CEST MRI provides amide/amine surrogate biomarkers for treatment-naïve glioma sub-typing
Laura Mancini, Stefano Casagranda, Guillaume Gautier, Philippe Peter, Bruno Lopez, Lewis Thorne, Andrew W. McEvoy, Anna Miserocchi, George Samandouras, Neil Kitchen, Sebastian Brandner, Enrico De Vita, Francisco Torrealdea, Marilena Rega, Benjamin Schmitt, Patrick Liebig, Eser Sanverdi, Xavier Golay, Sotirios Bisdas
Abstract
Abstract Purpose Accurate glioma classification affects patient management and is challenging on non- or low-enhancing gliomas. This study investigated the clinical value of different chemical exchange saturation transfer (CEST) metrics for glioma classification and assessed the diagnostic effect of the presence of abundant fluid in glioma subpopulations. Methods Forty-five treatment-naïve glioma patients with known isocitrate dehydrogenase (IDH) mutation and 1p/19q codeletion status received CEST MRI ( B 1rms = 2μT, T sat = 3.5 s) at 3 T. Magnetization transfer ratio asymmetry and CEST metrics (amides: offset range 3–4 ppm, amines: 1.5–2.5 ppm, amide/amine ratio) were calculated with two models: ‘asymmetry-based’ (AB) and ‘fluid-suppressed’ (FS). The presence of T2/FLAIR mismatch was noted. Results IDH-wild type had higher amide/amine ratio than IDH-mutant_1p/19q codel ( p < 0.022). Amide/amine ratio and amine levels differentiated IDH-wild type from IDH-mutant ( p < 0.0045) and from IDH-mutant_1p/19q ret ( p < 0.021). IDH-mutant_1p/19q ret had higher amides and amines than IDH-mutant_1p/19q codel ( p < 0.035). IDH-mutant_1p/19q ret with AB/FS mismatch had higher amines than IDH-mutant_1p/19q ret without AB/FS mismatch ( < 0.016). In IDH-mutant_1p/19q ret , the presence of AB/FS mismatch was closely related to the presence of T2/FLAIR mismatch ( p = 0.014). Conclusions CEST-derived biomarkers for amides, amines, and their ratio can help with histomolecular staging in gliomas without intense contrast enhancement. T2/FLAIR mismatch is reflected in the presence of AB/FS CEST mismatch. The AB/FS CEST mismatch identifies glioma subgroups that may have prognostic and clinical relevance.