Kohsuke Gonda
Professor
Department of Nano-Medical Science
Tohoku University
Japan
Biography
Dr. Kohsuke Gonda, is a Professor ofNano-Medical Science, at Tohoku University School of medicine. He is M.D. and Ph.D. His research themes are Development of high resolution and accuracy imaging using nanotechnology, Medical study of cancer and peripheral artery disease with nano-imaging, Simulation study of pharmacokinetic and radiation physics in human body using PET and SPECT. Research Keywords for him are nanomedicine, imaging, nuclear medicine (PET/SPECT), cancer, peripheral artery disease.
Research Interest
high accuracy, early diagnosis, evaluation of drug efficacy, pharmacokinetic analysis, image processing
Publications
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Imamura, J., Suzuki, Y., Gonda, K., Roy, C. N., Gatanaga, H., Ohuchi, N., & Higuchi, H. (2011). Single particle tracking confirms that multivalent Tat protein transduction domain-induced heparan sulfate proteoglycan cross-linkage activates Rac1 for internalization. Journal of Biological Chemistry, 286(12), 10581-10592.
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Watanabe, T. M., Tokuo, H., Gonda, K., Higuchi, H., & Ikebe, M. (2010). Myosin-X induces filopodia by multiple elongation mechanism. Journal of Biological Chemistry, 285(25), 19605-19614.
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Kobayashi, Y., Inose, H., Nakagawa, T., Gonda, K., Takeda, M., Ohuchi, N., & Kasuya, A. (2011). Control of shell thickness in silica-coating of Au nanoparticles and their X-ray imaging properties. Journal of colloid and interface science, 358(2), 329-333.
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Ma, Q., Nakane, Y., Mori, Y., Hasegawa, M., Yoshioka, Y., Watanabe, T. M., ... & Jin, T. (2012). Multilayered, core/shell nanoprobes based on magnetic ferric oxide particles and quantum dots for multimodality imaging of breast cancer tumors. Biomaterials, 33(33), 8486-8494.
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Yoo, J., Kambara, T., Gonda, K., & Higuchi, H. (2008). Intracellular imaging of targeted proteins labeled with quantum dots. Experimental cell research, 314(19), 3563-3569.
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Gonda, K., Watanabe, T. M., Ohuchi, N., & Higuchi, H. (2010). In vivo nano-imaging of membrane dynamics in metastatic tumor cells using quantum dots. Journal of Biological Chemistry, 285(4), 2750-2757.
