatry|June 26, 2014
The Na(x) Channel: What It Is and What It DoesMasaharu Noda, Takeshi Y Hiyama
Neuroscience Letters|February 9, 2010
Na(x)-deficient mice show normal vasopressin response to dehydrationAyano Nagakura, Takeshi Y Hiyama, Masaharu Noda
Plos One|July 23, 2011
Osmosensitivity of transient receptor potential vanilloid 1 is synergistically enhanced by distinct activating stimuli such as temperature and protonsEri Nishihara, Takeshi Y Hiyama, Masaharu Noda
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|October 22, 2004
The subfornical organ is the primary locus of sodium-level sensing by Na(x) sodium channels for the control of salt-intake behaviorTakeshi Y Hiyama, Eiji Watanabe, Haruo Okado, et al.
Neuroscience Letters|September 6, 2002
NaX sodium channel is expressed in non-myelinating Schwann cells and alveolar type II cells in miceEiji Watanabe, Takeshi Y Hiyama, Ryuji Kodama, et al.
Pageof 5