V. A. Yamshchikov scite author profile

Accurate and reproducible patient setup is a prerequisite to fractionated radiotherapy. To evaluate the applicability and technical performance of a commercial 3D surface imaging system for repositioning of breast cancer patients, measurements were performed in a rigid anthropomorphic phantom as well as in healthy volunteers. The camera system records a respirationgated surface model of the imaged object, which may be registered to a previously recorded reference model. A transformation is provided, which may be applied to the treatment couch to correct the setup of the patient. The system showed a high stability and detected pre-defined shifts of phantoms and healthy volunteers with an accuracy of 0.40 ± 0.26 mm and 1.02 ± 0.51 mm, respectively (spatial deviation between pre-defined shift and suggested correction). The accuracy of the suggested rotational correction around the vertical axis was always better than 0.3 • in phantom measurements and 0.8 • in volunteers, respectively. Comparison of the suggested setup correction with that detected by a second and independently operated markerbased optical system provided consistent results. The results demonstrate that the camera system provides highly accurate setup corrections in a phantom and healthy volunteers. The most efficient use of the system for improving the setup accuracy in breast cancer patients has to be investigated in routine patient treatments.

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The Effect of Preliminary Laser Surface Treatment on the Mechanical Properties of a Solid-Phase Compound of an Iron-Nickel Alloy in Diffusion Welding

Khomich

Yamshchikov

2020

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High-power electric-discharge CO₂laser with easily ionizable substances added to the mixture

Аполлонов¹,

Vas'kovskiĭ²,

Zhavoronkov³

et al. 1985

Sov. J. Quantum Electron.

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Electrohydrodynamic effect resulting from high-frequency barrier discharge in gas

et al. 2012

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V. A. Yamshchikov

On the possibility of generating volume dielectric barrier discharge in air at atmospheric pressure

Formation of a self-sustained volume discharge with intense ultraviolet irradiation of the cathode region

The Effect of Preliminary Laser Surface Treatment on the Mechanical Properties of a Solid-Phase Compound of an Iron-Nickel Alloy in Diffusion Welding

High-power electric-discharge CO₂laser with easily ionizable substances added to the mixture

Electrohydrodynamic effect resulting from high-frequency barrier discharge in gas

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V. A. Yamshchikov

On the possibility of generating volume dielectric barrier discharge in air at atmospheric pressure

Formation of a self-sustained volume discharge with intense ultraviolet irradiation of the cathode region

The Effect of Preliminary Laser Surface Treatment on the Mechanical Properties of a Solid-Phase Compound of an Iron-Nickel Alloy in Diffusion Welding

High-power electric-discharge CO2laser with easily ionizable substances added to the mixture

Electrohydrodynamic effect resulting from high-frequency barrier discharge in gas

Contact Info

Product

Resources

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High-power electric-discharge CO₂laser with easily ionizable substances added to the mixture