تعداد نشریات | 41 |
تعداد شمارهها | 1,114 |
تعداد مقالات | 9,535 |
تعداد مشاهده مقاله | 17,209,561 |
تعداد دریافت فایل اصل مقاله | 12,042,091 |
تاثیر tDCS روی OFC نیمکره راست در عملکرد اجرایی تصمیم گیری پرخطر و ریسک پذیری | ||
عصب روان شناسی | ||
مقاله 4، دوره 6، شماره 20، خرداد 1399، صفحه 47-62 اصل مقاله (213.49 K) | ||
نوع مقاله: مقاله پژوهشی | ||
شناسه دیجیتال (DOI): 10.30473/clpsy.2020.51981.1529 | ||
نویسندگان | ||
فرزانه پولادی1؛ مسعود باقری* 2؛ قاسم عسکری زاده3 | ||
1دانشجوی دکتری روانشناسی، دانشگاه شهید باهنر کرمان، کرمان، ایران. | ||
2دانشیار روانشناسی، دانشگاه شهید باهنر کرمان، کرمان، ایران. | ||
3استادیار روانشناسی، دانشگاه شهید باهنر کرمان، کرمان، ایران. | ||
چکیده | ||
تصمیم گیری بخشی از کنترل شناختی است که در ارزیابی خواسته ها نقش اساسی دارد. پژوهش حاضر به منظور بررسی تاثیرات tDCS روی ناحیه مغزی OFC نیمکره راست در تصمیم گیری پرخطر و ریسک پذیری انجام شد. روش: مطالعه حاضر از نوع مطالعه آزمایشی یک سو کور بود که روی 30 فرد بزرگسال سالم انجام شد. در این مطالعه افراد به تصادف در دو گروه آزمایشی و شم قرار گرفتند. در گروه آزمایشی تحریک آندیOFC نیمکره راست و تحریک کاتدی DLPFC نیمکره چپ در حدود 2 میلی آمپر اجرا شد. ابزارهای مورد استفاده نسخه های کامپیوتری آزمون بارت و آزمون آیوا برای بررسی تصمیم گیری پرخطر و ریسک پذیری بودند. داده ها با استفاده از آزمون کوواریانس تک متغیره(آنکوا) مورد تجزیه و تحلیل قرار گرفتند. یافته ها: نتایج بیانگر تفاوت معنادار بین دو گروه آزمایش و کنترل در آزمون بارت(05/0 | ||
کلیدواژهها | ||
نیمکره راست؛ تصمیمگیری پرخطر؛ ریسکپذیری | ||
عنوان مقاله [English] | ||
Influence of tDCS on right hemisphere OFC on executive performance of high risk decision making and risk taking | ||
نویسندگان [English] | ||
farzaneh pouladi1؛ masood bagheri2؛ ghasem askarizadeh3 | ||
1PhD Student in Psychology,Shahid Bahonar University of Kerman, Keerman, Iran. | ||
2Assistant professor of Psychology,Shahid Bahonar University of Kerman, Keerman, Iran. | ||
3Associate professor of Psychology,Shahid Bahonar University of Kerman, Keerman, Iran. | ||
چکیده [English] | ||
Aim: Decision-making is part of the cognitive control that plays a key role in the evaluation of desires. The present study was performed to investigate the effects of tDCS on the left hemisphere DLPFC brain region in high-risk decision making and risk-taking. Method: The study was a single-blind experimental study performed on 30 healthy adults. In this study, subjects were randomly divided into two experimental and sham groups. In the experimental group, anodal stimulation over the right hemisphere OFC and cathodal stimulation over the left DLPFC was performed at 2 mA. The tasks used were computer versions of Balloon Analogue Risk Task(BART) and Iowa Gambling Task(IGT) for evaluating high-risk decision making and risk-taking. Data were analyzed using a one-way ANCOVA test. Results: Results showed a significant difference between the experimental and control groups in the Bart test(P | ||
کلیدواژهها [English] | ||
tDCS, OFC, right hemisphere, high risk decision making, risk taking | ||
سایر فایل های مرتبط با مقاله
|
||
مراجع | ||
واقف، ل، بافنده قراملکی، ح، سلطان یمارگانی، ف.(1398). اثربخشی تحریک الکتریکی مستقیم فراجمجمهای مغز بر زمان واکنش و تصمیمگیری پرخطر در افراد مبتلا به افسردگی. فصلنامه علمی ـ پژوهشی عصب روانشناسی، 5(18)، 74-57. فتاحی اندبیل، الف، صابری، ه، کاظمی کواکی، الف.(1397). اثربخشی بازی درمانی گروهی شناختی رفتاری و تحریک الکتریکی فراجمجمه ای مغز بر کارکردهای اجرایی حافظه فعال و بازداری پاسخ کودکان دارای اختلال بیش فعالی/نقص توجه. فصلنامه علمی ـ پژوهشی عصب روانشناسی. 4(14)، 90-73. Bechara, A., Damasio, H., Tranel, D., & Damasio, A.R.(2005). The Iowa Gambling Task and the somatic marker hypothesis: some questions and answers. Trends in Cognitive Sciences, 9(4), 159-62. Berryhill, M.E., & Jones, K.T.(2012). tDCS selectively improves working memory in older adults with more education. Neuroscience letters, 521(2),148-51. Betsch, T.