E. Tanaka

936 total citations
24 papers, 770 citations indexed

About

E. Tanaka is a scholar working on Cellular and Molecular Neuroscience, Molecular Biology and Cognitive Neuroscience. According to data from OpenAlex, E. Tanaka has authored 24 papers receiving a total of 770 indexed citations (citations by other indexed papers that have themselves been cited), including 19 papers in Cellular and Molecular Neuroscience, 12 papers in Molecular Biology and 4 papers in Cognitive Neuroscience. Recurrent topics in E. Tanaka's work include Neuroscience and Neuropharmacology Research (19 papers), Ion channel regulation and function (9 papers) and Neuroscience and Neural Engineering (4 papers). E. Tanaka is often cited by papers focused on Neuroscience and Neuropharmacology Research (19 papers), Ion channel regulation and function (9 papers) and Neuroscience and Neural Engineering (4 papers). E. Tanaka collaborates with scholars based in Japan, United States and France. E. Tanaka's co-authors include R A North, Hideho Higashi, S. Yamamoto, RA North, H. Inokuchi, Shunsuke Sugita, Yoshihisa Shoji, S. Nishi, Yoshihisa Kudo and Hideki Maeda and has published in prestigious journals such as Journal of Neuroscience, The Journal of Physiology and Journal of Neurophysiology.

In The Last Decade

E. Tanaka

23 papers receiving 761 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
E. Tanaka Japan 17 571 311 201 106 99 24 770
Oscar A. Ramírez Argentina 18 430 0.8× 273 0.9× 180 0.9× 121 1.1× 69 0.7× 40 753
Olusegun J. Ariwodola United States 18 628 1.1× 242 0.8× 276 1.4× 120 1.1× 70 0.7× 22 923
Gajanan P. Shelkar United States 18 430 0.8× 225 0.7× 134 0.7× 98 0.9× 102 1.0× 30 673
Stanley J. Watson United States 10 526 0.9× 335 1.1× 104 0.5× 168 1.6× 115 1.2× 12 940
Ilga Misane Sweden 17 622 1.1× 394 1.3× 286 1.4× 80 0.8× 104 1.1× 21 945
Stephanie M. Perez United States 16 344 0.6× 175 0.6× 208 1.0× 75 0.7× 119 1.2× 26 694
Marvin R. Diaz United States 21 689 1.2× 250 0.8× 286 1.4× 95 0.9× 106 1.1× 39 1.2k
Arthur C. Riegel United States 19 1.1k 2.0× 350 1.1× 380 1.9× 104 1.0× 84 0.8× 27 1.5k
Kelly L. Conrad United States 12 973 1.7× 457 1.5× 336 1.7× 97 0.9× 87 0.9× 14 1.2k
Izaskun Elezgarai Spain 21 903 1.6× 336 1.1× 358 1.8× 171 1.6× 107 1.1× 41 1.3k

Countries citing papers authored by E. Tanaka

Since Specialization
Citations

This map shows the geographic impact of E. Tanaka's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by E. Tanaka with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites E. Tanaka more than expected).

Fields of papers citing papers by E. Tanaka

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by E. Tanaka. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by E. Tanaka. The network helps show where E. Tanaka may publish in the future.

