The application of high-resolution magic angle spinning (HR-MAS) NMR spectroscopy to the analysis of intact tissue biopsies and surgery samples dates back to 1997. It represents, at present, an actively investigated field, and it is used to obtain the metabolic fingerprints of tissues. It has been shown to differentiate between normal and neoplastic tissue in the case of breast, brain, kidney, colon cancer and other malignancies in the upper gastrointestinal tract. Nevertheless, it is difficult to run HR-MAS analysis immediately after surgical resection or biopsy, and samples are currently frozen in liquid nitrogen and then stored to -80 °C. Some studies reporting the effect of sample ischaemia, spinning time and measurement temperature on the metabolic profile of tissues can be found.1 Nevertheless, another important issue to be addressed is the effect of cryopreservation time on the metabolic profile of tissues. Crypreservation represents a more and more common practice, due to the widespread of tissue BioBanks. To gain a deeper insight into metabolic changes that occur during the storage, samples of Modena BioBank were analyzed through HR-MAS NMR after 1, 6 and 12 months from collection. The results of this study were discussed.
Evaluation of the effects of cryopreservation on Modena Biobank tissue samples through HR-MAS NMR / Valeria, Righi; Schenetti, Luisa; Maiorana, Antonino; Bettelli, Stefania Raffaella; REGGIANI BONETTI, Luca; Mucci, Adele. - STAMPA. - 1:(2013), pp. T15-T15. (Intervento presentato al convegno 35th FGMR Discussion Meeting and joint Conference of the German, Italian and Slovenian Magnetic Resonance Societies tenutosi a Frauenchiemsee nel 9-14 settembre 2013).
Evaluation of the effects of cryopreservation on Modena Biobank tissue samples through HR-MAS NMR
SCHENETTI, Luisa;MAIORANA, Antonino;BETTELLI, Stefania Raffaella;REGGIANI BONETTI, Luca;MUCCI, Adele
2013
Abstract
The application of high-resolution magic angle spinning (HR-MAS) NMR spectroscopy to the analysis of intact tissue biopsies and surgery samples dates back to 1997. It represents, at present, an actively investigated field, and it is used to obtain the metabolic fingerprints of tissues. It has been shown to differentiate between normal and neoplastic tissue in the case of breast, brain, kidney, colon cancer and other malignancies in the upper gastrointestinal tract. Nevertheless, it is difficult to run HR-MAS analysis immediately after surgical resection or biopsy, and samples are currently frozen in liquid nitrogen and then stored to -80 °C. Some studies reporting the effect of sample ischaemia, spinning time and measurement temperature on the metabolic profile of tissues can be found.1 Nevertheless, another important issue to be addressed is the effect of cryopreservation time on the metabolic profile of tissues. Crypreservation represents a more and more common practice, due to the widespread of tissue BioBanks. To gain a deeper insight into metabolic changes that occur during the storage, samples of Modena BioBank were analyzed through HR-MAS NMR after 1, 6 and 12 months from collection. The results of this study were discussed.
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