Distributions of proton MR-detected metabolites have been mapped throughout the brain in a group of normal subjects using a volumetric MR spectroscopic imaging (MRSI) acquisition with an interleaved water reference. Data were processed with intensity and spatial normalization to enable voxel-based analysis methods to be applied across a group of subjects. Results demonstrate significant regional, tissue, and genderdependent variations of brain metabolite concentrations, and variations of these distributions with normal aging. The greatest alteration of metabolites with age was observed for whitematter choline and creatine. An example of the utility of the normative metabolic reference information is then demonstrated for analysis of data acquired from a subject who suffered a traumatic brain injury. This study demonstrates the ability to obtain proton spectra from a wide region of the brain and to apply fully automated processing methods. Proton MR spectroscopy (MRS) enables the detection of a number of tissue metabolites that provide sensitive markers of disease or injury, making these techniques of considerable interest for clinical diagnostic purposes and particularly for studies in the brain. The acquisition and analysis of MRS data have several technical challenges that compromise the spatial resolution and accuracy of the resultant metabolite values. Furthermore, metabolic changes with disease and injury can frequently be subtle and diffuse, with the result that metabolite images may not be visually interpretable in the sense of a structural MRI. Therefore, the analysis of MRS data greatly benefits from comparison against a known reference signal.Since in vivo MRS measurements are dependent on the acquisition method used, the reference data must be acquired in an identical manner to that of the data under analysis. It is also necessary to take into account normal variations in metabolite concentrations; for example, variations in metabolite concentrations between tissue type, across different brain regions, and changes with age are well documented (1-14). Other reports have indicated differences in metabolite concentrations with gender, lateralization (15), intelligence quotient (IQ) (16), and associations with smoking and alcohol consumption (17). To account for these factors, results are commonly compared against data obtained from the same location in a group of control subjects matched to the study group under investigation. However, although many studies have reported metabolite values from normal control subjects, these values can rarely be used as the reference information for other investigations. For example, published values using single-voxel spectroscopy (SVS) measurements are limited to only a few brain regions, and acquisition parameters, analysis methods, and subject selection criteria, such as age, vary considerably, making it unlikely that existing data can be used as reference information for a new investigation. Additionally, a sufficient number of measurements must be acquired to accoun...
