〜2015-2011〜

〜2015〜

Choi S, Maruyama Y, Suzuki T, Nin F, Hibino H, Sasaki O. 
Wide-field heterodyne detection method for two-dimensional surface vibration measurement. Optics Communications, (2015), 356: 343-349. Optics Communications

Choi S, Watanabe T, Suzuki T, Nin F, Hibino H, Sasaki O. 
Multifrequency swept common-path en-face OCT for wide-field measurement of interior surface vibrations in thick biological tissues. Optics Express, (2015), 23(16): 21078-21089. Optics Express

Uetsuka S*, Ogata G*, Nagamori S*, Isozumi N, Nin F, Yoshida T, Komune S, Kitahara T, Kikkawa Y, Inohara H, Kanai Y, Hibino H.
Molecular architecture of the stria vascularis membrane transport system, which is essential for physiological function of the mammalian cochlea. European Journal of Neuroscience, (2015), 42: 1984-2002. [*: equal contributors] Pubmed *2016/07/18 World Biomedical Frontiersに掲載。World Biomedical Frontiers

Yoshida T, Nin F, Ogata G, Uetsuka S, Kitahara T, Inohara H, Akazawa K, Komune S, Kurachi Y, Hibino H. 
NKCCs in the fibrocytes of the spiral ligament are silent on the unidirectional K⁺ transport that controls the electrochemical properties in the mammalian cochlea. Pflügers Archiv – European Journal of Physiology, (2015), 467(7): 1577-1589. Pubmed

Fujita A, Inanobe A, Hibino H, Nielsen S, Ottersen OP, Kurachi Y. 
Clustering of Kir4.1 at specialized compartments of the lateral membrane in ependymal cells of rat brain. Cell and Tissue Research, (2015), 359(2): 627-634. Pubmed

〜2014〜

Yamaguchi S, Tanimoto A, Otsuguro K, Hibino H, Ito S. 
Negatively-charged amino acids near and in transient receptor potential (TRP) domain of TRPM4 are one determinant of its Ca²⁺ sensitivity. Journal of Biological Chemistry, (2014), 289(51): 35265-35282. Pubmed

〜2013〜

Adachi N, Yoshida T, Nin F, Ogata G, Yamaguchi S, Suzuki T, Komune S, Hisa Y, Hibino H^#, Kurachi Y^#. [^#: equal corresponding authors] 
The mechanism underlying maintenance of the endocochlear potential by the K⁺ transport system in the fibrocytes of the inner ear. Journal of Physiology (London), (2013), 591(18): 4459-4472. Pubmed

〜2012〜

Nin F, Hibino H^#, Murakami S, Suzuki T, Hisa Y, Kurachi Y^#. [^#: equal corresponding authors] 
A computational model of a circulation current that controls electrochemical properties in the mammalian cochlea. Proceedings of National Academy Sciences of the United States of America, (2012), 109(23): 9191-9196. Pubmed

Reichenbach T, Stefanovic A, Nin F, Hudspeth AJ. 
Waves on Reissner’s membrane: A mechanism for the propagation of otoacoustic emissions from the cochlea. Cell Reports, (2012), 1(4), 374-384. Pubmed

〜2011〜

香田徹、日比野浩、任書晃、倉智嘉久、入野俊夫、鵜木祐史、鈴木陽一、牧勝弘、津崎実、森周司、（編集者　香田･森） 
日本音響学会　内耳有毛細胞機能の分子生物学的基盤とそのモデル　 音響サイエンスシリーズ3「聴覚モデル」 58-100, 2011 コロナ社, 東京（233頁）