AI Article Synopsis
- Several linearized models have been developed for neuroreceptor mapping using dynamic nuclear imaging, based on the simplified reference tissue model (SRTM) to improve speed and reliability.
- This study compares different approaches, including MRTM2 and multilinear SRTM methods, focusing on how well they handle noise in image data.
- Results show that the multilinear SRTM methods, particularly the total least squares (TLS) version, produced higher quality images and better consistency with the SRTM compared to other models, despite varying susceptibility to noise.
Article Abstract
In recent years, several linearized model approaches for fast and reliable parametric neuroreceptor mapping based on dynamic nuclear imaging have been developed from the simplified reference tissue model (SRTM) equation. All the methods share the basic SRTM assumptions, but use different schemes to alleviate the effect of noise in dynamic-image voxels. Thus, this study aimed to compare those approaches in terms of their performance in parametric image generation. We used the basis function method and MRTM2 (multilinear reference tissue model with two parameters), which require a division process to obtain the distribution volume ratio (DVR). In addition, a linear model with the DVR as a model parameter (multilinear SRTM) was used in two forms: one based on linear least squares and the other based on extension of total least squares (TLS). Assessment using simulated and actual dynamic [(11)C]ABP688 positron emission tomography data revealed their equivalence with the SRTM, except for different noise susceptibilities. In the DVR image production, the two multilinear SRTM approaches achieved better image quality and regional compatibility with the SRTM than the others, with slightly better performance in the TLS-based method.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4671133 | PMC |
| http://dx.doi.org/10.1038/jcbfm.2015.190 | DOI Listing |
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