(2005). Preference theory: an affect-based approach to recurrent decision making. In: T. Betsch & S. Haberstroh,(Eds). The routines of decision making. Mahwah, N.J: Lawrence Erlbaum Associates, p. 39–65. Boggio, P.S., Rocha, R.R., da Silva, M.T., & Fregni, F.(2008). Differential modulatory effects of transcranial direct current stimulation on a facial expression go-no-go task in males and females. Neurosci Lett, 447(2-3),101-5. Butler, T., Pan, H., Imperato-McGinley, J., Voyer, D., Cunningham-Bussel, A.C. & et al.(2007). A network approach to fMRI condition-dependent cognitive activation studies as applied to understanding sex differences. Clinical Neuroscience Research, 6(6), 391-8. Cano-Ramı´rez, H., & Hoffman, K.L.(2017). Activation of the orbitofrontal and anterior cingulate cortices during the expression of a naturalistic compulsive-like behavior in the rabbit. Behav Brain Res, 320, 67–74. Clark, L., Cools, R., & Robbins, T.W.(2004). The neuropsychology of ventral prefrontal cortex: decision-making and reversal learning. Brain Cogn, 55, 41-53. Coffman, B.A., Clark, V.P., & Parasuraman, R.(2014). Battery powered thought: enhancement of attention, learning, and memory in healthy adults using transcranial direct current stimulation. Neuroimage, 85(3), 895-908. Coutlee, C.G., & Huettel, S.A.(2012). The functional neuroanatomy of decision making: prefrontal control of thought and action. Brain research, 1428, 3-12. Dong, G., Hu, Y., Lin, X., & Lu, Q.(2013). What makes Internet addicts continue playing online even when faced by severe negative consequences? Possible explanations from an fMRI study. Biological psychology, 94, 282-9. Dong, G., Lin, X., & Potenza, M.N.(2015). Decreased functional connectivity in an executive control network is related to impaired executive function in Internet gaming disorder. Progress in neuro-psychopharmacology & biological psychiatry, 57, 76-85. Durston, S., Tottenham, N.T., Thomas, K.M., Davidson, M.C., Eigsti, I-M., Yang, Y. & et al.(2003). Differential patterns of striatal activation in young children with and without ADHD. Biologicalpsychiatry, 53(10), 871-8. Ekhtiari, H., & Behzadi, A.(2001). Evaluation of risk full decision making: Evidence of transcultural differences. Journal of new cognitive sciences, 3(4), 36-48. Ekhtiari, H., & Behzadi, A. Which one has negative effect on us? Investigating the risky decision making strategies by AIWA gambling test. . J Cogn Sci. 2007;6(3-4): 17-25 Floden, D., Alexander, M.P., Kubu, C.S., Katz, D., & Stuss, D.T.(2008). Impulsivity and risk-taking behavior in focal frontal lobe lesions. Neuropsychologia, 46(1), 213-23. Fregni, F, Marcolin, M.A, Myczkowski, M., Amiaz, R, Hasey, G. & et al.(2006). Predictors of antidepressant response in clinical trials of transcranial magnetic stimulation. Int J Neuropsychopharmacol, 9(6), 641-54. Gansler, D.A., Jerram, M.W., Vannorsdall.,T.D., & Schretlen, D.J.(2011). Does the iowa gambling task measure executive function? Arch Clin Neuropsychol, 26(8), 706-17. Gazzaniga, M.S.(2014). Handbook of cognitive neuroscience. Springer. Gorini, A., Lucchiari, C., Russell-Edu, W., & Pravettoni, G.(2014). Modulation of risky choices in recently abstinent dependent cocaine users: a transcranial direct-current stimulation study. Frontiers in human neuroscience, 8, 661. Hunt, M.K., Hopko, D.R., Bare, R., Lejuez, C.W., & Robinson, E.V.(2005). Construct validity of the Balloon Analog Risk Task(BART): associations with psychopathy and impulsivity. Assessment, 12(4), 416-28. Jollant, F., Lawrence, N.S., Olie, E., O'Daly, O., Malafosse, A & et al.(2010). Decreased activation of lateral orbitofrontal cortex during risky choices under uncertainty is associated with disadvantageous decision-making and suicidal behavior. Neuroimage, 51(3), 1275-81. Kable, J.W., & Glimcher, P.W.