Objective: The purpose of this study was to determine whether ¹H magnetic resonance spectroscopy (MRS) is a potential tool for the detection of microscopic diffuse axonal injury (DAI) and for the evaluation of functional status of patients with traumatic brain injury (TBI).

Method: Seven patients with severe TBI and fourteen normal control volunteers were examined. Image guided spectra of localized in vivo ¹H MRS were obtained from parietal white matter (PWM) and occipital gray matter (OGM) in which definite abnormality was not detected in MR imaging. The severity of TBI was evaluated by the initial Glasgow Coma Scale (GCS), and the functional status was evaluated by Functional Independence Measure (FIM) at the time of the MRS examination, approximately 2 months after onset.

Results: In PWM, the [N-acetylaspartate(NAA)/Creatine(Cr)] ratio was significantly lower, and the [Choline(Cho)/Cr] and [myo-Inositol(mI)/Cr] ratios were significantly higher in the patients with TBI than those of normal volunteers. There was no significant correlation between the ratios of metabolites and GCS scores. However, interestingly, a significant correlation between the [NAA/Cr] ratio in PWM and the FIM scores was observed.

Conclusion: We could conclude that decreased [NAA/Cr], increased [Cho/Cr], and increased [mI/Cr] ratios in PWM can be considered as markers for DAI. Localized ¹H MRS has a potential to be used for the detection of DAI in vivo and evaluation of functional status of the patients with TBI.

Objective: To identify the incidence and characteristics of language disorders in patients with traumatic brain injury (TBI), and to understand the differences of language disorder according to the degree and lesion of brain damage and the outcomes after proper language training programs.

Method: The subjects were 24 adult TBI patients. Seventeen patients with language disorder were examined with language disorder screening test. The characteristics of the language disorders were evaluated according to the degree and lesion site of the brain injury. Prognosis of the language disorders was studied. The tests were performed at the initiation and termination of the language treatment program.

Results: The incidence of language disorders was 91.7%. At the initial evaluation, all items showed a low rate of correct response, but at the final evaluation, the statistically significant improvement was noted in all items. There was no difference between moderate and severe brain damages at final evaluation. Focal lesion group revealed higher rate of correct response than diffuse lesion group on comprehension, expression, reading, and calculation at final evaluation.

Conclusion: The TBI patients showed diffuse language dysfunction on fluency, comprehension, expression, reading, writing, and calculation. But the majority of these patients showed satisfactory recovery, especially the focal brain lesion showed the better outcome. These patients with focal lesion were needed precise language evaluation and more intensive language treatment program.