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8 results on '"Alfredo L Lopez Kolkovsky"'

3. Quantitative Skeletal Muscle Imaging Using <scp>3D MR</scp> Fingerprinting With Water and Fat Separation

Author

Harmen Reyngoudt, Ericky C. A. Araujo, Alfredo L Lopez Kolkovsky, and Benjamin Marty

Subjects
Phantoms, Imaging, business.industry, Separation (statistics), Reproducibility of Results, Water, Repeated measures design, Skeletal muscle, Magnetic Resonance Imaging, Imaging phantom, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Undersampling, Image Processing, Computer-Assisted, medicine, Humans, Radiology, Nuclear Medicine and imaging, In patient, Prospective Studies, Analysis of variance, Muscle, Skeletal, Nuclear medicine, business, Fat fraction
Abstract

BACKGROUND Quantitative muscle MRI is a robust tool to monitor intramuscular fatty replacement and disease activity in patients with neuromuscular disorders (NMDs). PURPOSE To implement a 3D sequence for quantifying simultaneously fat fraction (FF) and water T1 (T1,H2O ) in the skeletal muscle, evaluate regular undersampling in the partition-encoding direction, and compare it to a recently proposed 2D MR fingerprinting sequence with water and fat separation (MRF T1 -FF). STUDY TYPE Prospective. PHANTOM/SUBJECTS Seventeen-vial phantom at different FF and T1,H2O , 11 healthy volunteers, and 6 subjects with different NMDs. FIELD STRENGTH/SEQUENCE 3T/3D MRF T1 -FF, 2D MRF T1 -FF, STEAM MRS ASSESSMENT: FF and T1,H2O measured with the 2D and 3D sequences were compared in the phantom and in vivo at different undersampling factors (US). Data were acquired in healthy subjects before and after plantar dorsiflexions and at rest in patients. STATISTICAL TESTS Linear correlations, Bland-Altman analysis, two-way repeated measures analysis of variance (ANOVA), Student's t-test. RESULTS Up to a US factor of 3, the undersampled acquisitions were in good agreement with the fully sampled sequence (R2 ≥ 0.98, T1,H2O bias ≤10 msec, FF bias ≤4 × 10-4 ) both in phantom and in vivo. The 2D and 3D MRF T1 -FF sequences provided comparable T1,H2O and FF values (R2 ≥ 0.95, absolute T1,H2O bias ≤35 msec, and absolute FF bias ≤0.003). The plantar dorsiflexion induced a significant increase of T1,H2O in the tibialis anterior and extensor digitorum (relative increase of +10.8 ± 1.7% and + 7.7 ± 1.4%, respectively, P

Published
2020
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4. Interleaved and simultaneous multi-nuclear magnetic resonance in vivo. Review of principles, applications and potential

Author

Alfredo L. Lopez Kolkovsky, Pierre G. Carlier, Benjamin Marty, and Martin Meyerspeer

Subjects
Motion, Magnetic Resonance Spectroscopy, Radio Waves, Molecular Medicine, Brain, Radiology, Nuclear Medicine and imaging, Magnetic Resonance Imaging, Spectroscopy
Abstract

Magnetic resonance signals from different nuclei can be excited or received at the same time,rendering simultaneous or rapidly interleaved multi-nuclear acquisitions feasible. The advan-tages are a reduction of total scan time compared to sequential multi-nuclear acquisitions or that additional information from heteronuclear data is obtained at thesame time and anatomical position. Information content can be qualitatively increased by delivering a more comprehensive MR-based picture of a transient state (such as an exercise bout). Also, combiningnon-proton MR acquisitions with

Published
2022

5. Motion-corrected

Author

Tobias, Wilferth, Max, Müller, Lena V, Gast, Laurent, Ruck, Martin, Meyerspeer, Alfredo L, Lopez Kolkovsky, Michael, Uder, Arnd, Dörfler, and Armin M, Nagel

Subjects
Motion, Imaging, Three-Dimensional, Sodium, Image Processing, Computer-Assisted, Brain, Humans, Protons, Magnetic Resonance Imaging, Retrospective Studies
Abstract

To evaluate the feasibility of motion correction for sodium (A 3D radial density-adapted sequence for interleavedInterleaved acquisition of two nuclei did not show any relevant influence on image quality (SNR of 13.0 for interleaved versus 13.2 for standardThe feasibility of interleaved acquired

Published
2022

6. Free intramuscular Mg

Author

Harmen, Reyngoudt, Alfredo L, Lopez Kolkovsky, and Pierre G, Carlier

Subjects
Adult, Male, Adolescent, Proton Magnetic Resonance Spectroscopy, Reproducibility of Results, Phosphorus, Hydrogen-Ion Concentration, Data Accuracy, Muscular Dystrophy, Duchenne, Young Adult, Case-Control Studies, Humans, Magnesium, Child, Muscle, Skeletal
Abstract

Early studies have demonstrated that (total) magnesium was decreased in skeletal muscle of Duchenne muscular dystrophy (DMD) patients. Free intramuscular Mg

Published
2018

7. Free intramuscular Mg2+concentration calculated using both31P and1H NMRS‐based pH in the skeletal muscle of Duchenne muscular dystrophy patients

