Detail publikace

Monitoring of Brain Tumor Evolution Using Impedance Tomography

Originální název

Monitoring of Brain Tumor Evolution Using Impedance Tomography

Anglický název

Monitoring of Brain Tumor Evolution Using Impedance Tomography

Jazyk

en

Originální abstrakt

The paper proposes new technique for a non-invasive monitoring of local changes of a biological tissue based on impedance tomography. The injected current causes except the electric field inside the given object also the magnetic field. The new algorithm for an image conductivity reconstruction, which uses the internal current information with respect to corresponding boundary conditions and one component of an external magnetic field, was developed. The internal conductivity distribution obtained using the proposed method is compared with those using conventional methods based on Electrical Impedance Tomography.

Anglický abstrakt

The paper proposes new technique for a non-invasive monitoring of local changes of a biological tissue based on impedance tomography. The injected current causes except the electric field inside the given object also the magnetic field. The new algorithm for an image conductivity reconstruction, which uses the internal current information with respect to corresponding boundary conditions and one component of an external magnetic field, was developed. The internal conductivity distribution obtained using the proposed method is compared with those using conventional methods based on Electrical Impedance Tomography.

BibTex


@article{BUT76005,
  author="Ksenia {Kořínková} and Jarmila {Dědková}",
  title="Monitoring of Brain Tumor Evolution Using Impedance Tomography",
  annote="The paper proposes new technique for a non-invasive monitoring of local changes of a biological tissue based on impedance tomography. The injected current causes except the electric field inside the given object also the magnetic field. The new algorithm for an image conductivity reconstruction, which uses the internal current information with respect to corresponding boundary conditions and one component of an external magnetic field, was developed. The internal conductivity distribution obtained using the proposed method is compared with those using conventional methods based on Electrical Impedance Tomography.",
  address="Instytut Elektrotechniki",
  chapter="76005",
  institution="Instytut Elektrotechniki",
  number="252",
  volume="2011",
  year="2011",
  month="december",
  pages="87--92",
  publisher="Instytut Elektrotechniki",
  type="journal article - other"
}