(2009). The neurobiology of decision: consensus and controversy. Neuron, 63, 733-745. Kohls, G., Perino, M.T., Taylor, J.M., Madva, E.N., Cayless, S.J. & et al(2013). The nucleus accumbens is involved in both the pursuit of social reward and the avoidance of social punishment. Neuropsychologia, 51, 2062– 2069. Krain, A.L., Wilson, A.M., Arbuckle, R., Castellanos, F.X., & Milham, M.P.(2006). Distinct neural mechanisms of risk and ambiguity: a meta-analysis of decision-making. NeuroImage, 32(1), 477-84. Kringelbach, M.L., & Rolls, E.T.(2004). The functional neuroanatomy of the human orbitofrontal cortex: evidence from neuroimaging and neuropsychology. Prog. Neurobiol, 72, 341-372. Kuo, M.F., & Nitsche, M.A.(2012). Effects of transcranial electrical stimulation on cognition. Clin EEG Neurosci, 43(3):192-9. Li, C.W., Chen, J.H., & Tsai, C.G.(2015). Listening to music in a risk-reward context: The roles of the temporoparietal junction and the orbitofrontal/insular cortices in reward-anticipation, reward-gain, and reward-loss. Brain research, 1629, 160-70. Luft, C.D.B., Zioga, I., Banissy, M.J., & Bhattacharya, J.(2017). Relaxing learned constraints through cathodal tDCS on the left dorsolateral prefrontal cortex. Scientific Reports, 7(1), 2916. Malloy-Diniz, L., Fuentes, D., Leite, W.B., Correa, H., & Bechara, A.(2007). Impulsive behavior in adults with attention deficit/ hyperactivity disorder: characterization of attentional, motor and cognitive impulsiveness. Journal of the International Neuropsychological Society: JINS, 13(4), 693-8. Marshall, L., Mölle, M., Siebner, H.R., & Born, J.(2005). Bifrontal transcranial direct current stimulation slows reaction time in a working memory task. BMC neuroscience, 6:23. Matthiesa S., Philipsena, A., & Svaldi, J.(2012). Risky decision making in adults with ADHD. Journal of Behavior Therapy and Experimental Psychiatry, 43(3), 938-946 Miller, E.K., & Wallis, J.D.(2012). The prefrontal cortex and executive brain functions. Academic Press. Metereau, E., & Dreher, J.C.(2015). The medial orbitofrontal cortex encodes a general unsigned value signal during anticipation of both appetitive and aversive events. Cortex; a journal devoted to the study of the nervous system and behavior, 63, 42-54. Mohr, P.N., Biele ,G., & Heekeren, H.R.(2010). Neural processing of risk. J Neurosci, 30, 6613–6619. Mondino, M., Haesebaert, F., Poulet, E., Saoud, M., & Brunelin, J.(2015). Efficacy of Cathodal Transcranial Direct Current Stimulation Over the Left Orbitofrontal Cortex in a Patient With Treatment-Resistant Obsessive-Compulsive Disorder. Journal of ECT, 31(4), 271-272. Mylius, V., Ayache, S.S, Ahdab, R., Farhat, W.H, Zouari, H.G. & et al.(2013). Definition of DLPFC and M1 according to anatomical landmarks for navigated brain stimulation: inter-rater reliability, accuracy, and influence of gender and age. Neuroimage, 78, 224-32. Nauczyciel, C., Le Jeune, F., Naudet, F., Douabin, S., Esquevin, A. & et al.(2014). Repetitive transcranial magnetic stimulation over the orbitofrontal cortex for obsessive-compulsive disorder: a double-blind, crossover study. Transl Psychiatry, 4, e436. Nitsche, M.A., Kuo, M.F., Paulus, W., & Antal, A.(2015). Transcranial direct current stimulation: protocols and physiological mechanisms of action. In: A.H. Knotkov., D. Rasche,(Eds). Textbook of Neuromodulation: Principles, Methods and Clinical Applications. New York, NY: Springer New York. Nitsche, M.A., & Paulus, W.(2011). Transcranial direct current stimulation--update 2011. Restorative neurology and neuroscience, 29(6), 463-92. Ohn, S.H., Park, C.I., Yoo, W.K., Ko, MH., Choi, K.P. & et al.(2008). Time-dependent effect of transcranial direct current stimulation on the enhancement of working memory. Neuroreport, 19(1), 43-7. Oldershaw, A., Grima, E., Jollant, F., Richards, C., Simic, M. et al.(2009). Decision making and problem solving in adolescents who deliberately self-harm. Psychol Med, 39, 95-104 Ouellet, J., McGirr, A., Van den Eynde, F., Jollant, F., Lepage, M., Berlim, M.T.