Publication detail
Quantitative Ultrasound Perfusion Analysis In Vitro
MÉZL, M. JIŘÍK, R. HARABIŠ, V. KOLÁŘ, R.
Original Title
Quantitative Ultrasound Perfusion Analysis In Vitro
English Title
Quantitative Ultrasound Perfusion Analysis In Vitro
Type
conference paper
Language
en
Original Abstract
This study describes quantitative perfusion analysis by ultrasound. The main task of this study is to apply a general perfusion model for intravascular contrast agents to ultrasound perfusion analysis. For this investigation a phantom model using a dialyser tubing as the model of the tissue was constructed. Two quantitative parameters (mean transit time and fractional blood volume) are estimated and compared with reference values.
English abstract
This study describes quantitative perfusion analysis by ultrasound. The main task of this study is to apply a general perfusion model for intravascular contrast agents to ultrasound perfusion analysis. For this investigation a phantom model using a dialyser tubing as the model of the tissue was constructed. Two quantitative parameters (mean transit time and fractional blood volume) are estimated and compared with reference values.
Keywords
Perfusion analysis, ultrasound, phantom measurement, SonoVue
RIV year
2010
Released
27.06.2010
Publisher
Brno University of Technology
ISBN
978-80-214-4106-4
Book
Proceedings of Biosignal 2010: Analysis of Biomedical Signals and Images
Edition number
20
Pages from
279
Pages to
283
Pages count
5
Documents
BibTex
@inproceedings{BUT35997,
author="Martin {Mézl} and Radovan {Jiřík} and Vratislav {Harabiš} and Radim {Kolář}",
title="Quantitative Ultrasound Perfusion Analysis In Vitro",
annote="This study describes quantitative perfusion analysis by ultrasound. The main task of this study is to apply a general perfusion model for intravascular contrast agents to ultrasound perfusion analysis. For this investigation a phantom model using a dialyser tubing as the model of the tissue was constructed. Two quantitative parameters (mean transit time and fractional blood volume) are estimated and compared with reference values.",
address="Brno University of Technology",
booktitle="Proceedings of Biosignal 2010: Analysis of Biomedical Signals and Images",
chapter="35997",
howpublished="online",
institution="Brno University of Technology",
journal="Analysis of Biomedical Signals and Images",
year="2010",
month="june",
pages="279--283",
publisher="Brno University of Technology",
type="conference paper"
}