Application to Rat Lung of the Extended Rorschach–Hazlewood Model of Spin–Lattice Relaxation

The spin–lattice relaxation timeT1was measured in excised degassed (airless) rat lungs over the frequency range 6.7 to 80.5 MHz. The observed frequency dependence was fitted successfully to the water–biopolymer cross-relaxation theory proposed by H. E. Rorschach and C. F. Hazlewood (RH) [J. Magn. Re...

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Veröffentlicht in:	Journal of magnetic resonance. Series B 1996-02, Vol.110 (2), p.136-137
Hauptverfasser:	Hackmann, Andreas, Ailion, David C., Ganesan, Krishnamurthy, Goodrich, K.Craig, Chen, Songhua, Laicher, Gernot, Cutillo, Antonio G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Female Lung - metabolism Macromolecular Substances Magnetic Resonance Spectroscopy Models, Theoretical Oxygen Consumption Pulmonary Atelectasis - metabolism Rats Rats, Sprague-Dawley Water
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container_title	Journal of magnetic resonance. Series B
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creator	Hackmann, Andreas Ailion, David C. Ganesan, Krishnamurthy Goodrich, K.Craig Chen, Songhua Laicher, Gernot Cutillo, Antonio G.
description	The spin–lattice relaxation timeT1was measured in excised degassed (airless) rat lungs over the frequency range 6.7 to 80.5 MHz. The observed frequency dependence was fitted successfully to the water–biopolymer cross-relaxation theory proposed by H. E. Rorschach and C. F. Hazlewood (RH) [J. Magn. Reson.70,79 (1986)]. The rotating frame spin–lattice relaxation timeT1ρwas also measured in rat lung fragments over the frequency range 0.56 to 5.6 kHz, and the observed frequency dependence was explained with an extension of the RH model. The agreement between the theory and the experimental data in both cases is good.
doi_str_mv	10.1006/jmrb.1996.0022
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The observed frequency dependence was fitted successfully to the water–biopolymer cross-relaxation theory proposed by H. E. Rorschach and C. F. Hazlewood (RH) [J. Magn. Reson.70,79 (1986)]. The rotating frame spin–lattice relaxation timeT1ρwas also measured in rat lung fragments over the frequency range 0.56 to 5.6 kHz, and the observed frequency dependence was explained with an extension of the RH model. 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subjects	Animals Female Lung - metabolism Macromolecular Substances Magnetic Resonance Spectroscopy Models, Theoretical Oxygen Consumption Pulmonary Atelectasis - metabolism Rats Rats, Sprague-Dawley Water
title	Application to Rat Lung of the Extended Rorschach–Hazlewood Model of Spin–Lattice Relaxation
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