Мозг на пенсии. Научный взгляд на преклонный возраст
Шрифт:
Christensen, H., K. J. Anstey, L. S. Leach, A. J. Mackinnon, ‘Intelligence, Education, and the Brain Reserve Hypothesis’, in Craik, F. I. M., T. A. Salthouse (eds), The Handbook of Aging and Cognition, 3rd edition, Psychology Press, New York, 2010, 133–188.
Davis, S. W., N. A. Dennis, S. M. Daselaar, M. S. Fleck, R. Cabeza, ‘Qu'e Pasa? The Posterior – Anterior Shift in Aging’, Cerebral Cortex, 2008, 18(5): 1201–1209.
Dennis, N.A., R. Cabeza, ‘Neuroimaging of Healthy Cognitive Aging’, 2008, in Craik, F.I.M., T. A. Salthouse (eds), The Handbook of Aging and Cognition, 3rd edition, Psychology Press, New York, 2010, 1–54.
Dumas, J. A., P. A. Newhouse, ‘The Cholinergic Hypothesis of Cognitive Aging Revisited Again: cholinergic functional compensation’, Pharmacology Biochemistry & Behavior, 2011, 99(2): 254–261.
Fotenos, A. F., M. A. Mintun, A. Z. Snyder, J. C. Morris, R. L. Buckner, ‘Brain Volume Decline in Aging: evidence for a relation between socioeconomic status, preclinical Alzheimer disease, and reserve’, Archives of Neurology & Psychiatry, 2008, 65(1): 113–120.
Fusco, S., C. Ripoli, M. V. Podda, et al., ‘A Role for Neuronal cAMP Responsive-Element Binding (CREB)-1 in Brain Responses to Calorie Restriction’, Proceedings of the National Academy of Sciences of the USA, 2012, 109(2): 621–626.
Galvan, V., K. Jin, ‘Neurogenesis in the Aging Brain’, Journal of Clinical Interventions in Aging, 2007, 2 (4): 605–610.
Guttman, M., ‘The Aging Brain’, USC Health Magazine, 2001, Spring.
Penke, L., S. Mu~noz Maniega, C. Murray, A. J. Gow, M. C. Vald`ez Hern'andez, J. D. Clayden, J. M. Starr, J. M. Wardlaw, M. E. Bastin, I. J. Deary, ‘A General Factor of Brain White Matter Integrity Predicts Information Processing Speed in Healthy Older People’, Journal of Neuroscience, 2010, 30(22): 7569–7574.
Resnick, S. M., D. L. Pham, M. A. Kraut, A. B. Zonderman, C. Davatzikos, ‘Longitudinal Magnetic Resonance Imaging Studies of Older Adults: a shrinking brain’, Journal of Neuroscience, 2003, 23(8): 3295–3301.
Resnick, S. M., J. Sojkova, Y. Zhou, Y. An, W. Ye, D. P. Holt, R. F. Dannals, C. A. Mathis, W. E. Klunk, L. Ferrucci, M. A. Kraut, D. F. Wong, ‘Longitudinal Cognitive Decline Is Associated with Fibrillar Amyloid-Beta Measured by [11C]PiB’, Neurology, 2010, 74(10): 807–815.
Salthouse, T. A., ‘Neuroanatomical Substrates of Age-Related Cognitive Decline’, Psychological Bulletin, 2011, 137: 753–784.
Shors, T. J., G. Miesegaes, A. Beylin, M. Zhao, T. Rydel, E. Gould, ‘Neurogenesis in the Adult Is Involved in the Formation of Trace Memories’, Nature, 2001, 410 (6826): 372–376. Erratum in Nature, 414(6866): 938.
Sowell, E. R, P. M. Thompson, A. W. Toga, ‘Mapping Changes in the Human Cortex throughout the Span of Life’, Neuroscientist, 2004, 10: 372–392.
Villeda, S. A., J. Luo, K. I. Mosher, et al., ‘The Ageing Systemic Milieu Negatively Regulates Neurogenesis and Cognitive Function’, Nature, 2011, 477(7362): 90–94.
Глава 4
Baker, L. D., L. L. Frank, K. Foster-Schubert, et al., ‘Effects of Aerobic Exercise on Mild Cognitive Impairment: a controlled trial’, Archives of Neurology and Psychiatry, 2010, 67(1): 71–79.
Belleville, S. ‘Cognitive Training for Persons with Mild Cognitive Impairment’, International Psychogeriatrics, 2008, 20: 57–66.
Binnewijzend, M. A., M. M. Schoonheim, E. Sanz-Arigita, A. M. Wink, W. M. van der Flier, N. Tolboom, S. M. Adriaanse, J. S. Damoiseaux, P. Scheltens, B.N. van Berckel, F. Barkhof, ‘Resting-State fMRI Changes in Alzheimer’s Disease and Mild Cognitive Impairment’, Neurobiology of Aging, Sept. 2012, 33(9): 2018–2028.
Buschert, V., A. L. Bokde, H. Hampel, ‘Cognitive Intervention in Alzheimer Disease’, Nature Reviews Neurology, 2010, 6(9): 508–517.
Carlson, M. C., K. I. Erickson, A. F. Kramer, et al., ‘Evidence for Neurocognitive Plasticity in At-Risk Older Adults: the Experience Corps Program’, Journals of Gerontology, Series A: Biological Sciences and Medical Sciences, 2009, 64(12): 1275–1282.
Cherbuin, N., P. Sachdev, K. J. Anstey, ‘Neuropsychological Predictors of Transition from Healthy Cognitive Aging to Mild Cognitive Impairment: the PATH through life study’, American Journal of Geriatric Psychiatry, 2010, 18(8): 723–733.
Costafreda, S. G., I. D. Dinov, Z. Tu, et al., ‘Automated Hippocampal Shape Analysis Predicts the Onset of Dementia in Mild Cognitive Impairment’, NeuroImage, 2011, 56(1): 212–219.
Cui, Y., B. Liu, S. Luo, et al., ‘Identification of Conversion from Mild Cognitive Impairment to Alzheimer’s Disease Using Multivariate Predictors’, PLoS One, 2011, 6(7): e21896 [ePub].
Erk, S., A. Spottke, A. Meisen, et al., ‘Evidence of Neuronal Compensation during Episodic Memory in Subjective Memory Impairment’, Archives of General Psychiatry, 2011, 68(8): 845–852.
Ferreira, L. K., B. S. Diniz, O. V. Forlenza, et al., ‘Neurostructural Predictors of Alzheimer’s dDisease: a meta-analysis of VBM studies’, Neurobiology of Aging, 2011, 32(10): 1733–1741.
Gates, N. J., P. S. Sachdev, M. A. Fiatarone Singh, M. Valenzuela, ‘Cognitive and Memory Training in Adults at Risk of Dementia: a systematic review’, BMC Geriatrics, 2011, 11: 55.
Geda, Y. E., H. M. Topazian, R. A. Lewis, et al., ‘Engaging in Cognitive Activities, Aging, and Mild Cognitive Impairment: a population-based study’, Journal of Neuropsychiatry and Clinical Neurosciences, 2011, 23(2): 149–54.