Objective
To determine the appropriate time points to start regular exercise which could reduce age-related anxiety and impaired social behavior.
Methods
For this study, 8-week-old male Wistar rats were divided into three groups: no exercise (NoEX), short-term exercise (S-Ex), and long-term exercise (L-Ex) groups. S-Ex-group rats started treadmill exercise at 12 months of age, while L-Ex rats started from at 2 months of age. Exercise rats were forced to walk on the treadmill three times per week, with 1- to 2-day intervals for 10 minutes during the first 2 weeks, at 10 m/min until 17 months of age, and at 8 m/min thereafter. At 19 months of age, behavioral tests were performed to assess the effects of exercise on age-induced behavioral change as well as quantitative polymerase chain reaction were done to uncover the mechanism behind the behavioral changes.
Results
Anxiety-like behavior was improved by long-term exercise. Additionally, rats belonging to the S-Ex and L-Ex groups showed improved social behavior and increased curiosity about interesting objects. The qPCR data showed that treadmill exercise suppressed the expression of immediate-early genes in the prefrontal cortex of the aged rats.
Conclusion
This study suggests that long-term exercise represses early response genes, and in this way, it increases resistance to stress, diminishes anxiety-related behavior, and improves social behavior. These findings underscore the need to consider appropriate time to start exercise to prevent stress induced anxiety related behavior.

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  PLOS ONE.2015; 10(11): e0141417.     CrossRef
• Enhancing decision-making and cognitive impulse control with transcranial direct current stimulation (tDCS) applied over the orbitofrontal cortex (OFC): A randomized and sham-controlled exploratory study
  Julien Ouellet, Alexander McGirr, Frederique Van den Eynde, Fabrice Jollant, Martin Lepage, Marcelo T. Berlim
  Journal of Psychiatric Research.2015; 69: 27.     CrossRef
• Transcranial direct current stimulation (tDCS) for improving aphasia in patients with aphasia after stroke
  Bernhard Elsner, Joachim Kugler, Marcus Pohl, Jan Mehrholz
  Cochrane Database of Systematic Reviews.2015;[Epub]     CrossRef
• Effects of transcranial direct current stimulation (tDCS) on cognition, symptoms, and smoking in schizophrenia: A randomized controlled study
  Robert C. Smith, Sylvia Boules, Sanela Mattiuz, Mary Youssef, Russell H. Tobe, Henry Sershen, Abel Lajtha, Karen Nolan, Revital Amiaz, John M. Davis
  Schizophrenia Research.2015; 168(1-2): 260.     CrossRef
• Transcranial direct current stimulation (tDCS) of frontal cortex decreases performance on the WAIS-IV intelligence test
  Kristin K. Sellers, Juliann M. Mellin, Caroline M. Lustenberger, Michael R. Boyle, Won Hee Lee, Angel V. Peterchev, Flavio Fröhlich
  Behavioural Brain Research.2015; 290: 32.     CrossRef
• Longitudinal Neurostimulation in Older Adults Improves Working Memory
  Kevin T. Jones, Jaclyn A. Stephens, Mahtab Alam, Marom Bikson, Marian E. Berryhill, Andrea Antal
  PLOS ONE.2015; 10(4): e0121904.     CrossRef
• Double dissociation of working memory and attentional processes in smokers and non-smokers with and without nicotine
  Jessica Grundey, Rosa Amu, Géza Gergely Ambrus, Georgi Batsikadze, Walter Paulus, Michael A. Nitsche
  Psychopharmacology.2015; 232(14): 2491.     CrossRef
• Modulating Hippocampal Plasticity withIn VivoBrain Stimulation
  Joyce G. Rohan, Kim A. Carhuatanta, Shawn M. McInturf, Molly K. Miklasevich, Ryan Jankord
  The Journal of Neuroscience.2015; 35(37): 12824.     CrossRef
• The Uncertain Outcome of Prefrontal tDCS
  Sara Tremblay, Jean-François Lepage, Alex Latulipe-Loiselle, Felipe Fregni, Alvaro Pascual-Leone, Hugo Théoret
  Brain Stimulation.2014; 7(6): 773.     CrossRef
• Connectivity between Right Inferior Frontal Gyrus and Supplementary Motor Area Predicts After-Effects of Right Frontal Cathodal tDCS on Picture Naming Speed
  Charlotte Rosso, R. Valabregue, C. Arbizu, S. Ferrieux, P. Vargas, F. Humbert, Y. Attal, A. Messé, C. Zavanone, S. Meunier, L. Cohen, C. Delmaire, A. Thielscher, D.M. Herz, H.R. Siebner, Y. Samson, S. Lehéricy
  Brain Stimulation.2014; 7(1): 122.     CrossRef
• Transcranial Direct Current Stimulation (tDCS): Modulation of Executive Function in Health and Disease
  Rani A. Sarkis, Navneet Kaur, Joan A. Camprodon
  Current Behavioral Neuroscience Reports.2014; 1(2): 74.     CrossRef
• Effects of tDCS on executive function in Parkinson's disease
  Deniz Doruk, Zachary Gray, Gabriela L. Bravo, Alvaro Pascual-Leone, Felipe Fregni
  Neuroscience Letters.2014; 582: 27.     CrossRef
• Modulation of Resting State Functional Connectivity of the Motor Network by Transcranial Pulsed Current Stimulation
  Chandler Sours, Gad Alon, Steve Roys, Rao P. Gullapalli
  Brain Connectivity.2014; 4(3): 157.     CrossRef
• Accuracy and Confidence of Visual Short-Term Memory Do Not Go Hand-In-Hand: Behavioral and Neural Dissociations
  Silvia Bona, Juha Silvanto, Katsumi Watanabe
  PLoS ONE.2014; 9(3): e90808.     CrossRef
• Acute working memory improvement after tDCS in antidepressant-free patients with major depressive disorder
  Janaina F. Oliveira, Tamires A. Zanão, Leandro Valiengo, Paulo A. Lotufo, Isabela M. Benseñor, Felipe Fregni, André R. Brunoni
  Neuroscience Letters.2013; 537: 60.     CrossRef
• Behavioral effects of transcranial Direct Current Stimulation (tDCS) induced dorsolateral prefrontal cortex plasticity in alcohol dependence
  Morgana Croce da Silva, Catarine Lima Conti, Jaisa Klauss, Luana Gaburro Alves, Henrique Mineiro do Nascimento Cavalcante, Felipe Fregni, Michael A. Nitsche, Ester Miyuki Nakamura-Palacios
  Journal of Physiology-Paris.2013; 107(6): 493.     CrossRef

