[Suggestion of new slice thickness mensuration using partial volume effect in magnetic resonance imaging].

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Abstract

The wedge and the slab methods are standard procedures as slice thickness mensuration of the MRI needs an expensive and exclusive phantom, and they are poor in versatility. We suggest a new method, that we call "differential edge response function method". This is a modified version of the partial method which Higashida and others proposed. In this method, we use an original phantom which has an acrylic disk on the bottom, and take an image of it while moving a slice position so it includes the disk part. We established the region of interest on an image set up and got the edge response function (ERF) from the mean signal intensity and relations of the Z position of the image. In this method, the effective slice thickness is the half width of the slice profile, which is differentiated ERF. This method can be measured even if the linearity of the signal intensity is poor compared to the partial method. It is possible to correct the alignment. In this method the measurement accuracy was approximately equal to the wedge method. This method is minimally influenced by signal-to-noise ratio in comparison with the wedge method. Furthermore, versatility is high, because it is simple and relatively easy to use.

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APA

Kimura, T., Higashida, M., Takatsu, Y., & Ogura, A. (2011). [Suggestion of new slice thickness mensuration using partial volume effect in magnetic resonance imaging]. Nihon Hoshasen Gijutsu Gakkai Zasshi, 67(12), 1523–1532. https://doi.org/10.6009/jjrt.67.1523

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