(2015). 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. Journal of psychiatric research, 69, 27-34. Padoa-Schioppa, C., & Conen, K.E.(2017). Orbitofrontal Cortex: A Neural Circuit for Economic Decisions. Neuron, 96(4), 736-54. Plewnia, C., Schroeder, P.A., & Wolkenstein, L.(2015). Targeting the biased brain: non-invasive brain stimulation to ameliorate cognitive control. Lancet Psychiatry, 2(4), 351-6. Potenza, M.N.(2014). The neural bases of cognitive processes in gambling disorder. Trends Cogn Sci, 18, 429-38. Potenza, M.N., Balodis, I.M., Franco, C.A., Bullock, S., Xu, J. & et al.(2013). Neurobiological considerations in understanding behavioral treatments for pathological gambling. Psychology of addictive behaviors : journal of the Society of Psychologists in Addictive Behaviors, 27, 380-92. Rao, H., Korczykowski, M., Pluta, J., Hoang, A., & Detre, J.A.(2008). Neural correlates of voluntary and involuntary risk taking in the human brain: an fMRI Study of the Balloon Analog Risk Task(BART). Neuroimage, 42, 902–910. Rosenbloom, M.H., Schmahmann, J.D., & Price, B.H.(2012). The functional neuroanatomy of decision-making. The Journal of neuropsychiatry and clinical neurosciences, 24(3), 266-77. Rutherford, H.J.V., Mayes, L.C., & Potenza, M.N.(2010). Neurobiology of Adolescent Substance Use Disorders: Implications for Prevention and Treatment. Child Adolesc Psychiatr Clin N Am,19(3), 479-92. Salehinejad, M.A., Rostami, R., & Ghanavati, E.(2015). Transcranial Direct Current Stimulation of Dorsolateral Prefrontal Cortex of Major Depression: Improving Visual Working Memory, Reducing Depressive Symptoms. NeuroRegulation, 2, 37-49. Schonberg, T., Fox, C.R., Mumford, J.A., Congdon, E., Trepel, C.,(2012). Poldrack, R.A. Decreasing ventromedial prefrontal cortex activity during sequential risk-taking: an FMRI investigation of the balloon analog risk task. Frontiers in neuroscience, 6, 80. Sela1, T., Kilim, A, & Lavidor, M.(2012). Transcranial alternating current stimulation increases risk-taking behavior in the Balloon Analog Risk Task. Front Neurosci, 14(6), 22. Svaldi, J, Philipsen, A, & Matthies, S.(2012). Risky decision-making in borderline personality disorder. Psychiatry Research, 197(1-2), 112-118. Uher, R., Murphy, T., Brammer M.J., Dalgleish, T., Phillips, M.L. & et al.(2004). Medial prefrontal cortex activity associated with symptom provocation in eating disorders. Am J Psychiat, 161, 1238–1246. Volkow, N.D & Fowler, J.S.(2000). Addiction, a disease of compulsion and drive: involvement of the orbitofrontal cortex. Cereb Cortex, 10, 318–325. Volz, K.G., & von Cramon, D.Y.(2009). How the orbitofrontal cortex contributes to decision making — A view from neuroscience. In: M. Raab., J.G. Johnson., & H.R. Heekeren,(Eds). Progress in Brain Research. 174: Elsevier, p. 61-71. Wallis, J.D.(2007). Orbitofrontal cortex and its contribution to decision-making. Annual review of neuroscience, 30, 31-56. Wassermann, E.M., & Grafman, J.(2005). Recharging cognition with DC brain polarization. Trends in cognitive sciences, 9(11), 503-5. Waugh, C.E., Wager, T.D., Fredrickson, B.L., Noll, D.C., & Taylor, S.F.(2008). The neural correlates of trait resilience when anticipating and recovering from threat. Social Cognitive and Affective Neuroscience. 3(4), 322–332. Weber, M.J., Messing, S.B., Rao, H., Detre, J.A., & Thompson-Schill, S.L.(2014). Prefrontal transcranial direct current stimulation alters activation and connectivity in cortical and subcortical reward systems: a tDCS-fMRI study. Hum. Brain Mapp, 35, 3673-3686. Yaple, Z., Martinez-Saito, M., Awasthi, B., Feurra, M., Shestakova, A., & Klucharev. V.(2017). Transcranial Alternating Current Stimulation Modulates Risky Decision Making in a Frequency-Controlled Experiment. eNeuro. ENEURO.0136-17.2017. | ||
آمار تعداد مشاهده مقاله: 606 تعداد دریافت فایل اصل مقاله: 766 |