Metabolic NMR mapping with microgram tissue biopsy

Covadonga Lucas-Torres; Hélène Roumes; Véronique Bouchaud; Anne Karine Bouzier-Sore; Alan Wong

doi:10.1002/nbm.4477

Metabolic NMR mapping with microgram tissue biopsy

Covadonga Lucas-Torres
, Hélène Roumes
, Véronique Bouchaud
, Anne Karine Bouzier-Sore
, Alan Wong

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

Abstract

This study explores the potential of profiling a microgram-scale soft tissue biopsy by NMR spectroscopy. The important elements of high resolution and high sensitivity for the spectral data are achieved through a unique probe, HR-μMAS, which allowed comprehensive profiling to be performed on microgram tissue for the first time under MAS conditions. Thorough spatially resolved metabolic maps were acquired across a coronal brain slice of rat C6 gliomas, which rendered the delineation of the tumor lesion. The results present a unique ex vivo NMR possibility to analyze tissue pathology that cannot be fully explored by the conventional approach, HR-MAS and in vivo MRS. Aside from the capability of analyzing a small localized region to track its specific metabolism, it could also offer the possibility to carry out longitudinal investigations on live animals due to the feasibility of minimally invasive tissue excision.

Original language	English
Article number	e4477
Journal	NMR in Biomedicine
Volume	34
Issue number	4
DOIs	https://doi.org/10.1002/nbm.4477
Publication status	Published - 1 Apr 2021
Externally published	Yes

Keywords

HR-μMAS
NMR
biopsy
glioma
metabolic mapping

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10.1002/nbm.4477

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title = "Metabolic NMR mapping with microgram tissue biopsy",

abstract = "This study explores the potential of profiling a microgram-scale soft tissue biopsy by NMR spectroscopy. The important elements of high resolution and high sensitivity for the spectral data are achieved through a unique probe, HR-μMAS, which allowed comprehensive profiling to be performed on microgram tissue for the first time under MAS conditions. Thorough spatially resolved metabolic maps were acquired across a coronal brain slice of rat C6 gliomas, which rendered the delineation of the tumor lesion. The results present a unique ex vivo NMR possibility to analyze tissue pathology that cannot be fully explored by the conventional approach, HR-MAS and in vivo MRS. Aside from the capability of analyzing a small localized region to track its specific metabolism, it could also offer the possibility to carry out longitudinal investigations on live animals due to the feasibility of minimally invasive tissue excision.",

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AU - Lucas-Torres, Covadonga

AU - Roumes, Hélène

AU - Bouchaud, Véronique

AU - Bouzier-Sore, Anne Karine

AU - Wong, Alan

PY - 2021/4/1

Y1 - 2021/4/1

N2 - This study explores the potential of profiling a microgram-scale soft tissue biopsy by NMR spectroscopy. The important elements of high resolution and high sensitivity for the spectral data are achieved through a unique probe, HR-μMAS, which allowed comprehensive profiling to be performed on microgram tissue for the first time under MAS conditions. Thorough spatially resolved metabolic maps were acquired across a coronal brain slice of rat C6 gliomas, which rendered the delineation of the tumor lesion. The results present a unique ex vivo NMR possibility to analyze tissue pathology that cannot be fully explored by the conventional approach, HR-MAS and in vivo MRS. Aside from the capability of analyzing a small localized region to track its specific metabolism, it could also offer the possibility to carry out longitudinal investigations on live animals due to the feasibility of minimally invasive tissue excision.

AB - This study explores the potential of profiling a microgram-scale soft tissue biopsy by NMR spectroscopy. The important elements of high resolution and high sensitivity for the spectral data are achieved through a unique probe, HR-μMAS, which allowed comprehensive profiling to be performed on microgram tissue for the first time under MAS conditions. Thorough spatially resolved metabolic maps were acquired across a coronal brain slice of rat C6 gliomas, which rendered the delineation of the tumor lesion. The results present a unique ex vivo NMR possibility to analyze tissue pathology that cannot be fully explored by the conventional approach, HR-MAS and in vivo MRS. Aside from the capability of analyzing a small localized region to track its specific metabolism, it could also offer the possibility to carry out longitudinal investigations on live animals due to the feasibility of minimally invasive tissue excision.

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KW - biopsy

KW - glioma

KW - metabolic mapping

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Metabolic NMR mapping with microgram tissue biopsy

Abstract

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