Region-specific changes in ascorbate concentration during rat brain development quantified by in vivo 1H NMR spectroscopy

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Abstract

Ascorbate (vitaminC, Asc) was quantified in vivo using short-TE 1H NMR spectra from a previously published study on regional and developmental changes in the neurochemical profile of the rat brain (Tkac I, Rao R, Georgieff MK, Gruetter R. Magn Reson Med. 2003; 50: 24-32). Asc concentration was quantified on postnatal days P7-P28 from three regions that are of interest in the study of neurocognitive development, i.e. the hippocampus, striatum and cerebral cortex. The previously measured 1H NMR spectra were re-analyzed using LCModel with the Asc spectrum included in the basis set. The Asc concentration was consistently quantified from all 110 re-analyzed spectra with an estimated fitting error of 7% (i.e. the average Cramer-Rao lower bound). The sensitivity of Asc quantification was sufficiently high to detect regional and developmental changes in Asc concentration. The concentration of Asc was highest on P7, and decreased with age in all three brain regions (p<0.001) in agreement with previous in vitro studies. At P10 and older postnatal ages, an inhomogeneous distribution of Asc among brain regions was detected. In addition to facilitating the quantification of this important antioxidant concentration, the inclusion of the Asc spectrum in the LCModel basis set improved the quantification accuracy of other brain metabolite concentrations in the neurochemical profile. Differing time courses of rat brain ascorbate (vitamin C) concentration during postnatal development were quantified from three distinct brain regions in vivo using short-echo time 1H NMR spectra. Ascorbate was highest at birth and decreased with age in all regions (p< 0.001) and an inhomogeneous distribution was detected. In addition to facilitating quantification of this important antioxidant simultaneously with the rest of the neurochemical profile, including ascorbate in the model improved the quantification accuracy for the other brain metabolites.

Original languageEnglish (US)
Pages (from-to)1038-1043
Number of pages6
JournalNMR in Biomedicine
Volume23
Issue number9
DOIs
StatePublished - Nov 1 2010

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Nuclear magnetic resonance spectroscopy
Rats
Brain
Magnetic Resonance Spectroscopy
Nuclear magnetic resonance
Metabolites
Antioxidants
Age Distribution
Proton Magnetic Resonance Spectroscopy
Cerebral Cortex
Ascorbic Acid
Hippocampus
Parturition

Keywords

  • Antioxidant
  • Ascorbate
  • Development
  • NMR spectroscopy
  • Noninvasive
  • Quantification
  • Region

Cite this

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title = "Region-specific changes in ascorbate concentration during rat brain development quantified by in vivo 1H NMR spectroscopy",
abstract = "Ascorbate (vitaminC, Asc) was quantified in vivo using short-TE 1H NMR spectra from a previously published study on regional and developmental changes in the neurochemical profile of the rat brain (Tkac I, Rao R, Georgieff MK, Gruetter R. Magn Reson Med. 2003; 50: 24-32). Asc concentration was quantified on postnatal days P7-P28 from three regions that are of interest in the study of neurocognitive development, i.e. the hippocampus, striatum and cerebral cortex. The previously measured 1H NMR spectra were re-analyzed using LCModel with the Asc spectrum included in the basis set. The Asc concentration was consistently quantified from all 110 re-analyzed spectra with an estimated fitting error of 7{\%} (i.e. the average Cramer-Rao lower bound). The sensitivity of Asc quantification was sufficiently high to detect regional and developmental changes in Asc concentration. The concentration of Asc was highest on P7, and decreased with age in all three brain regions (p<0.001) in agreement with previous in vitro studies. At P10 and older postnatal ages, an inhomogeneous distribution of Asc among brain regions was detected. In addition to facilitating the quantification of this important antioxidant concentration, the inclusion of the Asc spectrum in the LCModel basis set improved the quantification accuracy of other brain metabolite concentrations in the neurochemical profile. Differing time courses of rat brain ascorbate (vitamin C) concentration during postnatal development were quantified from three distinct brain regions in vivo using short-echo time 1H NMR spectra. Ascorbate was highest at birth and decreased with age in all regions (p< 0.001) and an inhomogeneous distribution was detected. In addition to facilitating quantification of this important antioxidant simultaneously with the rest of the neurochemical profile, including ascorbate in the model improved the quantification accuracy for the other brain metabolites.",
keywords = "Antioxidant, Ascorbate, Development, NMR spectroscopy, Noninvasive, Quantification, Region",
author = "Melissa Terpstra and Raghu Rao and Ivan Tkac",
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TY - JOUR