Author

Alfredo L Lopez Kolkovsky, Harmen Reyngoudt, and Pierre G. Carlier

Subjects
medicine.medical_specialty, Magnesium, Duchenne muscular dystrophy, Intracellular pH, Significant difference, chemistry.chemical_element, Skeletal muscle, Carnosine, medicine.disease, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine.anatomical_structure, Endocrinology, chemistry, Interstitial space, Internal medicine, Phosphodiester bond, medicine, Molecular Medicine, Radiology, Nuclear Medicine and imaging, 030217 neurology & neurosurgery, Spectroscopy
Abstract

Early studies have demonstrated that (total) magnesium was decreased in skeletal muscle of Duchenne muscular dystrophy (DMD) patients. Free intramuscular Mg2+ can be derived from 31 P NMRS measurements. The value of free intramuscular magnesium concentration ([Mg2+ ]) is highly dependent on precise knowledge of intracellular pH, which is abnormally alkaline in dystrophic muscle, possibly due to an expanded interstitial space, potentially causing an underestimation of [Mg2+ ]. We have recently shown that intracellular pH can be derived using 1 H NMRS of carnosine. Our aim was to determine whether 31 P NMRS-based [Mg2+ ] is, in fact, abnormally low in DMD patients, taking advantage of the 1 H NMRS-based pH. A comparative analysis was, therefore, made between [Mg2+ ] values calculated with both 1 H and 31 P NMRS-based approaches to determine pH in 25 DMD patients, on a 3-T clinical NMR scanner. [Mg2+ ] was also assessed with 31 P NMRS only in (forearm or leg) skeletal muscle of 60 DMD patients and 63 age-matched controls. Additionally, phosphodiester levels as well as quantitative NMRI indices including water T2 , fat fraction, contractile cross-sectional area and one-year changes were evaluated. The main finding was that the significant difference in [Mg2+ ] between DMD patients and controls was preserved even when the intracellular pH determined with 1 H NMRS was similar in both groups. Consequently, we observed that [Mg2+ ] is significantly lower in DMD patients compared with controls in the larger database where only 31 P NMRS data were obtained. Significant yet weak correlations existed between [Mg2+ ] and PDE, water T2 and fat fraction. We concluded that low [Mg2+ ] is an actual finding in DMD, whether intracellular pH is normal or alkaline, and that it is a likely consequence of membrane leakiness. The response of Mg2+ to therapeutic treatment remains to be investigated in neuromuscular disorders. Free [Mg2+ ] determination with 31 P NMRS is highly dependent on a precise knowledge of intracellular pH. The pH of Duchenne muscular dystrophy (DMD) patients, as determined by 31 P NMRS, is abnormally alkaline. We have recently shown that intracellular pH could be determined using 1 H NMRS of carnosine, and that intracellular pH was alkaline in a proportion of, but not all, DMD patients with a 31 P NMRS-based alkaline pH. Taking advantage of this 1 H NMRS-based intracellular pH, we found that free intramuscular [Mg2+ ] is in fact abnormally low in DMD patients.

Published
2019
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8. Metabolite and macromolecule T1 and T2 relaxation times in the rat brain in vivo at 17.2T

Author

Sébastien Mériaux, Fawzi Boumezbeur, and Alfredo L. Lopez‐Kolkovsky

Subjects
Brain Chemistry, Male, Magnetic Resonance Spectroscopy, Macromolecular Substances, Metabolite, Spin–lattice relaxation, Resonance, Brain, Nuclear magnetic resonance spectroscopy, 030218 nuclear medicine & medical imaging, Rats, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Nuclear magnetic resonance, chemistry, In vivo, Proton NMR, Relaxation (physics), Animals, Radiology, Nuclear Medicine and imaging, 030217 neurology & neurosurgery, Macromolecule
Abstract

Purpose To measure the T1 and T2 relaxation times of water, metabolites, and macromolecules in the rat brain in vivo at 17.2T and achieve absolute quantification of the neurochemical profile. Relaxation times were compared with values from the literature found at lower magnetic fields. Methods 1H NMR spectra were measured using a LASER localization sequence. T1- and T2-weighted spectra were analyzed using LCModel with an original parameterization of the macromolecule baseline. Results The T1 relaxation times of 20 metabolites and the T2 relaxation times of 16 singlets and J-coupled metabolites were measured. The mean T1 and T2 relaxation times for metabolites were 1721 ± 237 ms and 148 ± 53 ms, respectively. In addition, we measured the T1 and T2 relaxation times of 4 macromolecule resonance groups, their mean T1 and T2 relaxation times being 690 ± 100 ms and 37 ± 15 ms, respectively. Absolute quantification of 21 metabolites and 4 groups of macromolecule resonances was achieved with Cramer-Rao Lower Bounds below 5% for Cr, Gln, Glu, GPC, Ins, NAA, PCr, and Tau and below 25% for the remaining resonances. Conclusion Comparison of our relaxation times to previously published values suggests a small increase of T1 values and a clear decrease of T2 values between 11.7 and 17.2T. Magn Reson Med, 2015. © 2015 Wiley Periodicals, Inc.

Published
2014

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