BACKGROUND: In vivo water content determination based on magnetic resonance (MR) method is of importance in clinical practice as well as in animal studies to follow up the treatment given in order to reduce brain oedema. The methods proposed in the literature so far are largely time consuming. The aim of this study was to find a fast in vivo water quantification method having real advantage for patients suffering from critical conditions. METHOD: Cold injury was applied to provoke brain oedema in fourteen rats. T(1) values of both the oedematous area and the contralateral normal cortex were determined by two independent methods 24 hours after the cold impact. First, from a series of images recorded by inversion recovery spin echo (IRSE) sequence and then by progressive saturation experiment performed by localised MR spectroscopy using stimulated echo acquisition mode (STEAM). To reduce the acquisition time, a two-element repetition time array was optimised for the STEAM experiment, whereas four inversion times were used for T(1) mapping. Both methods were validated against gel phantoms with known T(1) values. After the MR measurements the animals were sacrificed and the water contents of the regions of interest were determined by gravimetric wet-dry method. FINDINGS: The reciprocals of the in vivo measured T(1) values were correlated with the reciprocals of the brain water contents. STEAM experiment showed stronger correlation (r=0.96) than IRSE (r=0.93). In addition, STEAM provided more accurate T(1) values in the phantom study. Determination of brain water content based on T1 measurement does work also at high magnetic field. Determination of brain water content by Magnetic Resonance Spectroscopy is feasible within 2 minutes. INTERPRETATION: Using the presented fast method, water content can be determined within a couple of minutes in animal experiments as well as in the daily clinical practice.
BACKGROUND: In vivo water content determination based on magnetic resonance (MR) method is of importance in clinical practice as well as in animal studies to follow up the treatment given in order to reduce brain oedema. The methods proposed in the literature so far are largely time consuming. The aim of this study was to find a fast in vivo water quantification method having real advantage for patients suffering from critical conditions. METHOD: Cold injury was applied to provoke brain oedema in fourteen rats. T(1) values of both the oedematous area and the contralateral normal cortex were determined by two independent methods 24 hours after the cold impact. First, from a series of images recorded by inversion recovery spin echo (IRSE) sequence and then by progressive saturation experiment performed by localised MR spectroscopy using stimulated echo acquisition mode (STEAM). To reduce the acquisition time, a two-element repetition time array was optimised for the STEAM experiment, whereas four inversion times were used for T(1) mapping. Both methods were validated against gel phantoms with known T(1) values. After the MR measurements the animals were sacrificed and the water contents of the regions of interest were determined by gravimetric wet-dry method. FINDINGS: The reciprocals of the in vivo measured T(1) values were correlated with the reciprocals of the brain water contents. STEAM experiment showed stronger correlation (r=0.96) than IRSE (r=0.93). In addition, STEAM provided more accurate T(1) values in the phantom study. Determination of brain water content based on T1 measurement does work also at high magnetic field. Determination of brain water content by Magnetic Resonance Spectroscopy is feasible within 2 minutes. INTERPRETATION: Using the presented fast method, water content can be determined within a couple of minutes in animal experiments as well as in the daily clinical practice.
Authors: Florence Colliez; Marta M Safronova; Julie Magat; Nicolas Joudiou; André P Peeters; Bénédicte F Jordan; Bernard Gallez; Thierry Duprez Journal: PLoS One Date: 2015-08-12 Impact factor: 3.240