Diagnostic potential of short echo time MR spectroscopy of gliomas with single-voxel and point-resolved spatially localised proton spectroscopy of brain

Kaminogo, Makio; Ishimaru, Hideki; Morikawa, Minoru; Ochi, Makoto; Ushijima, Ryujiro; Tani, Masayoshi; Matsuo, Yosuke; Kawakubo, Junichi; Shibata, Shôbu

doi:10.1007/s002340000473

Cited by 84 publications

(56 citation statements)

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“…Consequently, reliance upon metabolite concentration ratios becomes particularly precarious. For example, in addition to NAA at ∼2.05 ppm, metabolites Glu and Gln within 2.1-2.5 ppm may contribute to the spectral area around 2.0 ppm at short TEs [25]. It thus becomes more difficult to assess NAA levels at short TEs due to heavily overlapping resonances that cannot be reliably identified using the FFT followed by fitting.…”

Section: Ensuing Diagnostic Dilemmasmentioning

confidence: 99%

Iterative averaging of spectra as a powerful way of suppressing spurious resonances in signal processing

Belkić

2016

J Math Chem

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The fast Padé transform (FPT) was applied to magnetic resonance spectroscopic (MRS) time signals encoded in vivo on a 1.5 T scanner from the parietal-temporal brain region of a pediatric patient who had suffered cerebral asphyxia. An iterative averaging procedure was implemented to the 9th iteration, whereby spurious structures on the total shape spectra were effectively suppressed. The parametric and non-parametric FPT (±) were verified to reconstruct equivalent total shape spectra. Via the parametric FPT, the spectral region of interest was chosen to bypass the giant water resonance, automatically generating spectral envelopes without the need for windowing. The dense component spectra were reliably reconstructed by the FPT (+) , in the "usual" mode (mixture of absorption and dispersion components) and "ersatz" mode (reconstructed phases set to zero). Via the latter, interference effects were well-visualized for closely-overlapping and hidden resonances. The most stringent test was performed for the complex frequencies and associated complex amplitudes reconstructed by the FPT (+) . Exceedingly small variances were obtained for all four Padé-reconstructed parameters per genuine resonance, once convergence was achieved at the 7th to 9th iterated averages. This now fully-validated methodology can generate denoised spectra and accurate spectral parameters for in vivo MRS data encoded within neurodiagnostics. Such a multi-faceted Padé-based strategy for processing the dense spectra of the brain could vitally improve pediatric neurodiagnostics. A wider range of clinical applications becomes within reach, including areas of cancer diagnostics where the added value of in vivo MRS is urgently needed. The broad theoretical underpinnings of incorporating quantum mechanics into signal processing provide the basis for these innovative advances.

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Section: Ensuing Diagnostic Dilemmasmentioning

confidence: 99%

Iterative averaging of spectra as a powerful way of suppressing spurious resonances in signal processing

Belkić

2016

J Math Chem

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“…Furthermore, functional DCE-MRI images have been integrated in radiotherapy treatment planning in combination with morphological CT images [194]. H-magnetic resonance spectroscopy 1 H-magnetic resonance spectroscopy can provide useful metabolic information for brain tumour diagnosis and glioma grading [195,196]. Two metabolites, lipids and lactates, both of which are present on short-and long-echo time (TE) sequences, have been studied as hypoxia markers.…”

Section: Diffusion-weighted Mrimentioning

confidence: 99%

“…The relationship between lipids and glioma grade is well established [196,200]. The significance of lactates, which are the end product of anaerobic metabolism, in grading is more controversial [195,[200][201][202][203]. Either lipid or lactate signals have been identified in hypoxic areas and have been correlated with the rCBV in malignant gliomas [204].…”

Section: Diffusion-weighted Mrimentioning

confidence: 99%

Imaging hypoxia in gliomas

Mendichovszky¹,

Jackson²

2011

BJR

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“…Apart from the standard MRI imaging techniques, novel molecular imaging techniques-such as arterial spin labeling, perfusion MRI (62), 1 H-magnetic resonance spectroscopy (63), and blood oxygenation level-dependent imaging (64)-have recently been shown to provide quantitative measurements of brain tumor perfusion. Single-photon emission computed tomography and positron emission tomography imaging have been recently applied in the clinical setting and may be sensitive quantitative techniques to objectively assess the efficacy of antiangiogenic therapy in MGs, providing some useful information (65).…”

Section: Radiological Functional Techniquesmentioning

confidence: 99%

Molecularly Targeted Therapies for Malignant Gliomas

Argyriou,

Kalofonos

2009

Mol Med

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This review critically evaluates current knowledge of molecularly targeted therapies of malignant gliomas. Various molecularly targeted single-agent therapies, including targeted therapies of growth and survival, have been evaluated in clinical trials but have failed to demonstrate a significant survival benefit compared with standard treatment regimens. The efficacy of multitargeted kinase inhibitors or combinations of single-targeted kinase inhibitors is a promising strategy, but requires additional clinical evaluation before definitive conclusions can be made. Important areas for further research include the assessment of serum or tissue biomarkers, the elucidation of prognostic molecular markers, and the determination of whether the mechanism of action of a drug is appropriate to the genetic alterations observed within individual tumors.

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Diagnostic potential of short echo time MR spectroscopy of gliomas with single-voxel and point-resolved spatially localised proton spectroscopy of brain

Cited by 84 publications

References 0 publications

Iterative averaging of spectra as a powerful way of suppressing spurious resonances in signal processing

Iterative averaging of spectra as a powerful way of suppressing spurious resonances in signal processing

Imaging hypoxia in gliomas

Molecularly Targeted Therapies for Malignant Gliomas

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