Purpose/Introduction: Clinical Magnetic Resonance Spectroscopy (MRS) can be easily integrated into a common Magnetic Resonance Imaging (MRI) exam. Unfortunately, the duration of the overall exam increases significantly when both are taken, not only because of the acquisition time, but also due to the additional steps used for ensuring the outcome needed quality. For these reason, in the clinical practice the automatic MRI shimming is always assumed as the proper one in the sake of practicality and time saving. It is necessary to evaluate the non user dependent shimming spectra, in order to ensure MRS quantification techniques, since this can even modify the clinical interpretation. Subjects and Methods: H-1 MRS spectra were acquired in 10 healthy volunteers by a Siemens Essenza 1.5T. The voxels were acquired with the PRESS sequence in the basal ganglia of the right hemisphere. Signal-to-Noise Ratio (SNR) and Full Width at Half Maximum (FWHM) were analyzed as function of echo time and voxel size. Spectra were studied by jMRUI using the AMARES fitting algorithm. Results: It is observed for water, Cr, Cho, NAA, Glx, mI that FWHM is larger than the literature values, nevertheless, SNR follows the expected behavior. T2 was determined by varying TE. The T2 values of the above resonances match the literature ones taken into account the GM and WM content inside the voxel, which size was almost the half of the reported ones. Discussion/conclusion: Even with a large FWHM due to clinical routine conditions, the obtained relaxation times are in accordance with the literature values. These results were obtained with smaller voxel size than those shown in the literature and without user dependent shimming, and, a better SNR and T2 accordance was observed. TR dependence was unable to be observed due to the short T1 of the mentioned resonances and the limitations of the equipment.