MACÍČEK, Ondřej, Radovan JIŘÍK, Jan MIKULKA, Michal BARTOŠ, Andrea ŠPRLÁKOVÁ-PUKOVÁ, Miloš KEŘKOVSKÝ, Zenon STARČUK, Karel BARTUŠEK and Torfinn TAXT. Time-Efficient Perfusion Imaging Using DCE- and DSC-MRI. Measurement Science Review. WARSAW: UM SAV, 2018, vol. 18, No 6, p. 262-271. ISSN 1335-8871. Available from: https://dx.doi.org/10.1515/msr-2018-0036. |
Other formats:
BibTeX
LaTeX
RIS
@article{1484197, author = {Macíček, Ondřej and Jiřík, Radovan and Mikulka, Jan and Bartoš, Michal and ŠprlákováandPuková, Andrea and Keřkovský, Miloš and Starčuk, Zenon and Bartušek, Karel and Taxt, Torfinn}, article_location = {WARSAW}, article_number = {6}, doi = {http://dx.doi.org/10.1515/msr-2018-0036}, keywords = {Perfusion imaging; contrast agents; brain tumors; DCE-MRI; DSC-MRI}, language = {eng}, issn = {1335-8871}, journal = {Measurement Science Review}, title = {Time-Efficient Perfusion Imaging Using DCE- and DSC-MRI}, volume = {18}, year = {2018} }
TY - JOUR ID - 1484197 AU - Macíček, Ondřej - Jiřík, Radovan - Mikulka, Jan - Bartoš, Michal - Šprláková-Puková, Andrea - Keřkovský, Miloš - Starčuk, Zenon - Bartušek, Karel - Taxt, Torfinn PY - 2018 TI - Time-Efficient Perfusion Imaging Using DCE- and DSC-MRI JF - Measurement Science Review VL - 18 IS - 6 SP - 262-271 EP - 262-271 PB - UM SAV SN - 13358871 KW - Perfusion imaging KW - contrast agents KW - brain tumors KW - DCE-MRI KW - DSC-MRI N2 - Dynamic contrast enhanced MRI (DCE-MRI) and dynamic susceptibility contrast MRI (DSC-MRI) are perfusion imaging techniques used mainly for clinical and preclinical measurement of vessel permeability and capillary blood flow, respectively. It is advantageous to apply both methods to exploit their complementary information about the perfusion status of the tissue. We propose a novel acquisition method that combines advantages of the current simultaneous and sequential acquisition. The proposed method consists of a DCE-MRI acquisition interrupted by DSC-MRI acquisition. A new method for processing of the DCE-MRI data is proposed which takes the interleaved acquisition into account. Analysis of both the DCE- and DSC-MRI data is reformulated so that they are approximated by the same pharmacokinetic model (constrained distributed capillary adiabatic tissue homogeneity model). This provides a straightforward evaluation of the methodology as some of the estimated DCE- and DSC-MRI perfusion parameters should be identical. Evaluation on synthetic data showed an acceptable precision and no apparent bias introduced by the interleaved character of the DCE-MRI acquisition. Intravascular perfusion parameters obtained from clinical glioma data showed a fairly high correlation of blood flow estimates from DCE- and DSC-MRI, however, an unknown scaling factor was still present mainly because of the tissue-specific r(2)* relaxivity. The results show validity of the proposed acquisition method. They also indicate that simultaneous processing of both DCE- and DSC-MRI data with joint estimation of some perfusion parameters (included in both DCE- and DSC-MRI) might be possible to increase the reliability of the DCE- and DSC-MRI methods alone. ER -
MACÍČEK, Ondřej, Radovan JIŘÍK, Jan MIKULKA, Michal BARTOŠ, Andrea ŠPRLÁKOVÁ-PUKOVÁ, Miloš KEŘKOVSKÝ, Zenon STARČUK, Karel BARTUŠEK and Torfinn TAXT. Time-Efficient Perfusion Imaging Using DCE- and DSC-MRI. \textit{Measurement Science Review}. WARSAW: UM SAV, 2018, vol.~18, No~6, p.~262-271. ISSN~1335-8871. Available from: https://dx.doi.org/10.1515/msr-2018-0036.
|