This is called the partial volume problem Therefore, the informa

This is called the partial volume problem. Therefore, the information presented mostly is called “apparent”: e.g., apparent T 2, T 2, app, or apparent D, D app. A number of approaches are discussed to (partly) overcome this problem. Water content and discrimination of tissues In order to measure real water content in the different

tissues, we need single parameter maps of A 0 and info to discriminate between the tissues. Many pulse sequences exist by means of which quantitative maps are obtained Compound C molecular weight that represent single NMR parameters like A 0 , T 2 , etc. In Multiple Spin-Echo (MSE) MRI (Edzes et al. 1998) a spin-echo series is created by applying a train of 180º rf pulses that recall or refocus the signal, resulting in a series of echoes (Fig. 1). Each echo is acquired in the presence of a read-out or frequency encoding gradient (cf. Eq. 2) and the whole series of echoes is prepared with a single phase encoding gradient for spatial encoding in the direction of that gradient. By repeating the experiment ARN-509 cell line as a function of different values of the phase encoding gradient a series of spin-echo images is obtained. Single parameter maps can now be processed from the MSE-experiment by assuming a mono-exponential relaxation decay of the

signal intensity as a function of n echo TE in each picture element, pixel: $$ A\left( n_\textecho TE \right) = A_\texteff \exp \left( – n_\textecho TE/T_2,\;\textapp \right) \, $$ (5) n echo is the echo number, up to the maximum N echo. If TR > 3T 1 and TE < T 2 , A eff equals A 0 and is a direct measure of the water content times tissue density in a pixel. The resulting single parameter maps are: signal amplitude (A 0) and T 2, app. An example of an amplitude and T 2 map, demonstrating the high contrast in T 2 to resolve different tissue types, Chlormezanone are presented in Fig. 2. T 2-values in big vacuolated plant cells can be found to approach the value of pure

water (>1.5 s) (Edzes et al. 1998). With such long T 2-values, many spin echoes can be recorded in a single scan (up to 1,000 in a cherry tomato (Edzes et al. 1998)) increasing the total signal-to-noise ratio, S/N. Fig. 2 Amplitude and T 2 map as a result of a MSE experiment on a carrot tap root on a 3 T (128 MHz) MRI system. FOV 40 × 40 mm, 256 × 256 image matrix, slice thickness 2 mm: pixel H 89 clinical trial dimension 156 × 156 × 2,000 μm3 In order to obtain the A 0 and T 2 maps, one commonly fits the signal decay in a single pixel by a mono-exponential decay curve. This is in general not correct, due to the partial volume effects. The consequences for water content maps are discussed below. In general, multi-exponential decay curves are observed for water relaxation measurements in (vacuolated) plant material by non-spatially resolved NMR measurements of homogeneous plant tissue.

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