Nmr spectral analysis of kinetic data using natural lineshapes

F. W. Heineman; J. Eng; B. A. Berkowitz; R. S. Balaban

doi:10.1002/mrm.1910130316

Nmr spectral analysis of kinetic data using natural lineshapes

F. W. Heineman, J. Eng, B. A. Berkowitz, R. S. Balaban

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44 Scopus citations

Abstract

An automated rapid data analysis scheme for NMR spectroscopy time course studies is presented. This method uses a high signal‐to‐noise reference spectrum collected at the beginning of a time course as a lineshape model to analyze subsequent low signal‐to‐noise data collected with higher time resolution. The method is fast (approximately 1 s to evaluate two peaks in a 2K spectrum) and easily implemented on NMR spectrometer computers. An application of this method to spectroscopic studies on the heart is provided.

Original language	English (US)
Pages (from-to)	490-497
Number of pages	8
Journal	Magnetic resonance in medicine
Volume	13
Issue number	3
DOIs	https://doi.org/10.1002/mrm.1910130316
State	Published - Mar 1990
Externally published	Yes

ASJC Scopus subject areas

Radiology Nuclear Medicine and imaging

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10.1002/mrm.1910130316

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abstract = "An automated rapid data analysis scheme for NMR spectroscopy time course studies is presented. This method uses a high signal‐to‐noise reference spectrum collected at the beginning of a time course as a lineshape model to analyze subsequent low signal‐to‐noise data collected with higher time resolution. The method is fast (approximately 1 s to evaluate two peaks in a 2K spectrum) and easily implemented on NMR spectrometer computers. An application of this method to spectroscopic studies on the heart is provided.",

author = "Heineman, {F. W.} and J. Eng and Berkowitz, {B. A.} and Balaban, {R. S.}",

year = "1990",

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AU - Heineman, F. W.

AU - Eng, J.

AU - Berkowitz, B. A.

AU - Balaban, R. S.

PY - 1990/3

Y1 - 1990/3

N2 - An automated rapid data analysis scheme for NMR spectroscopy time course studies is presented. This method uses a high signal‐to‐noise reference spectrum collected at the beginning of a time course as a lineshape model to analyze subsequent low signal‐to‐noise data collected with higher time resolution. The method is fast (approximately 1 s to evaluate two peaks in a 2K spectrum) and easily implemented on NMR spectrometer computers. An application of this method to spectroscopic studies on the heart is provided.

AB - An automated rapid data analysis scheme for NMR spectroscopy time course studies is presented. This method uses a high signal‐to‐noise reference spectrum collected at the beginning of a time course as a lineshape model to analyze subsequent low signal‐to‐noise data collected with higher time resolution. The method is fast (approximately 1 s to evaluate two peaks in a 2K spectrum) and easily implemented on NMR spectrometer computers. An application of this method to spectroscopic studies on the heart is provided.

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Nmr spectral analysis of kinetic data using natural lineshapes

Abstract

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