Kazunori Uchida scite author profile

We reported previously that astroglia cultured from aquaporin-4-deficient (AQP4-/-) mice migrate more slowly in vitro than those from wild-type (AQP4+/+) mice (J. Cell Sci. 2005;118, 5691-5698). Here, we investigate the migration of fluorescently labeled AQP4+/+ and AQP4-/- astroglia after implantation into mouse brains in which directional movement was stimulated by a planar stab wound 3 mm away from the axis of the injection needle. Two days after cell injection we determined the location, elongation ratio, and orientation of labeled cells. Migration of AQP4+/+ but not AQP4-/- cells toward the stab was greater than away from the stab. AQP4+/+ astroglia moved on average 1.5 mm toward the stab compared with 0.6 mm for AQP4-/- cells. More than 25% of the migrating AQP4+/+ cells but <3% of AQP4-/- cells appeared elongated (axial ratio>2.5). In transwell assays, AQP4+/+ astroglia migrated faster than AQP4-/- cells in a manner dependent on pore size. At 8 h, approximately 50% of AQP4+/+ cells migrated through 8-microm diameter pores, whereas equivalent migration of AQP4-/- cells was found for 12-microm diameter pores. These results provide in vivo evidence for AQP4-dependent astroglial migration and suggest that modulation of AQP4 expression or function might alter glial scarring.

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Spectral domain analysis of electromagnetic wave scattering by an infinite plane metallic grating

Uchida

Noda

Matsunaga

1987

IEEE Trans. Antennas Propagat.

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Estimation of Propagation Characteristics along Random Rough Surface for Sensor Networks

Uchida¹,

Honda²

2010

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Evaluation of Genetic Algorithms for Single Ground Station Scheduling Problem

Xhafa

Sun²,

Barolli

et al. 2012

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Electromagnetic wave scattering by an infinite plane metallic grating in case of oblique incidence and arbitrary polarization

Uchida

Noda

Matsunaga

1988

IEEE Trans. Antennas Propagat.

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A new type of the spectral domain method combined with the sampling theorem is applied to the rigorous analysis of the electromagnetic wave scattering by an infinite plane metallic grating in case of an oblique incidence and an arbitrary polarization. The accuracy and convergence of the present method are examined numerically from different angles, and it is found that the numerical results exhibit a good convergence even for a small truncation number. Some numerical examples are shown for the frequency characteristics of the reflected and transmitted powers, and the surface current distributions. Some versions in relation to the duality of the problem are also given.

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Kazunori Uchida

Greatly impaired migration of implanted aquaporin‐4‐deficient astroglial cells in mouse brain toward a site of injury

Spectral domain analysis of electromagnetic wave scattering by an infinite plane metallic grating

Estimation of Propagation Characteristics along Random Rough Surface for Sensor Networks

Evaluation of Genetic Algorithms for Single Ground Station Scheduling Problem

Electromagnetic wave scattering by an infinite plane metallic grating in case of oblique incidence and arbitrary polarization

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