Objective
To investigate the short term effects of prefrontal transcranial direct current stimulation (tDCS) in healthy older adults aged more than 65 years by means of verbal and visuospatial working memory tasks. Method Twenty four healthy older adults (14 males and 10 females, age range: 65-78 years old) were enrolled in this study. A double-blind study was conducted. The subjects underwent sham or anodal tDCS over the left prefrontal cortex (F3 in the international 10-20 EEG system). DC was delivered for 30 minutes at 2 mA with 25 cm² saline- soaked sponge electrodes. A cathode electrode was applied to the left arm. Before and after tDCS, the subjects performed 2-back verbal working memory and visuospatial memory tasks. The rates of improvement of the accuracy and the reaction time were analyzed. Results On the 2-back verbal working memory tasks, the verbal working memory accuracy was improved in the real group compared with that of the sham group. On visuospatial working memory task, the working memory accuracy and reaction time were not improved in either the real group or the sham group. Conclusion The results showed beneficial effects of noninvasive anodal tDCS on the cognitive function in healthy older adults. We suggest that tDCS induces functional changes on the left prefrontal cortex, and it improves the age-related cognitive impairment in the healthy elderly population.

Objective: To investigate the effect of repetitive transcranial magnetic stimulation (rTMS) applied over the left prefrontal cortex on the enhancement of verbal working memory in healthy persons. Method: High frequency (10 Hz) rTMS was applied over the left prefrontal cortex with the intensity of 100% resting motor threshold (RMT). A 3-back verbal working memory task was administered before, during (after applying 500 and 1,000 pulses, respectively), and 30 minutes after real or sham rTMS. Results: Real rTMS, compared with sham stimulation, significantly improved working memory performance. Accuracy of response increased significantly after applying 1,000 pulses of real rTMS (p＜0.05). This effect maintained for 30 minutes after completion of stimulation (p＜0.05). The error rate and reaction time did not change with rTMS. There was no noticeable side effect during or after rTMS. Conclusion: 1,000 pulses of 10 Hz rTMS administered to the left prefrontal cortex with the intensity of 100% RMT have positive impact on verbal working memory in healthy persons. Further study is necessary to address this effect of rTMS in patients with cognitive dysfunction. (J Korean Acad Rehab Med 2008; 32: 501-505)

Purpose
To investigate the brain areas related with the deficit in visuospatial attention in patients with traumatic brain injury (TBI) using functional MRI (fMRI). Method: Twenty TBI and fifteen normal subjects were enrolled. The endogenous visuospatial attention task was used as an activation paradigm during fMRI. FMRI was performed on a 3T ISOL Forte scanner. Thirty slices were acquired using a single-shot EPI sequences (TR/TE=3000/ 30 ms, Flip angle 70^o, FOV=220 mm, 64⁓64 matrix, slice thickness 4 mm). The accuracy and reaction time to the attention task were measured during fMRI. Imaging data were analyzed using SPM-99 software. Results: The ratio of accurate responses was lower (p＜0.01)and the average reaction time was slower (p＜0.01) in the TBI group than the normal group. The fMRI analysis showed more activation in the bilateral prefrontal cortices (the middle and inferior frontal gyri) and less activation in the cingulate gyrus, medial frontal lobe, bilateral temporo- occipital areas, and cerebellum in the TBI group compared with the normal group.Conclusion: In TBI patients, impaired visuospatial attention might be resulted from the decreased activity of the cingulate, medial frontal, and temporo-occipital regions accompanied with compensatory hyperactivation of the prefrontal cortex. (J Korean Acad Rehab Med 2004; 28: 436-443)