Burns are lesions often due to direct transfer of energy from any source of heat to the body. The thermal injury may determine severe metabolic alterations due to the liberation of inflammatory mediators and hormonal disturbances induced by stress. Burn trauma in skeletal muscle has both local and systematic effects, as functionally debilitating changes are seen to occur at local and distant site, especially when burn size exceeds 30% of total body surface area. Nuclear magnetic resonance Spectroscopy HRMAS has been used to explore lipidic accumulation after burn trauma. On these bases we perform a solid-state NMR method that maximizes the advantages of high-resolution magic-angle-spinning (HRMAS) 1H MRS applied to intact burn tissue biopsies when compared to more conventional liquid-state NMR approaches. Numerical si ulations and experimental results of an optimized adiabatic TOBSY (Total through Bond correlation SpectroscopY) solidstate NMR pulse sequence for two-dimensional 1H-1H homonuclear scalar-coupling mixing indicate that a significant SNR gain (>100% theoretically and 20-50% experimentally) relative to its liquid-state analogue TOCSY (TOtal Correlation SpectroscopY) sequence is attainable. Multidimensional 1H-MRS is crucial for unambiguous assignment and quantification of overlapping 1H spectra of tissues. Hence, ensuring the best sensitivity is highly desirable. Here we present experiments using our novel 2D TOBSY HRMAS 1H MRS, which aim to suggest its use as a sensitive MR sequence to investigate burn metabolic injury.

V. Righi, OC. Andronesi, D. Mintzopoulos, AA. Tzika (2009). Solid-State NMR Adiabatic TOBSY Provides Enhanced Sensitivity for Multidimensional High-Resolution Magic- Angle-Spinning H1 MR Spectroscopy in Burn Trauma. NY : Curran Associates, Inc..

Solid-State NMR Adiabatic TOBSY Provides Enhanced Sensitivity for Multidimensional High-Resolution Magic- Angle-Spinning H1 MR Spectroscopy in Burn Trauma

RIGHI, VALERIA;
2009

Abstract

Burns are lesions often due to direct transfer of energy from any source of heat to the body. The thermal injury may determine severe metabolic alterations due to the liberation of inflammatory mediators and hormonal disturbances induced by stress. Burn trauma in skeletal muscle has both local and systematic effects, as functionally debilitating changes are seen to occur at local and distant site, especially when burn size exceeds 30% of total body surface area. Nuclear magnetic resonance Spectroscopy HRMAS has been used to explore lipidic accumulation after burn trauma. On these bases we perform a solid-state NMR method that maximizes the advantages of high-resolution magic-angle-spinning (HRMAS) 1H MRS applied to intact burn tissue biopsies when compared to more conventional liquid-state NMR approaches. Numerical si ulations and experimental results of an optimized adiabatic TOBSY (Total through Bond correlation SpectroscopY) solidstate NMR pulse sequence for two-dimensional 1H-1H homonuclear scalar-coupling mixing indicate that a significant SNR gain (>100% theoretically and 20-50% experimentally) relative to its liquid-state analogue TOCSY (TOtal Correlation SpectroscopY) sequence is attainable. Multidimensional 1H-MRS is crucial for unambiguous assignment and quantification of overlapping 1H spectra of tissues. Hence, ensuring the best sensitivity is highly desirable. Here we present experiments using our novel 2D TOBSY HRMAS 1H MRS, which aim to suggest its use as a sensitive MR sequence to investigate burn metabolic injury.
2009
17th Annual ISMRM Scientific Meeting and Exhibition 2009
4922
4922
V. Righi, OC. Andronesi, D. Mintzopoulos, AA. Tzika (2009). Solid-State NMR Adiabatic TOBSY Provides Enhanced Sensitivity for Multidimensional High-Resolution Magic- Angle-Spinning H1 MR Spectroscopy in Burn Trauma. NY : Curran Associates, Inc..
V. Righi; OC. Andronesi; D. Mintzopoulos; AA. Tzika
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/124855
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