Selected Publications Regarding Neurotrauma, Neuroimaging Methods or Attentional Functioning:

Friedman S.D., Brooks W.M., Jung R.E., Hart B.L., & Yeo R.A. (1998). Proton MR spectroscopic findings correspond to neuropsychological function in traumatic brain injury. AJNR Am J Neuroradiol, 19(10):1879-85.  PDF

Friedman S.D., Brooks W.M., Jung R.E., Chiulli S.J., Sloan J.H., Montoya B.T., Hart B.L., & Yeo R.A. (1999).Quantitative proton MRS predicts outcome after traumatic brain injury. Neurology, 22;52(7):1384-91.  PDF

Brooks, W.M., Friedman, S.D., & Gasparovic, C. (2001). Magnetic Resonance Spectroscopy in Traumatic Brain Injury, J. Head Trauma Rehabil, 16:149-64.

Gasparovic, C., Arfai, N., Smid, N ., & Feeney, D.M. (2001). Decrease and Recovery of N Acetylaspartate/Creatine in Rat Brain Remote from Focal Injury, J Neurotrauma, 18:241-6.

Vink, R., Mullins, P. G., Temple, M. D., Bao, W. & Faden, A. I. (2001). Small Shifts in Craniotomy Position in the Lateral Fluid Percussion Injury Model Are Associated with Differential Lesion Development. J Neurotrauma 18(8): 839-47.

Faden, A. I., Fox, G. B., Di, X., Knoblach, S. M., Cernak, I., Mullins, P., Nikolaeva, M. & Kozikowski, A. P. (2003). Neuroprotective and Nootropic Actions of a Novel Cyclized Dipeptide after Controlled Cortical Impact Injury in Mice. J Cereb Blood Flow Metab, 23(3): 355-63.
 
Phillips J.P., Devier D., Feeney D.: Rehabilitation Pharmacology. (2003). Journal of Head Trauma Rehabilitation, 18(4):342-356.

Zohar, O., Schreiber, S., Getslev, V., Schwartz, J. P., Mullins, P. G. & Pick, C. G. (2003). Closed-Head Minimal Traumatic Brain Injury Produces Long-Term Cognitive Deficits in Mice. Neuroscience 118(4): 949-55.

Mayer, A.R., Dorflinger, J., Seidenberg, M., and Rao, S.M. (2004). An event-related FMRI study of exogenous orienting: supporting evidence for the cortical basis of inhibition of return? Journal of Cognitive Neuroscience 16:7, 1962-1971.  PDF

Mayer, A.R., Dorflinger, J., Seidenberg, M., & Rao, S.M. (2004). Neural networks underlying endogenous and exogenous orienting in humans. NeuroImage 23:2. 534-41.  PDF

Mullins, P. G., Rowland, L. M., Jung R. E., & Sibbitt, W. L. Jr. (2005). A novel technique to study the brain's response to pain: proton magnetic resonance spectroscopy. Neuroimage 26(2): 642-6.

Gasparovic, C., Song, T., Devier, D., Bockholt, J., Caprihan, A., Mullins, P., Posse, S., Jung, R., & Morrison, L. (2006). The Use of Tissue Water as a Concentration Reference for Proton Spectroscopic Imaging, Magn Reson Med, 55(6):1219-26.

Mayer, A.R., Harrington, D., Adair, J., & Lee, R. (2006). The neural networks underlying endogenous auditory covert orienting and reorienting. NeuroImage, 30(3): 938-49. PDF

Phillips J.P. (2006). Pediatric Traumatic Brain and Spinal Cord Injury.  In Neurological Therapeutics, Principles and Practice, Noseworthy J (ed). Second edition.  Martin Dunitz Publishing.
 
Yeo R.A., Phillips J.P., Jung R.E., Brown A.J., Campbell R.C., & Brooks W.M. (2006). Magnetic Resonance Spectroscopy Detects Brain Injury and Predicts Cognitive Functioning in Children with Brain Injuries. Journal of Neurotrauma, 23(10):1427-1435. PDF

Lewine J.D., Davis J.T., Bigler E.D., Thoma R., Hill D., Funke M., Sloan J.H., Hall S., Orrison W.W. (2007). Objective documentation of traumatic brain injury subsequent to mild head trauma: multimodal brain imaging with MEG, SPECT, and MRI. J Head Trauma Rehabil. May-Jun;22(3):141-55. PDF

Mayer, A.R., Harrington, D., Adair, J., & Lee, R.. (in press). The neural networks underlying auditory exogenous facilitation and inhibition of return. Journal of Cognitive Neuroscience.  PDF

Mayer, A.R., Franco, A.R., Sanchez, N., Ling, J., & Canive, J. (in press). Head Motion in Neuropsychiatric Imaging Research: The Theory of Excessive Motion in Schizophrenia. Journal of the International Neuropsychological Society.  

Weers D.C., Brooks W.M., Phillips J.P., Campbell R.C., Petropoulos H., Jung R.E., Kernen S., Brown A., Hart B., Gasparovic C., Yeo R.A. (in press). Neurometabolic Abnormalities in Pediatric Traumatic Brain Injury: A Magnetic Resonance Spectroscopy Study. Brain.