References
- Ryan LM, Warden DL. Post concussion syndrome. International Reviews in Psychiatry 2003; 15: 310–316
- Levin HS, Mendelsohn D, Lilly MA, Yeakley J, Song J, Scheibel RS, Harward H, Fletcher JM, Kufera JA, Davidson KC, et al. Magnetic resonance imaging in relation to functional outcome of pediatric closed head injury: A test of the Ommaya-Gennarelli model. Neurosurgery 1997; 40: 432–440, discussion 440–441
- Brown SJ, Fann JR, Grant I. Postconcussional disorder: Time to acknowledge a common source of neurobehavioral morbidity. Journal of Neuropsychiatry and Clinical Neuroscience 1994; 6: 15–22
- Jane JA, Steward O, Gennarelli T. Axonal degeneration induced by experimental noninvasive minor head injury. Journal of Neurosurgery 1985; 62: 96–100
- Ross DT, Graham DI, Adams JH. Selective loss of neurons from the thalamic reticular nucleus following severe human head injury. Journal of Neurotrauma 1993; 10: 151–165
- Natale JE, Cheng Y, Martin LJ. Thalamic neuron apoptosis emerges rapidly after cortical damage in immature mice. Neuroscience 2002; 112: 665–676
- Steriade M, Jones EG, McCormick D. Thalamus. Elsevier, Amsterdam; New York 1997
- O’Leary DD, Schlaggar BL, Tuttle R. Specification of neocortical areas and thalamocortical connections. Annual Reviews in Neuroscience 1994; 17: 419–439
- Coles JP. Regional ischemia after head injury. Current Opinions in Critical Care 2004; 10: 120–125
- Bonne O, Gilboa A, Louzoun Y, Kemp-Sherf O, Katz M, Fishman Y, Ben-Nahum Z, Krausz Y, Bocher M, Lester H, et al. Cerebral blood flow in chronic symptomatic mild traumatic brain injury. Psychiatry Research 2003; 124: 141–152
- Bryan RM, Jr, Cherian L, Robertson C. Regional cerebral blood flow after controlled cortical impact injury in rats. Anesthesia and Analgesia 1995; 80: 687–695
- Kochanek PM, Marion DW, Zhang W, Schiding JK, White M, Palmer AM, Clark RS, O'Malley ME, Styren SD, Ho C, et al. Severe controlled cortical impact in rats: Assessment of cerebral edema, blood flow, and contusion volume. Journal of Neurotrauma 1995; 12: 1015–1025
- Forbes ML, Hendrich KS, Kochanek PM, Williams DS, Schiding JK, Wisniewski SR, Kelsey SF, DeKosky ST, Graham SH, Marion DW, et al. Assessment of cerebral blood flow and CO2 reactivity after controlled cortical impact by perfusion magnetic resonance imaging using arterial spin-labeling in rats. Journal of Cerebral Blood Flow Metabolism 1997; 17: 865–874, [published erratum appears in Journal of Cerebral Blood Flow Metabolism 1997;17:1263]
- Dixon CE, Kochanek PM, Yan HQ, et al. One-year study of spatial memory performance, brain morphology, and cholinergic markers after moderate controlled cortical impact in rats. Journal of Neurotrauma 1999; 16: 109–122
- Dietrich WD, Alonso O, Busto R, Prado R, Dewanjee S, Dewanjee MK, Ginsberg MD, et al. Widespread hemodynamic depression and focal platelet accumulation after fluid percussion brain injury: A double-label autoradiographic study in rats. Journal of Cerebral Blood Flow Metabolism 1996; 16: 481–489
- Kochanek PM, Hendrich KS, Dixon CE, Schiding JK, Williams DS, Ho C. Cerebral blood flow at one year after controlled cortical impact in rats: Assessment by magnetic resonance imaging. Journal of Neurotrauma 2002; 19: 1029–1037
- Martirosian P, Klose U, Mader I, Schick F. FAIR true-FISP perfusion imaging of the kidneys. Magnetic Resonance Medicine 2004; 51: 353–361
- Grossman E, Chen Q, An J. Measurement of deep gray matter perfusion using a segmented true FISP ASL method at 3T. ISMRM, Berlin 2007
