31P NMR spectroscopy of isolated perfused lungs

R. P. Pillai; P. C. Buescher; D. B. Pearse; J. T. Sylvester; G. L. Eichhorn

doi:10.1002/mrm.1910030313

³¹P NMR spectroscopy of isolated perfused lungs

R. P. Pillai, P. C. Buescher, D. B. Pearse, J. T. Sylvester, G. L. Eichhorn

Johns Hopkins Hospital

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

³¹P NMR spectra of isolated blood‐perfused pig lungs were obtained by degassing the lungs in vivo to remove field inhomogeneities caused by air‐tissue interfaces. The spectra show the presence of ATP, phosphodiester, inorganic phosphate, and phosphomonoester, but no phosphocreatine. All the metabolites remained stable for more than 4 h when the lungs were perfused with oxygenated blood. Blood gas tensions, glucose concentration, pH, and temperature were controlled throughout the experiment. During anoxia or isch‐emia, ATP and intracellular pH declined and P_i increased but returned to control levels during subsequent normoxia or reperfusion. These results demonstrate the applicability of NMR spectroscopy to isolated perfused lungs, enabling studies of metabolic processes in normal and pathologic lungs, as well as establishment of optimal conditions for lung preservation for transplantation. © 1986 Academic Press, Inc.

Original language	English (US)
Pages (from-to)	467-472
Number of pages	6
Journal	Magnetic resonance in medicine
Volume	3
Issue number	3
DOIs	https://doi.org/10.1002/mrm.1910030313
State	Published - Jun 1986

ASJC Scopus subject areas

Radiology Nuclear Medicine and imaging

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10.1002/mrm.1910030313

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abstract = "31P NMR spectra of isolated blood‐perfused pig lungs were obtained by degassing the lungs in vivo to remove field inhomogeneities caused by air‐tissue interfaces. The spectra show the presence of ATP, phosphodiester, inorganic phosphate, and phosphomonoester, but no phosphocreatine. All the metabolites remained stable for more than 4 h when the lungs were perfused with oxygenated blood. Blood gas tensions, glucose concentration, pH, and temperature were controlled throughout the experiment. During anoxia or isch‐emia, ATP and intracellular pH declined and Pi increased but returned to control levels during subsequent normoxia or reperfusion. These results demonstrate the applicability of NMR spectroscopy to isolated perfused lungs, enabling studies of metabolic processes in normal and pathologic lungs, as well as establishment of optimal conditions for lung preservation for transplantation. {\textcopyright} 1986 Academic Press, Inc.",

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AU - Pillai, R. P.

AU - Buescher, P. C.

AU - Pearse, D. B.

AU - Sylvester, J. T.

AU - Eichhorn, G. L.

PY - 1986/6

Y1 - 1986/6

N2 - 31P NMR spectra of isolated blood‐perfused pig lungs were obtained by degassing the lungs in vivo to remove field inhomogeneities caused by air‐tissue interfaces. The spectra show the presence of ATP, phosphodiester, inorganic phosphate, and phosphomonoester, but no phosphocreatine. All the metabolites remained stable for more than 4 h when the lungs were perfused with oxygenated blood. Blood gas tensions, glucose concentration, pH, and temperature were controlled throughout the experiment. During anoxia or isch‐emia, ATP and intracellular pH declined and Pi increased but returned to control levels during subsequent normoxia or reperfusion. These results demonstrate the applicability of NMR spectroscopy to isolated perfused lungs, enabling studies of metabolic processes in normal and pathologic lungs, as well as establishment of optimal conditions for lung preservation for transplantation. © 1986 Academic Press, Inc.

AB - 31P NMR spectra of isolated blood‐perfused pig lungs were obtained by degassing the lungs in vivo to remove field inhomogeneities caused by air‐tissue interfaces. The spectra show the presence of ATP, phosphodiester, inorganic phosphate, and phosphomonoester, but no phosphocreatine. All the metabolites remained stable for more than 4 h when the lungs were perfused with oxygenated blood. Blood gas tensions, glucose concentration, pH, and temperature were controlled throughout the experiment. During anoxia or isch‐emia, ATP and intracellular pH declined and Pi increased but returned to control levels during subsequent normoxia or reperfusion. These results demonstrate the applicability of NMR spectroscopy to isolated perfused lungs, enabling studies of metabolic processes in normal and pathologic lungs, as well as establishment of optimal conditions for lung preservation for transplantation. © 1986 Academic Press, Inc.

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³¹P NMR spectroscopy of isolated perfused lungs

Abstract

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