Kenya Suzuki scite author profile

Kenya Suzuki

5Publications

153Citation Statements Received

33Citation Statements Given

How they've been cited

230

151

How they cite others

Affiliations

Nagoya University, NTT (Japan), Showa University

Publications

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Multi-volume Fusion Imaging of MR Ductography and MR Mammography for Patients with Nipple Discharge

Hirose

Hayano

et al. 2006

magn reson med sci

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Because nipple discharge is caused by carcinoma as well as benign disease, identification of intraductal abnormalities with ductography is important. Ductography is an invasive mammographic examination in which contrast material is injected directly into the duct. Failure to cannulate or extravasation may occur. Ductography shows evidence of lesions, such as filling defects, duct obstruction, or wall irregularity, but it does not reveal the lesion itself. Furthermore, ductography produces a two-dimensional image, so it does not show the shape of the dilated duct or the precise location of the intraductal lesion in the breast. We applied three-dimensional (3D) heavily T2-weighted imaging with fat suppression of the breast to produce MR ductography. The dilated ducts are seen in 3D as tubular structures with high signal, and intraductal abnormalities are seen as signal defects. Furthermore, MR ductography can show an obstructed duct that cannot be seen on ductography. We also performed 3D breast MRI with the intravenous infusion of contrast material to show the lesion itself. Finally, we fused these 2 volume images into a single 3D fused image that not only shows the existence of intraductal abnormality, but reveals the shape, size, and extent of lesion, allowing us to understand easily the relationship between the ducts with dilation and any intraductal lesions in the breast. We herein introduce and describe this noninvasive method and discuss various factors related to its diagnostic use.

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Multicarrier Light Source With Flattened Spectrum Using Phase Modulators and Dispersion Medium

Yamamoto

Komukai

Suzuki

et al. 2009

J. Lightwave Technol.

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Simultaneous nonlinearity mitigation in 92 × 180-Gbit/s PDM-16QAM transmission over 3840 km using PPLN-based guard-band-less optical phase conjugation

et al. 2016

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We experimentally demonstrated the simultaneous nonlinearity mitigation of PDM-16QAM WDM signals using complementary-spectrally-inverted optical phase conjugation (CSI-OPC). We achieved reserved-band-less, guard-band-less, and polarization independent OPC based on periodically poled LiNbO₃ waveguides. By employing the CSI-OPC, 2.325-THz-band (93 × 25 GHz) complementary spectral inversion was achieved while retaining the original WDM bandwidth. A Q²-factor improvement of over 0.4 dB and a 5120 km transmission with a Q²-factor above the FEC limit were confirmed using a 10-channel WDM transmission at the signal band center and signal band edge. We then demonstrated the mitigation of the nonlinear impairments in a 3840 km long-haul WDM signal transmission for all 92-channel 180-Gbit/s PDM-16QAM quasi-Nyquist-WDM signals.

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The β-catenin signaling pathway induces aggressive potential in breast cancer by up-regulating the chemokine CCL5

Yasuhara

Irié

Suzuki

et al. 2015

Experimental Cell Research

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Spectrally flattened phase-locked multi-carrier light generator with phase modulators and chirped fibre Bragg grating

et al. 2007

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Kenya Suzuki

Multi-volume Fusion Imaging of MR Ductography and MR Mammography for Patients with Nipple Discharge

Multicarrier Light Source With Flattened Spectrum Using Phase Modulators and Dispersion Medium

Simultaneous nonlinearity mitigation in 92 × 180-Gbit/s PDM-16QAM transmission over 3840 km using PPLN-based guard-band-less optical phase conjugation

The β-catenin signaling pathway induces aggressive potential in breast cancer by up-regulating the chemokine CCL5

Spectrally flattened phase-locked multi-carrier light generator with phase modulators and chirped fibre Bragg grating

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