Andreas Korzowski1, Nina Weinfurtner2, Sebastian Mueller1, Johannes Breitling1,3,4, Steffen Goerke1, Heinz-Peter Schlemmer2, Mark E Ladd1,4,5, Daniel Paech2, Peter Bachert1,4. 1. Division of Medical Physics in Radiology, German Cancer Research Center (DKFZ), Heidelberg, Germany. 2. Division of Radiology, German Cancer Research Center (DKFZ), Heidelberg, Germany. 3. Max-Planck-Institute for Nuclear Physics, Heidelberg, Germany. 4. Faculty of Physics and Astronomy, University of Heidelberg, Heidelberg, Germany. 5. Faculty of Medicine, University of Heidelberg, Heidelberg, Germany.
Abstract
PURPOSE: In vivo 31 P MRSI enables noninvasive mapping of absolute pH values via the pH-dependent chemical shifts of inorganic phosphates (Pi ). A particular challenge is the quantification of extracellular Pi with low SNR in vivo. The purpose of this study was to demonstrate feasibility of assessing both intra- and extracellular pH across the whole human brain via volumetric 31 P MRSI at 7T. METHODS: 3D 31 P MRSI data sets of the brain were acquired from three healthy volunteers and three glioma patients. Low-rank denoising was applied to enhance the SNR of 31 P MRSI data sets that enables detection of extracellular Pi at high spatial resolutions. A robust two-compartment quantification model for intra- and extracellular Pi signals was implemented. RESULTS: In particular low-rank denoising enabled volumetric mapping of intra- and extracellular pH in the human brain with voxel sizes of 5.7 mL. The average intra- and extracellular pH measured in white matter of healthy volunteers were 7.00 ± 0.00 and 7.33 ± 0.03, respectively. In tumor tissue of glioma patients, both the average intra- and extracellular pH increased to 7.12 ± 0.01 and 7.44 ± 0.01, respectively, compared to normal appearing tissue. CONCLUSION: Mapping of pH values via 31 P MRSI at 7T using the proposed two-compartment quantification model improves reliability of pH values obtained in vivo, and has the potential to provide novel insights into the pH heterogeneity of various tissues.
PURPOSE: In vivo 31 P MRSI enables noninvasive mapping of absolute pH values via the pH-dependent chemical shifts of inorganic phosphates (Pi ). A particular challenge is the quantification of extracellular Pi with low SNR in vivo. The purpose of this study was to demonstrate feasibility of assessing both intra- and extracellular pH across the whole human brain via volumetric 31 P MRSI at 7T. METHODS: 3D 31 P MRSI data sets of the brain were acquired from three healthy volunteers and three gliomapatients. Low-rank denoising was applied to enhance the SNR of 31 P MRSI data sets that enables detection of extracellular Pi at high spatial resolutions. A robust two-compartment quantification model for intra- and extracellular Pi signals was implemented. RESULTS: In particular low-rank denoising enabled volumetric mapping of intra- and extracellular pH in the human brain with voxel sizes of 5.7 mL. The average intra- and extracellular pH measured in white matter of healthy volunteers were 7.00 ± 0.00 and 7.33 ± 0.03, respectively. In tumor tissue of gliomapatients, both the average intra- and extracellular pH increased to 7.12 ± 0.01 and 7.44 ± 0.01, respectively, compared to normal appearing tissue. CONCLUSION: Mapping of pH values via 31 P MRSI at 7T using the proposed two-compartment quantification model improves reliability of pH values obtained in vivo, and has the potential to provide novel insights into the pH heterogeneity of various tissues.
Authors: Andreas Korzowski; Nina Weckesser; Vanessa L Franke; Johannes Breitling; Steffen Goerke; Heinz-Peter Schlemmer; Mark E Ladd; Peter Bachert; Daniel Paech Journal: Front Neurol Date: 2021-12-23 Impact factor: 4.003
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