Abha Patel scite author profile

The proton T2 relaxation times of metabolites in the human brain were measured using point-resolved spectroscopy at 3T in vivo. Four echo times (54, 112, 246 and 374 ms) were selected from numerical and phantom analyses for effective detection of the glutamate multiplet at ~2.35 ppm. In vivo data were obtained from medial occipital and left occipital cortices of five healthy volunteers, which contained predominantly gray and white matter, respectively. Spectra were analyzed with LCModel software using volume-localized calculated spectra of brain metabolites. The estimate of the signal strength vs. TE was fitted to a monoexponential function for estimation of apparent T2 (T2†). The T2† was estimated to be similar between the brain regions for creatine, choline, glutamate and myo-inositol, but significantly different for the N-acetylaspartate singlet and multiplet. The T2†s of glutamate and myo-inositol were measured as 181±16 and 197±14 ms (mean±SD, N = 5) for medial occipital, and 180±12 and 196±17 ms for left occipital, respectively.

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Improvement of resolution for brain coupled metabolites by optimized ¹H MRS at 7 T

Choi

Dimitrov

Douglas

et al. 2010

NMR in Biomedicine

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Resolution enhancement for glutamate (Glu), glutamine (Gln) and glutathione (GSH) in the human brain by TE-optimized point-resolved spectroscopy (PRESS) at 7 T is reported. Sub-TE dependences of the multiplets of Glu, Gln, GSH, γ-aminobutyric acid (GABA) and N-acetylaspartate (NAA) at 2.2-2.6 ppm were investigated with density matrix simulations, incorporating three-dimensional volume localization. The numerical simulations indicated that the C4-proton multiplets can be completely separated with (TE(1), TE(2)) = (37, 63) ms, as a result of a narrowing of the multiplets and suppression of the NAA 2.5 ppm signal. Phantom experiments reproduced the signal yield and lineshape from simulations within experimental errors. In vivo tests of optimized PRESS were conducted on the prefrontal cortex of six healthy volunteers. In spectral fitting by LCModel, Cramér-Rao lower bounds (CRLBs) of Glu, Gln and GSH were 2 ± 1, 5 ± 1 and 6 ± 2 (mean ± SD), respectively. To evaluate the performance of the optimized PRESS method under identical experimental conditions, stimulated-echo spectra were acquired with (TE, TM) = (14, 37) and (74, 68) ms. The CRLB of Glu was similar between PRESS and short-TE stimulated-echo acquisition mode (STEAM), but the CRLBs of Gln and GSH were lower in PRESS than in both STEAM acquisitions.

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Hypoxic Preconditioning Requires the Apoptosis Protein CED-4 in C. elegans

et al. 2007

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Hypoxic preconditioning (HP) is a rapid and reversible proadaptive response to mild hypoxic exposure with such a response protecting cells from subsequent hypoxic or ischemic insult. HP mechanisms are of great interest because of their therapeutic potential and insight into metabolic adaptation and cell death. HP has been widely demonstrated in the vertebrate subphylum but not in invertebrates. Here, we report that the nematode Caenorhabditis elegans has a potent HP mechanism that protects the organism as well as its neurons and myocytes from hypoxic injury. The time course of C. elegans HP was consistent with vertebrate-delayed HP, appearing 16 hr after preconditioning and lasting at least 36 hr. The apoptosis pathway has been proposed as either a trigger or target of HP. Testing of mutations in the canonical C. elegans apoptosis pathway showed that in general, genes in this pathway are not required for HP. However, loss-of-function mutations in ced-4, which encodes an Apaf-1 homolog, completely blocked HP. RNAi silencing of ced-4 in adult animals immediately preceding preconditioning blocked HP, indicating that CED-4 is required in adults during or after preconditioning. CED-4/Apaf-1 is essential for HP in C. elegans and acts through a mechanism independent of the classical apoptosis pathway.

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Abha Patel

T₂ measurement of J‐coupled metabolites in the human brain at 3T

Improvement of resolution for brain coupled metabolites by optimized ¹H MRS at 7 T

Hypoxic Preconditioning Requires the Apoptosis Protein CED-4 in C. elegans

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Abha Patel

T2 measurement of J‐coupled metabolites in the human brain at 3T

Improvement of resolution for brain coupled metabolites by optimized 1H MRS at 7 T

Hypoxic Preconditioning Requires the Apoptosis Protein CED-4 in C. elegans

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T₂ measurement of J‐coupled metabolites in the human brain at 3T

Improvement of resolution for brain coupled metabolites by optimized ¹H MRS at 7 T