- Buxton RB, Frank LR, Wong EC, Siewert B, Warach S, Edelman RR. A general kinetic model for quantitative perfusion imaging with arterial spin labeling. Magnetic Resonance Medicine 1998; 40: 383–396
- Yang Y, Frank JA, Hou L, Ye FQ, McLaughlin AC, Duyn JH. Multislice imaging of quantitative cerebral perfusion with pulsed arterial spin labeling. Magnetic Resonance Medicine 1998; 39: 825–832
- Rath JF, Langenbahn DM, Simon D, Sherr RL, Fletcher J, Diller L. The construct of problem solving in higher level neuropsychological assessment and rehabilitation. Archives of Clinical Neuropsychology 2004; 19: 613–635
- Lezak MD. Neuropsychological assessment3rd. Oxford University Press, New York 2004
- Erlanger DM, Kaushik T, Broshek D, Freeman J, Feldman D, Festa J. Development and validation of a web-based screening tool for monitoring cognitive status. Journal of Head Trauma Rehabilitation 2002; 17: 458–476
- Thurman D, Alverson C, Dunn K, Guerrero J, Sniezek J. Traumatic brain injury in the United States: A public health perspective. Journal of Head Trauma Rehabilitation 1999; 14: 602–615
- Kushner DS. Mild traumatic brain injury. Archives of Internal Medicine 1998; 158: 1617–1624
- Kim SG. Quantification of relative cerebral blood flow change by flow-sensitive alternating inversion recovery (FAIR) technique: Application to functional mapping. Magnetic Resonance Medicine 1995; 34: 293–301
- Kwong KK, Chesler DA, Weisskoff RM, Donahue KM, Davis TL, Ostergaard L, Campbell TA, Rosen BR. MR perfusion studies with T1-weighted echo planar imaging. Magnetic Resonance Medicine 1995; 34: 878–887
- Weiskoff R, Cohen M. Echo planar imaging: Technology and techniques. Magnetic Resonance Imaging2nd, DD Stark, WJ Bradley. CV Mosby Publications, St Louis 1992; 125–157
- Ichimi K, Kuchiwaki H, Inao S, Shibayama M, Yoshida J. Cerebral blood flow regulation under activation of the primary somatosensory cortex during electrical stimulation of the forearm. Neurology Research 1999; 21: 579–584
- Bouma GJ, Muizelaar JP, Stringer WA, Choi SC, Fatouros P, Young HF. Ultra-early evaluation of regional cerebral blood flow in severely head-injured patients using xenon-enhanced computerized tomography. Journal of Neurosurgery 1992; 77: 360–368
- Bramlett HM, Dietrich WD, Green EJ. Secondary hypoxia following moderate fluid percussion brain injury in rats exacerbates sensorimotor and cognitive deficits. Journal of Neurotrauma 1999; 16: 1035–1047
- Abdel-Dayem HM, Abu-Judeh H, Kumar M, Atay S, Naddaf S, El-Zeftawy H, Luo JQ. SPECT brain perfusion abnormalities in mild or moderate traumatic brain injury. Clinical Nuclear Medicine 1998; 23: 309–317
- Nakamizo A, Inamura T, Amano T, Inoha S, Tokuda K, Yasuda O, Ikezaki K, Fukui M. Decreased thalamic metabolism without thalamic magnetic resonance imaging abnormalities following shearing injury to the substantia nigra. Journal of Clinical Neuroscience 2002; 9: 685–688
- Van der Werf YD, Witter MP, Uylings HB, Jolles J. Neuropsychology of infarctions in the thalamus: A review. Neuropsychologia 2000; 38: 613–627
- Shim YS, Kim JS, Shon YM, Chung YA, Ahn KJ, Yang DW. A serial study of regional cerebral blood flow deficits in patients with left anterior thalamic infarction: Anatomical and neuropsychological correlates. Journal of Neurological Science 2008; 266: 84–91
- Salmond CH, Chatfield DA, Menon DK, Pickard JD, Sahakian BJ. Cognitive sequelae of head injury: Involvement of basal forebrain and associated structures. Brain 2005; 128: 189–200