Yasushi Ito scite author profile

Yasushi Ito

5Publications

32Citation Statements Received

26Citation Statements Given

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Affiliations

Japanese Foundation For Cancer Research, Nagoya University Hospital, Chuo University

Publications

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An experimental attenuation plate to improve the dose distribution in intraoperative electron beam radiotherapy for breast cancer

et al. 2009

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Intraoperative electron beam radiotherapy (IOERT) is a technique in which a single-fraction high dose is intraoperatively delivered to subclinical tumour cells using an electron beam after breast-conserving surgery. In IOERT, an attenuation plate consisting of a pair of metal disks is commonly used to protect the normal tissues posterior to the breast. However, the dose in front of the plate is affected by backscatter, resulting in an unpredictable delivered dose to the tumour cells. In this study, an experimental attenuation plate, termed a shielding plate, was designed using Monte Carlo simulation, which significantly diminished the electron beam without introducing any backscatter radiation. The plate's performance was verified by measurements. It was made of two layers, a first layer (source side) of polymethyl methacrylate (PMMA) and a second layer of copper, which was selected from among other metals (aluminium, copper and lead) after testing for shielding capability and the range and magnitude of backscatter. The optimal thicknesses of the PMMA (0.71 cm) and copper (0.3 cm) layers were determined by changing their thicknesses during simulations. On the basis of these results, a shielding plate was prototyped and depth doses with and without the plate were measured by radiophotoluminescence glass dosimeters using a conventional stationary linear accelerator and a mobile linear accelerator dedicated for IOERT. The trial shielding plate functioned as intended, indicating its applicability in clinical practice.

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Dental Traits in Five Chinese Minorities in Yunnan Province

Kanazawa¹,

Satake²,

Sasaki³

et al. 2009

COCA

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Management of the baseline shift using a new and simple method for respiratory‐gated radiation therapy: Detectability and effectiveness of a flexible monitoring system

et al. 2011

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The advent of intensity modulated radiation therapy and volumetric modulated radiation therapy facilitates margin reduction for the planning target volumes and the OARs, but highly accurate irradiation is needed to achieve target coverage and OAR sparing with a small margin. The baseline shifts can affect treatment not only with the respiratory gating system but also without the system. Our system can manage the baseline shift and also enables treatment irradiation to be undertaken with high accuracy.

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Surface Grinding Characteristics of Si<sub>3</sub>N<sub>4</sub> Ceramics under High-Speed and Speed-Stroke Grinding Conditions

Nishioka

Ito

Yamamoto

et al. 1995

J. Ceram. Soc. Japan

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Optimal Parameter Decision Method in VMAT for Lung Tumors with Respiratory Motions

Matsubayashi

Hashimoto²,

Uehara³

et al. 2015

Nippon Hoshasen Gijutsu Gakkai Zasshi

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When performing lung cancer treatments using volumetric modulated arc therapy (VMAT) technique, dose error related to respiratory motion of tumors and multi leaf collimator (MLC) movement may occur. The dose error causes daily dose variation in multiple fractionations irradiation. The purpose of this study is to verify the influence of the respiratory motion and the MLC movement on the daily dose variation, and to confirm the feasibility of deciding robust planning parameter against the dose variation. We prepared 5 VMAT plans for imitating lung tumor in thorax dynamic phantom. Dose calculations of these plans were done taking into account the respiratory motions. We examined the relation between dose variation and two parameters that were number of respiration in an arc and MLC gap width. We presented the relationship between the dose variation and each parameters using regression analysis, and we could derive the approximation formula for estimating the dose variation using these parameters. We could estimate dose variation in another VMAT plans using the approximation formula and another plans parameters. By confirming dose variation in planning procedure using this estimation method, we may decide planning parameter taking the dose variation into account. So, we could establish the estimation method to decide adequate planning parameters in VMAT.

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Yasushi Ito

An experimental attenuation plate to improve the dose distribution in intraoperative electron beam radiotherapy for breast cancer

Dental Traits in Five Chinese Minorities in Yunnan Province

Management of the baseline shift using a new and simple method for respiratory‐gated radiation therapy: Detectability and effectiveness of a flexible monitoring system

Surface Grinding Characteristics of Si<sub>3</sub>N<sub>4</sub> Ceramics under High-Speed and Speed-Stroke Grinding Conditions

Optimal Parameter Decision Method in VMAT for Lung Tumors with Respiratory Motions

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