Title :
Extended boundary shift integral
Author :
Lotjonen, Jyrki ; Ledig, Christian ; Koikkalainen, Juha ; Wolz, Robin ; Thurfjell, Lennart ; Soininen, Hilkka ; Ourselin, Sebastien ; Rueckert, Daniel
Author_Institution :
ICT for health, VTT Tech. Res. Centre of Finland, Tampere, Finland
fDate :
April 29 2014-May 2 2014
Abstract :
The boundary shift integral (BSI) is a widely used method for measuring atrophy rate, dynamic changes of the gray-matter and cerebrospinal fluid boundaries in magnetic resonance images. BSI is based on intensity differences on this boundary region. This work extends the method in two respects: 1) Instead of using only intensity information on the boundary region, a probabilistic approach is proposed in which also other characteristics of the boundary region can be used. 2) The use of the probabilistic model enables to measure changes between any structures or combination of structures in the image. The performance of the extended BSI is verified against standard BSI in the ADNI and AIBL cohorts. The area-under-the-curve is clearly above 90 % in both cohorts when comparing the classification between cognitively normal and Alzheimer´s disease groups. The accuracies of the extended BSI were higher than the standard BSI between these groups.
Keywords :
biomedical MRI; diseases; medical image processing; Alzheimers disease group; area-under-the-curve; atrophy rate; boundary region; cerebrospinal fluid boundary; extended BSI; extended boundary shift integral; gray-matter boundary; magnetic resonance images; probabilistic approach; Alzheimer´s disease; Atrophy; Hippocampus; Image segmentation; Integral equations; Standards; atrophy rate; boundary shift integral;
Conference_Titel :
Biomedical Imaging (ISBI), 2014 IEEE 11th International Symposium on
Conference_Location :
Beijing
DOI :
10.1109/ISBI.2014.6868005
