Seçilmiş Yayınlar

Genel
Araştırma
Seçilmiş Yayınlar
Ekibimiz
 
  • Üstün S., Kale EH, Çiçek M., Neural networks for time perception and working memory. (2017), frontiers in Human Neuroscience
  • Apaydın N., Üstün S., Kale EH, Nobre AC, Özgüven HD, Çiçek M., Neural Mechanisms Underlying Time Perception and Reward Prospect. (In preperation)
  • Shenas SK., Halıcı U., Çiçek M., (2014), A comparative analysis of functional connectivity data in resting and task-related conditions of the brain for disease signature of OCD. Proceedings of the 2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), Article number: 6943756, Pages 978-981.
  • Shenas SK., Halıcı U., Çiçek M., (2013), Detection of obsessive compulsive disorder using resting-state functional connectivity data. Proceedings of the 2013 6th International Conference on Biomedical Engineering and Informatics, BMEI 2013, Article number: 6746921, Pages 132-136.
  • Koçak OM., Kale E., Çiçek M., (2012), Default mode connectivity differences in obsessive-compulsive disorder. Activitas Nervosa Superior, 54, 118-124.
  • Özel-Kızıl ET, Baskak B, Güneş E, Çiçek M, Atbaşoğlu EC. (2012), Hemispatial neglect evaluated by visual line bisection task in schizophrenic patients and their unaffected siblings. Psychiatry Research, 200, 133-136.
  • Koçak OM., Yılmaz A., Atbaşoğlu C., Çiçek M., (2011), Cognitive control of a simple mental image in patients with obsessive-compulsive disorder. Brain and Cognition, 76, 390-399 (SCI ve SSCI kapsamındadır).
  • Çiçek M., Deouell L., Knight RT., (2009), Brain activity during landmark and line bisection tasks. Frontiers in Human Neuroscience, 3:7. doi:10.3389/neuro.09.007.2009. (SCI-Expanded kapsamındadır).
  • Koçak OM., Çiçek M., Yağmurlu B., Atbaşoğlu C., (2008), How is cognitive control of a simple mental image achieved? An fMRI study. International Journal of Neuroscience, 118, 1781-1796.
  • Çiçek M., Gitelman D., Hurley RSE., Nobre A., ve Mesulam M., (2007), Anatomical physiology of extinction. Cerebral Cortex, 17, 2892-2898.