T1 - Region-specific changes in ascorbate concentration during rat brain development quantified by in vivo 1H NMR spectroscopy

AU - Terpstra, Melissa

AU - Rao, Raghu

AU - Tkac, Ivan

PY - 2010/11/1

Y1 - 2010/11/1

N2 - Ascorbate (vitaminC, Asc) was quantified in vivo using short-TE 1H NMR spectra from a previously published study on regional and developmental changes in the neurochemical profile of the rat brain (Tkac I, Rao R, Georgieff MK, Gruetter R. Magn Reson Med. 2003; 50: 24-32). Asc concentration was quantified on postnatal days P7-P28 from three regions that are of interest in the study of neurocognitive development, i.e. the hippocampus, striatum and cerebral cortex. The previously measured 1H NMR spectra were re-analyzed using LCModel with the Asc spectrum included in the basis set. The Asc concentration was consistently quantified from all 110 re-analyzed spectra with an estimated fitting error of 7% (i.e. the average Cramer-Rao lower bound). The sensitivity of Asc quantification was sufficiently high to detect regional and developmental changes in Asc concentration. The concentration of Asc was highest on P7, and decreased with age in all three brain regions (p<0.001) in agreement with previous in vitro studies. At P10 and older postnatal ages, an inhomogeneous distribution of Asc among brain regions was detected. In addition to facilitating the quantification of this important antioxidant concentration, the inclusion of the Asc spectrum in the LCModel basis set improved the quantification accuracy of other brain metabolite concentrations in the neurochemical profile. Differing time courses of rat brain ascorbate (vitamin C) concentration during postnatal development were quantified from three distinct brain regions in vivo using short-echo time 1H NMR spectra. Ascorbate was highest at birth and decreased with age in all regions (p< 0.001) and an inhomogeneous distribution was detected. In addition to facilitating quantification of this important antioxidant simultaneously with the rest of the neurochemical profile, including ascorbate in the model improved the quantification accuracy for the other brain metabolites.

AB - Ascorbate (vitaminC, Asc) was quantified in vivo using short-TE 1H NMR spectra from a previously published study on regional and developmental changes in the neurochemical profile of the rat brain (Tkac I, Rao R, Georgieff MK, Gruetter R. Magn Reson Med. 2003; 50: 24-32). Asc concentration was quantified on postnatal days P7-P28 from three regions that are of interest in the study of neurocognitive development, i.e. the hippocampus, striatum and cerebral cortex. The previously measured 1H NMR spectra were re-analyzed using LCModel with the Asc spectrum included in the basis set. The Asc concentration was consistently quantified from all 110 re-analyzed spectra with an estimated fitting error of 7% (i.e. the average Cramer-Rao lower bound). The sensitivity of Asc quantification was sufficiently high to detect regional and developmental changes in Asc concentration. The concentration of Asc was highest on P7, and decreased with age in all three brain regions (p<0.001) in agreement with previous in vitro studies. At P10 and older postnatal ages, an inhomogeneous distribution of Asc among brain regions was detected. In addition to facilitating the quantification of this important antioxidant concentration, the inclusion of the Asc spectrum in the LCModel basis set improved the quantification accuracy of other brain metabolite concentrations in the neurochemical profile. Differing time courses of rat brain ascorbate (vitamin C) concentration during postnatal development were quantified from three distinct brain regions in vivo using short-echo time 1H NMR spectra. Ascorbate was highest at birth and decreased with age in all regions (p< 0.001) and an inhomogeneous distribution was detected. In addition to facilitating quantification of this important antioxidant simultaneously with the rest of the neurochemical profile, including ascorbate in the model improved the quantification accuracy for the other brain metabolites.

KW - Antioxidant

KW - Ascorbate

KW - Development

KW - NMR spectroscopy

KW - Noninvasive

KW - Quantification

KW - Region

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U2 - 10.1002/nbm.1528

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