Cognitive and physical training for the elderly: evaluating outcome efficacy by means of neurophysiological synchronization.

Recent neuroscientific research has demonstrated that both healthy and pathological aging induces alterations in the co-operative capacity of neuronal populations in the brain. Both compensatory and neurodegenerative mechanisms contribute to neurophysiological synchronization patterns, which provide a valuable marker for age-related cognitive decline. In this study, we propose that neuroplasticity-based training may facilitate coherent interaction of distant brain regions and consequently enhance cognitive performance in elderly people. If this is true, this would make neurophysiological synchronization a valid outcome measure to assess the efficacy of non-pharmacological interventions to prevent or delay age-related cognitive decline. The present study aims at providing an objective, synchronization-based tool to assess cognitive and/or physical interventions, adopting the notion of Relative Wavelet Entropy. This mathematical model employs a robust and parameter-free synchronization metric. By using data mining techniques, a distance value was computed for all participants so as to quantify the proximity of their individual profile to the mean group synchronization increase. In support of our hypothesis, results showed a significant increase in synchronization, for four electrode pairs, in the intervention group as compared to the active control group. It is concluded that the novel introduction of neurophysiological synchronization features could be used as a valid and reliable outcome measure; while the distance-based analysis could provide a reliable means of evaluating individual benefits.

[1]  Paige E. Scalf,et al.  Aerobic exercise training increases brain volume in aging humans. , 2006, The journals of gerontology. Series A, Biological sciences and medical sciences.

[2]  Francesco Rundo,et al.  Directionality of EEG synchronization in Alzheimer's disease subjects , 2009, Neurobiology of Aging.

[3]  E. Stein,et al.  A parametric manipulation of central executive functioning. , 2000, Cerebral cortex.

[4]  E. McAuley,et al.  Exercise training increases size of hippocampus and improves memory , 2011, Proceedings of the National Academy of Sciences.

[5]  P. Holcomb,et al.  Frontal and Parietal Components of a Cerebral Network Mediating Voluntary Attention to Novel Events , 2003, Journal of Cognitive Neuroscience.

[6]  S. Sigurdsson,et al.  Reliability of quantitative EEG features , 2007, Clinical Neurophysiology.

[7]  B. Biswal,et al.  Functional connectivity in the motor cortex of resting human brain using echo‐planar mri , 1995, Magnetic resonance in medicine.

[8]  S. Rombouts,et al.  Reduced resting-state brain activity in the "default network" in normal aging. , 2008, Cerebral cortex.

[9]  Ying-Zu Huang,et al.  Intermittent theta burst stimulation over ipsilesional primary motor cortex of subacute ischemic stroke patients: A pilot study , 2013, Brain Stimulation.

[10]  Edward E. Smith,et al.  Age-related vulnerability in the neural systems supporting semantic processing , 2013, Front. Aging Neurosci..

[11]  F. Collette,et al.  Alzheimer' Disease as a Disconnection Syndrome? , 2003, Neuropsychology Review.

[12]  Claudio Babiloni,et al.  Abnormal fronto‐parietal coupling of brain rhythms in mild Alzheimer's disease: a multicentric EEG study , 2004, The European journal of neuroscience.

[13]  A. McIntosh,et al.  Interpretation of Neuroimaging Data Based on Network Concepts , 2008, Brain Imaging and Behavior.

[14]  Xi Zhang,et al.  Altered spontaneous activity in Alzheimer's disease and mild cognitive impairment revealed by Regional Homogeneity , 2012, NeuroImage.

[15]  C. Bottino,et al.  Cognitive intervention in amnestic Mild Cognitive Impairment: A systematic review , 2012, Neuroscience & Biobehavioral Reviews.

[16]  Paul Panek,et al.  Integration of Cognitive and Physical Training in a Smart Home Environment for the Elderly People , 2010, MedInfo.

[17]  Magda Tsolaki,et al.  A Game-Like Interface for Training Seniors’ Dynamic Balance and Coordination , 2010 .

[18]  M. Albert Geriatric neuropsychology. , 1981, Journal of consulting and clinical psychology.

[19]  H. Adeli,et al.  Intrahemispheric, interhemispheric, and distal EEG coherence in Alzheimer’s disease , 2011, Clinical Neurophysiology.

[20]  M. Corbetta,et al.  Control of goal-directed and stimulus-driven attention in the brain , 2002, Nature Reviews Neuroscience.

[21]  Edward E. Smith,et al.  Age Differences in the Frontal Lateralization of Verbal and Spatial Working Memory Revealed by PET , 2000, Journal of Cognitive Neuroscience.

[22]  E. Basar,et al.  Wavelet entropy: a new tool for analysis of short duration brain electrical signals , 2001, Journal of Neuroscience Methods.

[23]  E. John,et al.  Decreased EEG synchronization in Alzheimer’s disease and mild cognitive impairment , 2005, Neurobiology of Aging.

[24]  M. Merzenich,et al.  Brain plasticity and functional losses in the aged: scientific bases for a novel intervention. , 2006, Progress in brain research.

[25]  C. Grady,et al.  Blood Oxygen Level-Dependent Signal Variability Is More than Just Noise , 2010, The Journal of Neuroscience.

[26]  Blanco,et al.  Time-frequency analysis of electroencephalogram series. , 1995, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.

[27]  Maximilian Reiser,et al.  Effects of aging on default mode network activity in resting state fMRI: Does the method of analysis matter? , 2010, NeuroImage.