Co-authorship network of co-authors of E. Tanaka

This figure shows the co-authorship network connecting the top 25 collaborators of E. Tanaka. A scholar is included among the top collaborators of E. Tanaka based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with E. Tanaka. E. Tanaka is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
2.
Tanaka, E., et al.. (2017). Affective computing using clustering method for mapping human's emotion. 17. 235–240. 4 indexed citations
3.
Murai, Yoshihiro, Yutaka Okabe, & E. Tanaka. (2012). Activation of protein kinase A and C prevents recovery from persistent depolarization produced by oxygen and glucose deprivation in rat hippocampal neurons. Journal of Neurophysiology. 107(9). 2517–2525. 2 indexed citations
4.
Tanaka, E., et al.. (2011). Walking assistance apparatus using a spatial parallel link mechanism and a weight bearing lift. PubMed. 1135. 1–7. 6 indexed citations
5.
Ogawa, Sachie K., E. Tanaka, Minchul Shin, Naoki Kotani, & Norio Akaike. (2010). Volatile anesthetic effects on isolated GABA synapses and extrasynaptic receptors. Neuropharmacology. 60(4). 701–710. 28 indexed citations
6.
Nishi, Yoshihiro, Minako Oshima, Hiroshi Hosoda, et al.. (2010). Dynamics of placental ghrelin production and its receptor expression in a Dahl salt-sensitive rat model of intrauterine growth restriction. Placenta. 31(5). 358–364. 13 indexed citations
7.
Kawahara, Yuki, Hiroshi Kawahara, Makiko Yamada, et al.. (2009). Peripherally administered ghrelin induces bimodal effects on the mesolimbic dopamine system depending on food-consumptive states. Neuroscience. 161(3). 855–864. 49 indexed citations
8.
Murai, Yoshinaka, et al.. (2005). Excitatory GABAergic synaptic potentials in the mesencephalic trigeminal nucleus of adult rat in vitro. Neuroscience Research. 51(4). 463–474. 17 indexed citations
9.
Tanaka, E., Shigeru Tsuji, Yoshinaka Murai, et al.. (2005). Neuroprotective mechanisms of lidocaine against in vitro ischemic insult of the rat hippocampal CA1 pyramidal neurons. Neuroscience Research. 53(3). 271–278. 18 indexed citations
10.
Tanaka, E., Kunihiko Ishii, Tomonori Akagi, et al.. (2004). A new cytochemical method for ultrastructural localization of Co2+ in rat hippocampal CA1 pyramidal neurons in vitro. Journal of Neuroscience Methods. 135(1-2). 1–8. 2 indexed citations
11.
Tanaka, E., et al.. (2003). Arachidonic Acid Metabolites Contribute to the Irreversible Depolarization Induced by In Vitro Ischemia. Journal of Neurophysiology. 90(5). 3213–3223. 24 indexed citations
12.
13.
Tanaka, E., et al.. (2002). Extrusion of Intracellular Calcium Ion After In Vitro Ischemia in the Rat Hippocampal CA1 Region. Journal of Neurophysiology. 88(2). 879–887. 16 indexed citations
14.
Tanaka, E., et al.. (1999). Membrane Dysfunction Induced by In Vitro Ischemia in Rat Hippocampal CA1 Pyramidal Neurons. Journal of Neurophysiology. 81(4). 1872–1880. 46 indexed citations
15.
Shoji, Yoshihisa, E. Tanaka, Shigeyuki Yamamoto, Hideki Maeda, & H. Higashi. (1998). Mechanisms Underlying the Enhancement of Excitatory Synaptic Transmission in Basolateral Amygdala Neurons of the Kindling Rat. Journal of Neurophysiology. 80(2). 638–646. 17 indexed citations
16.
Yamamoto, S., E. Tanaka, Yoshihisa Shoji, et al.. (1997). Factors That Reverse the Persistent Depolarization Produced by Deprivation of Oxygen and Glucose in Rat Hippocampal CA1 Neurons In Vitro. Journal of Neurophysiology. 78(2). 903–911. 68 indexed citations
17.
Tanaka, E. & RA North. (1994). Opioid actions on rat anterior cingulate cortex neurons in vitro. Journal of Neuroscience. 14(3). 1106–1113. 75 indexed citations
18.
Higashi, Hideho, E. Tanaka, H. Inokuchi, & S. Nishi. (1993). Ionic mechanisms underlying the depolarizing and hyperpolarizing afterpotentials of single spike in guinea-pig cingulate cortical neurons. Neuroscience. 55(1). 129–138. 20 indexed citations
19.
Tanaka, E. & R A North. (1993). Actions of 5-hydroxytryptamine on neurons of the rat cingulate cortex. Journal of Neurophysiology. 69(5). 1749–1757. 154 indexed citations
20.
Tanaka, E., Hideho Higashi, & S. Nishi. (1991). Membrane properties of guinea pig cingulate cortical neurons in vitro. Journal of Neurophysiology. 65(4). 808–821. 21 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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