1. High-resolution metabolic imaging of high-grade gliomas using 7T-CRT-FID-MRSI
- Author
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Hangel, Gilbert, Cadrien, Cornelius, Lazen, Philipp, Furtner, Julia, Lipka, Alexandra, Hečková, Eva, Hingerl, Lukas, Motyka, Stanislav, Gruber, Stephan, Strasser, Bernhard, Kiesel, Barbara, Mischkulnig, Mario, Preusser, Matthias, Roetzer, Thomas, Wöhrer, Adelheid, Widhalm, Georg, Rössler, Karl, Trattnig, Siegfried, and Bogner, Wolfgang
- Subjects
Male ,PT, peritumoral ,Cys, cysteine ,mIns, (myo-)inositol ,ROI, region of interest ,Metabolic imaging ,NEC, necrotic ,FOV, field of view ,WET, water suppression enhanced through T1 effects ,lcsh:RC346-429 ,Magnetic resonance spectroscopic imaging ,T1w, T1-weighted ,High-grade glioma ,7 Tesla ,GSH, glutathione ,MP2RAGE, magnetization-prepared 2 rapid acquisition gradient echoes ,SVS, magnetic resonance single-voxel spectroscopy ,Tau, taurine ,TE, echo time ,Gly, glycine ,Brain Neoplasms ,Concentric circle trajectories ,SAR, specific absorption rate ,TME, tumor microenvironment ,Brain ,Regular Article ,HGG, high-grade glioma ,MM, macromolecules ,Glioma ,SNR, signal-to-noise ratio ,Middle Aged ,Magnetic Resonance Imaging ,TR, repetition time ,FWHM, full width at half maximum ,Gln, glutamine ,lcsh:R858-859.7 ,Female ,iMUSICAL, interleaved multichannel spectroscopic data combined by matching image calibration data ,UHF, ultra-high-field ,NCE, non-contrast-enhanced ,Adult ,Ser, serine ,Glycine ,IDH, isocitrate dehydrogenase ,lcsh:Computer applications to medicine. Medical informatics ,PET, positron emission tomography ,T2w, T2-weighted ,NAA, N-acetyl-aspartate ,WT, wildtype ,Humans ,tCho, choline-containing compounds ,CRLB, Cramér–Rao lower bound ,2HG, 2-hydroxyglutarate ,NAWM, normal-appearing white matter ,WM, white matter ,VOI, volume of interest ,lcsh:Neurology. Diseases of the nervous system ,ComputingMethodologies_COMPUTERGRAPHICS ,Aged ,CE, contrast-enhanced ,Glu, glutamate ,NAAG, N-acetyl-aspartyl glutamate ,Reproducibility of Results ,FLAIR, fluid-attenuated inversion recovery ,MRSI, magnetic resonance spectroscopic imaging ,Ctn, cystathionine ,CRT, concentric ring trajectories ,tCr, total creatine, creatine + phosphocreatine ,GM, gray matter ,FID, free induction decay ,GABA, γ-aminobutyric acid - Abstract
Graphical abstract, Highlights • We demonstrated reliable and fast whole-brain 3D-MRSI of high-grade gliomas at 7T. • tCho, Gln, and Gly were increased in contrast-enhancing tumor tissue. • Results corresponded well to clinical data, but show more differentiated images. • We found cases of heterogeneity in metabolic images not visible in clinical imaging., Objectives Successful neurosurgical intervention in gliomas depends on the precision of the preoperative definition of the tumor and its margins since a safe maximum resection translates into a better patient outcome. Metabolic high-resolution imaging might result in improved presurgical tumor characterization, and thus optimized glioma resection. To this end, we validated the performance of a fast high-resolution whole-brain 3D-magnetic resonance spectroscopic imaging (MRSI) method at 7T in a patient cohort of 23 high-grade gliomas (HGG). Materials and methods We preoperatively measured 23 patients with histologically verified HGGs (17 male, 8 female, age 53 ± 15) with an MRSI sequence based on concentric ring trajectories with a 64 × 64 × 39 measurement matrix, and a 3.4 × 3.4 × 3.4 mm3 nominal voxel volume in 15 min. Quantification used a basis-set of 17 components including N-acetyl-aspartate (NAA), total choline (tCho), total creatine (tCr), glutamate (Glu), glutamine (Gln), glycine (Gly) and 2-hydroxyglutarate (2HG). The resultant metabolic images were evaluated for their reliability as well as their quality and compared to spatially segmented tumor regions-of-interest (necrosis, contrast-enhanced, non-contrast enhanced + edema, peritumoral) based on clinical data and also compared to histopathology (e.g., grade, IDH-status). Results Eighteen of the patient measurements were considered usable. In these patients, ten metabolites were quantified with acceptable quality. Gln, Gly, and tCho were increased and NAA and tCr decreased in nearly all tumor regions, with other metabolites such as serine, showing mixed trends. Overall, there was a reliable characterization of metabolic tumor areas. We also found heterogeneity in the metabolic images often continued into the peritumoral region. While 2HG could not be satisfyingly quantified, we found an increase of Glu in the contrast-enhancing region of IDH-wildtype HGGs and a decrease of Glu in IDH1-mutant HGGs. Conclusions We successfully demonstrated high-resolution 7T 3D-MRSI in HGG patients, showing metabolic differences between tumor regions and peritumoral tissue for multiple metabolites. Increases of tCho, Gln (related to tumor metabolism), Gly (related to tumor proliferation), as well as decreases in NAA, tCr, and others, corresponded very well to clinical tumor segmentation, but were more heterogeneous and often extended into the peritumoral region.
- Published
- 2020