Magnetic resonance imaging of pH in vivo using hyperpolarized 13C-labelled bicarbonate.

Ferdia A Gallagher; Mikko I Kettunen; Sam E. Day; De-En Hu; Jan Henrik Ardenkjær-Larsen; René in 't Zandt; Pernille Rose Jensen; Magnus Karlsson; Klaes Golman; Mathilde Hauge Lerche; Kevin M Brindle

doi:10.1038/nature07017

Magnetic resonance imaging of pH in vivo using hyperpolarized 13C-labelled bicarbonate.

Ferdia A Gallagher, Mikko I Kettunen, Sam E. Day, De-En Hu, Jan Henrik Ardenkjær-Larsen, René in 't Zandt, Pernille Rose Jensen, Magnus Karlsson, Klaes Golman, Mathilde Hauge Lerche, Kevin M Brindle

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

As alterations in tissue pH underlie many pathological processes, the capability to image tissue pH in the clinic could offer new ways of detecting disease and response to treatment. Dynamic nuclear polarization is an emerging technique for substantially increasing the sensitivity of magnetic resonance imaging experiments. Here we show that tissue pH can be imaged in vivo from the ratio of the signal intensities of hyperpolarized bicarbonate (H(13)CO(3)(-)) and (13)CO(2) following intravenous injection of hyperpolarized H(13)CO(3)(-). The technique was demonstrated in a mouse tumour model, which showed that the average tumour interstitial pH was significantly lower than the surrounding tissue. Given that bicarbonate is an endogenous molecule that can be infused in relatively high concentrations into patients, we propose that this technique could be used clinically to image pathological processes that are associated with alterations in tissue pH, such as cancer, ischaemia and inflammation.

Original language	English
Journal	Nature
Volume	453
Issue number	7197
Pages (from-to)	940-943
ISSN	0028-0836
DOIs	https://doi.org/10.1038/nature07017
Publication status	Published - 2008
Externally published	Yes

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title = "Magnetic resonance imaging of pH in vivo using hyperpolarized 13C-labelled bicarbonate.",

abstract = "As alterations in tissue pH underlie many pathological processes, the capability to image tissue pH in the clinic could offer new ways of detecting disease and response to treatment. Dynamic nuclear polarization is an emerging technique for substantially increasing the sensitivity of magnetic resonance imaging experiments. Here we show that tissue pH can be imaged in vivo from the ratio of the signal intensities of hyperpolarized bicarbonate (H(13)CO(3)(-)) and (13)CO(2) following intravenous injection of hyperpolarized H(13)CO(3)(-). The technique was demonstrated in a mouse tumour model, which showed that the average tumour interstitial pH was significantly lower than the surrounding tissue. Given that bicarbonate is an endogenous molecule that can be infused in relatively high concentrations into patients, we propose that this technique could be used clinically to image pathological processes that are associated with alterations in tissue pH, such as cancer, ischaemia and inflammation.",

author = "Gallagher, {Ferdia A} and Kettunen, {Mikko I} and Day, {Sam E.} and De-En Hu and Ardenkj{\ae}r-Larsen, {Jan Henrik} and Zandt, {Ren{\'e} in 't} and Jensen, {Pernille Rose} and Magnus Karlsson and Klaes Golman and Lerche, {Mathilde Hauge} and Brindle, {Kevin M}",

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doi = "10.1038/nature07017",

language = "English",

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journal = "Nature",

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T1 - Magnetic resonance imaging of pH in vivo using hyperpolarized 13C-labelled bicarbonate.

AU - Gallagher, Ferdia A

AU - Kettunen, Mikko I

AU - Day, Sam E.

AU - Hu, De-En

AU - Ardenkjær-Larsen, Jan Henrik

AU - Zandt, René in 't

AU - Jensen, Pernille Rose

AU - Karlsson, Magnus

AU - Golman, Klaes

AU - Lerche, Mathilde Hauge

AU - Brindle, Kevin M

PY - 2008

Y1 - 2008

N2 - As alterations in tissue pH underlie many pathological processes, the capability to image tissue pH in the clinic could offer new ways of detecting disease and response to treatment. Dynamic nuclear polarization is an emerging technique for substantially increasing the sensitivity of magnetic resonance imaging experiments. Here we show that tissue pH can be imaged in vivo from the ratio of the signal intensities of hyperpolarized bicarbonate (H(13)CO(3)(-)) and (13)CO(2) following intravenous injection of hyperpolarized H(13)CO(3)(-). The technique was demonstrated in a mouse tumour model, which showed that the average tumour interstitial pH was significantly lower than the surrounding tissue. Given that bicarbonate is an endogenous molecule that can be infused in relatively high concentrations into patients, we propose that this technique could be used clinically to image pathological processes that are associated with alterations in tissue pH, such as cancer, ischaemia and inflammation.

AB - As alterations in tissue pH underlie many pathological processes, the capability to image tissue pH in the clinic could offer new ways of detecting disease and response to treatment. Dynamic nuclear polarization is an emerging technique for substantially increasing the sensitivity of magnetic resonance imaging experiments. Here we show that tissue pH can be imaged in vivo from the ratio of the signal intensities of hyperpolarized bicarbonate (H(13)CO(3)(-)) and (13)CO(2) following intravenous injection of hyperpolarized H(13)CO(3)(-). The technique was demonstrated in a mouse tumour model, which showed that the average tumour interstitial pH was significantly lower than the surrounding tissue. Given that bicarbonate is an endogenous molecule that can be infused in relatively high concentrations into patients, we propose that this technique could be used clinically to image pathological processes that are associated with alterations in tissue pH, such as cancer, ischaemia and inflammation.

U2 - 10.1038/nature07017

DO - 10.1038/nature07017

M3 - Journal article

SN - 0028-0836

VL - 453

SP - 940

EP - 943

JO - Nature

JF - Nature

IS - 7197

ER -

Magnetic resonance imaging of pH in vivo using hyperpolarized 13C-labelled bicarbonate.

Abstract

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