NDLI: Interleaved$ ^{31}$ P MRS/$ ^{1}$ H ASL for analysis of metabolic and functional heterogeneity along human lower leg muscles at 7T

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Interleaved$ ^{31}$ P MRS/$ ^{1}$ H ASL for analysis of metabolic and functional heterogeneity along human lower leg muscles at 7T

Content Provider	Scilit
Author	Niess, Fabian Schmid, Albrecht Ingo Bogner, Wolfgang Wolzt, Michael Carlier, Pierre Trattnig, Siegfried Moser, Ewald Meyerspeer, Martin
Copyright Year	2019
Description	Journal: Magnetic Resonance in Medicine Purpose MR offers the unique possibility to noninvasively investigate cellular energy metabolism via 31P MRS, while blood perfusion, which provides oxygen and substrates to the tissue, is accessible by arterial spin labeling (ASL) 1H MRI. Because metabolic and hemodynamic parameters are linked, it would be desirable to study them simultaneously. A 3D‐resolved method is presented that allows such measurements with high spatiotemporal resolution and has the potential to discern differences along an exercising muscle. Methods Multi‐voxel localized$ ^{31}$P MRS was temporally interleaved with multi‐slice pASL 1H MRI. Phosphorus spectra were collected from two adjacent positions in gastrocnemius medialis (GM) during rest, submaximal plantar flexion exercise and recovery, while perfusion and ‐weighted axial images were acquired at the same time. Seventeen healthy volunteers (9 f / 8 m) were studied at 7 T. Results An increase of postexercise perfusion and ‐weighted signal in GM positively correlated with end‐exercise PCr depletion and pH drop. At proximal positions functional and metabolic activity was higher than distally, that is, perfusion increase and peak ‐weighted signal, end‐exercise PCr depletion, end‐exercise pH, and PCr recovery time constant were significantly different. An NOE‐induced SNR increase of approximately 20 % (P < .001), at rest, was found in interleaved$ ^{31}$P spectra, when comparing to$ ^{31}$P‐only acquisitions. Conclusions A technique for fast, simultaneous imaging of muscle functional heterogeneity in ASL, and acquisition of time‐resolved$ ^{31}$P MRS data is presented. These single exercise recovery experiments can be used to investigate local variations during disease progression in patients suffering from vascular or muscular diseases.
Related Links	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7065182/pdf
Ending Page	1919
Page Count	11
Starting Page	1909
e-ISSN	15222594
DOI	10.1002/mrm.28088
Journal	Magnetic Resonance in Medicine
Issue Number	6
Volume Number	83
Language	English
Publisher	Wiley-Blackwell
Publisher Date	2019-12-17
Access Restriction	Open
Subject Keyword	Journal: Magnetic Resonance in Medicine Radiology, Nuclear Medicine and Imaging 31p Mrs Energy Metabolism Interleaved Acquisition Muscle Exercise
Content Type	Text
Resource Type	Article

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