Effects of a Phonologically Driven Treatment for Dyslexia on Lactate Levels Measured by Proton MR Spectroscopic Imaging

MR image and proton spectra from an activated brain region of one dyslexic participant. The spectroscopic data were collected using 4000/272 proton echo-planar spectroscopic imaging. The MR image was collected using a 2000/80 fast spin-echo pulse sequence. The intensity axis of the spectra is scaled so that the lactate can be visualized more easily; however, choline and NAA are scaled off the figure. Note the decrease in the lactate peaks for the posttreatment spectrum. Cho, choline; CR, creatine. A, MR image with white box indicating the brain region measured with MR spectroscopy. B, Proton MR spectrum from the white box brain region before treatment (the lactate resonance has a signal-to-noise ratio of 2.2). C, Proton MR spectrum from the white box brain region after treatment (lactate has a signal-to-noise ratio of 1.6).

Proton MR spectra and image from a dyslexic boy before treatment during the phonologic task. A, Spectrum from voxel 7 shows choline (CHO), creatine (Cr), NAA, and lactate. B, Nine spectra from nine adjacent voxels (position is shown in D), zoomed into the NAA region (1.7−2.3 ppm). C, Nine spectra from nine adjacent voxels, zoomed into the lactate region (1.10−1.33 ppm). The vertical scale of this set was increased six times higher than the NAA set so that lactate could be easily visualized. An increase in lactate can be clearly seen in voxels 6 through 8 compared with voxels 1 through 4. D, MR image shows the location of the nine voxels shown in A through C.