Tissue segmentation and classification of MRSI data using canonical correlation analysis

Laudadio, Teresa; Pels, Pieter; Lathauwer, Lieven De; Hecke, Paul Van; Huffel, Sabine Van

doi:10.1002/mrm.20710

Cited by 44 publications

(53 citation statements)

References 15 publications

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“…Canonical correlation analysis (CCA) is a multivariate technique often used in psychological, climate and ecological studies to quantify the associations between two separate data sets measured on the same experimental units (22)(23)(24)(25). In contrast to the aforementioned pairwise correlation analysis, CCA yielded a much stronger correlation of 0.73.…”

Section: Canonical Correlation Reveals a Close Link Between Biomass Amentioning

confidence: 99%

The metabolic signature related to high plant growth rate in Arabidopsis thaliana

Meyer¹,

Steinfath

Lisec

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

370

358

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The decline of available fossil fuel reserves has triggered worldwide efforts to develop alternative energy sources based on plant biomass. Detailed knowledge of the relations of metabolism and biomass accumulation can be expected to yield powerful novel tools to accelerate and enhance energy plant breeding programs. We used metabolic profiling in the model Arabidopsis to study the relation between biomass and metabolic composition using a recombinant inbred line (RIL) population. A highly significant canonical correlation (0.73) was observed, revealing a close link between biomass and a specific combination of metabolites. Dividing the entire data set into training and test sets resulted in a median correlation between predicted and true biomass of 0.58. The demonstrated high predictive power of metabolic composition for biomass features this composite measure as an excellent biomarker and opens new opportunities to enhance plant breeding specifically in the context of renewable resources.biomass ͉ canonical correlation ͉ metabolic profiling ͉ recombinant inbred line population ͉ biomarker

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Section: Canonical Correlation Reveals a Close Link Between Biomass Amentioning

confidence: 99%

The metabolic signature related to high plant growth rate in Arabidopsis thaliana

Meyer¹,

Steinfath

Lisec

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

370

358

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“…20 and 23, z score was employed for MRS based detection of glioma and CaP, respectively. Another statistical technique, canonical correlation analysis ͑CCA͒, 24 based on calculating the canonical coefficients to obtain correlated linear relationships between two multidimensional variables was shown to be useful in successfully classifying prostate MRSI datasets into four classes: Aggressive tumor, tumor, mixed tissue, and healthy tissue.…”

Section: Introductionmentioning

confidence: 99%

A hierarchical spectral clustering and nonlinear dimensionality reduction scheme for detection of prostate cancer from magnetic resonance spectroscopy (MRS)

2009

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Magnetic resonance spectroscopy ͑MRS͒ has been shown to have great clinical potential as a supplement to magnetic resonance imaging in the detection of prostate cancer ͑CaP͒. MRS provides functional information in the form of changes in the relative concentration of specific metabolites including choline, creatine, and citrate which can be used to identify potential areas of CaP. With a view to assisting radiologists in interpretation and analysis of MRS data, some researchers have begun to develop computer-aided detection ͑CAD͒ schemes for CaP identification from spectroscopy. Most of these schemes have been centered on identifying and integrating the area under metabolite peaks which is then used to compute relative metabolite ratios. However, manual identification of metabolite peaks on the MR spectra, and especially via CAD, is a challenging problem due to low signal-to-noise ratio, baseline irregularity, peak overlap, and peak distortion. In this article the authors present a novel CAD scheme that integrates nonlinear dimensionality reduction ͑NLDR͒ with an unsupervised hierarchical clustering algorithm to automatically identify suspicious regions on the prostate using MRS and hence avoids the need to explicitly identify metabolite peaks. The methodology comprises two stages. In stage 1, a hierarchical spectral clustering algorithm is used to distinguish between extracapsular and prostatic spectra in order to localize the region of interest ͑ROI͒ corresponding to the prostate. Once the prostate ROI is localized, in stage 2, a NLDR scheme, in conjunction with a replicated clustering algorithm, is used to automatically discriminate between three classes of spectra ͑normal appearing, suspicious appearing, and indeterminate͒. The methodology was quantitatively and qualitatively evaluated on a total of 18 1.5 T in vivo prostate T2-weighted ͑w͒ and MRS studies obtained from the multisite, multi-institutional American College of Radiology ͑ACRIN͒ trial. In the absence of the precise ground truth for CaP extent on the MR imaging for most of the ACRIN studies, probabilistic quantitative metrics were defined based on partial knowledge on the quadrant location and size of the tumor. The scheme, when evaluated against this partial ground truth, was found to have a CaP detection sensitivity of 89.33% and specificity of 79.79%. The results obtained from randomized threefold and fivefold cross validation suggest that the NLDR based clustering scheme has a higher CaP detection accuracy compared to such commonly used MRS analysis schemes as z score and PCA. In addition, the scheme was found to be robust to changes in system parameters. For 6 of the 18 studies an expert radiologist laboriously labeled each of the individual spectra according to a five point scale, with 1 / 2 representing spectra that the expert considered normal and 3 / 4 / 5 being spectra the expert deemed suspicious. When evaluated on these expert annotated datasets, the CAD system yielded an average sensitivity ͑cluster corresponding to suspicious spectra...

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“…Indeed, as described in the Introduction, MRSI provides biochemical information as well as spatial information about the sample under investigation and a natural assumption is that neighbour voxels contain similar tissue types. Previous studies carried out on other algorithms [41,42] already showed that the simultaneous exploitation of the two types of information significantly improves the performance of the considered methods. Hence, it is reasonable to expect similar improvements by introducing spatial information in the NMF-based algorithms as well.…”

Section: Discussionmentioning

confidence: 98%

NMF in MR Spectroscopy

Laudadio

Sava

et al. 2015

Signals and Communication Technology

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Nowadays, magnetic resonance spectroscopy (MRS) represents a powerful nuclear magnetic resonance (NMR) technique in oncology since it provides information on the biochemical profile of tissues, thereby allowing clinicians and radiologists to identify in a non-invasive way the different tissue types characterising the sample under investigation. The main purpose of the present chapter is to provide a review of the most recent and significant applications of non-negative matrix factorisation (NMF) to MRS data in the field of tissue typing methods for tumour diagnosis. Specifically, NMF-based methods for the recovery of constituent spectra in ex vivo and in vivo brain MRS data, for brain tissue pattern differentiation using magnetic resonance spectroscopic imaging (MRSI) data and for automatic detection and visualisation of prostate tumours, will be described. Furthermore, since several NMF implementations are available in the literature, a comparison in terms of pattern detection accuracy of some NMF algorithms will be reported and discussed, and the NMF performance for MRS data analysis will be compared with that of other blind source separation (BSS) techniques.

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Tissue segmentation and classification of MRSI data using canonical correlation analysis

Cited by 44 publications

References 15 publications

The metabolic signature related to high plant growth rate in Arabidopsis thaliana

The metabolic signature related to high plant growth rate in Arabidopsis thaliana

A hierarchical spectral clustering and nonlinear dimensionality reduction scheme for detection of prostate cancer from magnetic resonance spectroscopy (MRS)

NMF in MR Spectroscopy

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