[28]  Panagiotis D. Bamidis,et al.  Evaluating affective usability experiences of an exergaming platform for seniors , 2011, 2011 10th International Workshop on Biomedical Engineering.

[29]  Reisa A. Sperling,et al.  Executive function and instrumental activities of daily living in mild cognitive impairment and Alzheimer's disease , 2011, Alzheimer's & Dementia.

[30]  Cheryl L. Dahle,et al.  Regional brain changes in aging healthy adults: general trends, individual differences and modifiers. , 2005, Cerebral cortex.

[31]  Carl W. Cotman,et al.  Exercise builds brain health: key roles of growth factor cascades and inflammation , 2007, Trends in Neurosciences.

[32]  Jordi García-Ojalvo,et al.  Relating structural and functional anomalous connectivity in the aging brain via neural mass modeling , 2010, NeuroImage.

[33]  Arnaud Delorme,et al.  EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis , 2004, Journal of Neuroscience Methods.

[34]  Andreas Engvig,et al.  Effects of memory training on cortical thickness in the elderly , 2010, NeuroImage.

[35]  M. Corbetta,et al.  The Dynamical Balance of the Brain at Rest , 2011, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.

[36]  Christian Büchel,et al.  Training-Induced Brain Structure Changes in the Elderly , 2008, The Journal of Neuroscience.

[37]  Ilana S. Hairston,et al.  Environmental Enrichment Reduces Aβ Levels and Amyloid Deposition in Transgenic Mice , 2005, Cell.

[38]  C. Stam,et al.  EEG synchronization in mild cognitive impairment and Alzheimer's disease , 2003, Acta neurologica Scandinavica.

[39]  P. Bamidis,et al.  A review of physical and cognitive interventions in aging , 2014, Neuroscience & Biobehavioral Reviews.

[40]  O. Sporns,et al.  Complex brain networks: graph theoretical analysis of structural and functional systems , 2009, Nature Reviews Neuroscience.

[41]  H. Uylings,et al.  Neuroscience and Biobehavioral Reviews Parietal Cortex Matters in Alzheimer's Disease: an Overview of Structural, Functional and Metabolic Findings , 2022 .

[42]  M. Posner,et al.  Pathologies of brain attentional networks , 2000, Neuroscience & Biobehavioral Reviews.

[43]  S. Rombouts,et al.  Loss of ‘Small-World’ Networks in Alzheimer's Disease: Graph Analysis of fMRI Resting-State Functional Connectivity , 2010, PloS one.

[44]  Sharona M. Atkins,et al.  Memory enhancement in healthy older adults using a brain plasticity-based training program: A randomized, controlled study , 2006, Proceedings of the National Academy of Sciences.

[45]  M. Weiner,et al.  Neuroimaging markers for the prediction and early diagnosis of Alzheimer's disease dementia , 2011, Trends in Neurosciences.

[46]  Kristine Yaffe,et al.  A Cognitive Training Program Based on Principles of Brain Plasticity: Results from the Improvement in Memory with Plasticity‐based Adaptive Cognitive Training (IMPACT) Study , 2009, Journal of the American Geriatrics Society.

[47]  R. Cabeza,et al.  Hemispheric asymmetry and aging: right hemisphere decline or asymmetry reduction , 2002, Neuroscience & Biobehavioral Reviews.

[48]  Magda Tsolaki,et al.  A Web services-based exergaming platform for senior citizens: The long lasting memories project approach to e-health care , 2011, 2011 Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[49]  Charalampos Bratsas,et al.  Toward Emotion Aware Computing: An Integrated Approach Using Multichannel Neurophysiological Recordings and Affective Visual Stimuli , 2010, IEEE Transactions on Information Technology in Biomedicine.

[50]  R. Gillum,et al.  Neuroprotection and Neurodegeneration in Alzheimer's Disease: Role of Cardiovascular Disease Risk Factors, Implications for Dementia Rates, and Prevention with Aerobic Exercise in African Americans , 2012, International journal of Alzheimer's disease.

[51]  Panagiotis D. Bamidis,et al.  Designing a Computer-based Rehabilitation Solution for Older Adults: The Importance of Testing Usability , 2013, PsychNology J..

[52]  S. Resnick,et al.  Longitudinal Magnetic Resonance Imaging Studies of Older Adults: A Shrinking Brain , 2003, The Journal of Neuroscience.

[53]  Katherine E. Prater,et al.  Functional connectivity tracks clinical deterioration in Alzheimer's disease , 2012, Neurobiology of Aging.

[54]  Young-Min Park,et al.  Decreased EEG synchronization and its correlation with symptom severity in Alzheimer's disease , 2008, Neuroscience Research.

[55]  S. Leurgans,et al.  Functional Connectivity Variations in Mild Cognitive Impairment: Associations with Cognitive Function , 2011, Journal of the International Neuropsychological Society.

[56]  Richard S. Frackowiak,et al.  Evolution of source EEG synchronization in early Alzheimer's disease , 2013, Neurobiology of Aging.

[57]  D. Head,et al.  Differential vulnerability of anterior white matter in nondemented aging with minimal acceleration in dementia of the Alzheimer type: evidence from diffusion tensor imaging. , 2004, Cerebral cortex.

[58]  A. Dale,et al.  Thinning of the cerebral cortex in aging. , 2004, Cerebral cortex.