Author(s)

F. Zhu, D. R. Gonzalez, T. Carpenter, M. Atkinson, J. Wardlaw

ISBN

2168-2194

Publication year

2013

Periodical

Ieee Journal of Biomedical and Health Informatics

Periodical Number

5

Volume

17

Pages

950-958

Author Address

Zhu, F Univ Edinburgh, Sch Informat, Data Intens Res Grp, Edinburgh EH8 9AB, Midlothian, Scotland Univ Edinburgh, Sch Informat, Data Intens Res Grp, Edinburgh EH8 9AB, Midlothian, Scotland Univ Edinburgh, Div Clin Neurosci, Brain Res Imaging Ctr, Edinburgh EH4 2XU, Midlothian, Scotland

Full version

Computer tomography (CT) perfusion imaging is widely used to calculate brain hemodynamic quantities such as cerebral blood flow, cerebral blood volume, and mean transit time that aid the diagnosis of acute stroke. Since perfusion source images contain more information than hemodynamic maps, good utilization of the source images can lead to better understanding than the hemodynamic maps alone. Correlation-coefficient tests are used in our approach to measure the similarity between healthy tissue time-concentration curves and unknown curves. This information is then used to differentiate penumbra and dead tissues from healthy tissues. The goal of the segmentation is to fully utilize information in the perfusion source images. Our method directly identifies suspected abnormal areas from perfusion source images and then delivers a suggested segmentation of healthy, penumbra, and dead tissue. This approach is designed to handle CT perfusion images, but it can also be used to detect lesion areas in magnetic resonance perfusion images.