Gelişimsel beyin durumlarını iyileştirmek için evde nörogeribildirim ve GFCF diyeti

Year 2019, Volume: 1 Issue: 1, 21 - 26, 17.06.2019

Gunet Eroğlu

Abstract

Nörogeribildirim, pek çok beyin durumunu iyileştirmek için kullanılan bir biogeribildirim yöntemidir. Ancak etkin sonuç almak ve bazı özel durumların üstesinden gelebilmek için haftada en az 3 kez, toplamda 100 kez civarında uygulanmalıdır. Araştırmalar, Otizmde gluten ve kazein içermeyen ve ketojenik diyetlerin Otizm semptomlarını azalttığını göstermektedir. Nörogeribildirim ve özel diyetler otoimmun durumlarda beynin sağlığını ve gelişimini olumlu etkileyebilir. Nörogeribildirim, beyin fonksiyonlarının kendi kendine kontrolünü artırarak Glutamate ve GABA metabolizmasını olumlu etkilemektedir. Nörogeribildirim ile beyin durumunu değiştirdiğimizde, tüm metabolizmanın daha etkin çalışmasına yardımcı olabiliriz. Diyetler, altta yatan metabolizma probleminin düzelmesine olumlu etki sağlayabilir ve nörogeribildirimin etkisini uzun ömürlü yapabilir. Bu makalede, nörogeribildirimin evde doktorların gözetiminde güvenli bir şekilde uygulanmasına yardımcı olan metod ve uygulamalar incelenmiştir.

Keywords

EEG, nörogeribildirim, GFCF diet

Home Based Neurofeedback and GFCF Diet for İmproving Developmental Brain Conditions

Abstract

Neurofeedback is a kind of neurofeedback which is used for improving many brain conditions, but it requires to be applied in order to overcome specific symptoms at least three times a week, around 100 times in total. The research put forward that in individuals with ASD, gluten-free/casein-free and ketogenic diets can play a role in alleviating ASD symptoms. Specific diets together with neurofeedback may improve autoimmune conditions, brain health and development. Neurofeedback by improving self-control of brain functions may alter the Glutamate and GABA metabolism in a positive way. By changing the brain condition using neurofeedback, we may change the function of whole metabolism. Specific diets in return help to solve the underlying metabolism problem and make the effects of neurofeedback long-lasting. In this review article, we have investigated methods and applications which enables to use neurofeedback at home safely under the surveillance of medical doctors

Keywords

EEG, neurofeedback, GFCF diet(Gluten free/casein free diet)

References

• 1. Eroğlu, Günet, Müjdat Çetin, and Selim Balcisoy. "Electroencephalographic identifiers of reading abilities in turkish language." 2018 26th Signal Processing and Communications Applications Conference (SIU). IEEE, 2018.
• 2. Eroğlu, Günet, et al. "Improving cognitive functions of dyslexies using multi-sensory learning and EEG neurofeedback." 2018 26th Signal Processing and Communications Applications Conference (SIU). IEEE, 2018.
• 3. Eroğlu, Günet, et al. "Nörogeribildirime kimin daha çok cevap vereceğini dinlenme anındaki EEG verisine bakarak öngörebilir miyiz?" TIPTEKNO 2018, 2018.
• 4. Rojas, Donald C., and Lisa B. Wilson. "γ-band abnormalities as markers of autism spectrum disorders." Biomarkers in medicine 8.3 (2014): 353-368.
• 5. Orekhova, Elena V., et al. "Excess of high frequency electroencephalogram oscillations in boys with autism." Biological psychiatry 62.9 (2007): 1022-1029.
• 6. Coury, Daniel L., et al. "Gastrointestinal conditions in children with autism spectrum disorder: developing a research agenda." Pediatrics 130.Supplement 2 (2012): S160-S168.
• 7. Cekici, Hande, and Nevin Sanlier. "Current nutritional approaches in managing autism spectrum disorder: A review." Nutritional neuroscience (2017): 1-11.
• 8. Campbell-McBride, Natasha. Gut and Psychology Syndrome: Natural Treatment for Autism, Dyspraxia, ADD, Dyslexia, ADHD, Depression, Schizophrenia. Medinform Pub., 2010.
• 9. McMAHON, DOREEN E. "Neurofeedback in an integrative medical practice." Restoring the Brain: Neurofeedback as an Integrative Approach to Health (2015): 95.
• 10. Cekici, Hande, and Nevin Sanlier. "Current nutritional approaches in managing autism spectrum disorder: A review." Nutritional neuroscience (2017): 1-11.
• 11. Marzbani, Hengameh, Hamid Reza Marateb, and Marjan Mansourian. "Neurofeedback: a comprehensive review on system design, methodology and clinical applications." Basic and clinical neuroscience 7.2 (2016): 143.
• 12. Sandgren, Anna M., and Robert JM Brummer. "ADHD-originating in the gut? The emergence of a new explanatory model." Medical hypotheses 120 (2018): 135-145.
• 13. Heinrich, Hartmut, Holger Gevensleben, and Ute Strehl. "Annotation: Neurofeedback–train your brain to train behaviour." Journal of Child Psychology and Psychiatry 48.1 (2007): 3-16.
• 14. Gnecchi, Jose Antonio Gutierrez, Julio Cesar Herrera Garcia, and Juan de Dios Ortiz Alvarado. "Auxiliary neurofeedback system for diagnostic of attention deficit hyperactivity disorder." Electronics, robotics and automotive mechanics conference, 2007. CERMA 2007. IEEE, 2007.
• 15. Breteler, Marinus HM, et al. "Improvements in spelling after QEEG-based neurofeedback in dyslexia: A randomized controlled treatment study." Applied psychophysiology and biofeedback 35.1 (2010): 5-11.
• 16. Nazari, Mohammad Ali, et al. "The effectiveness of neurofeedback training on EEG coherence and neuropsychological functions in children with reading disability." Clinical EEG and neuroscience 43.4 (2012): 315-322.
• 17. Breteler, Marinus HM, et al. "Improvements in spelling after QEEG-based neurofeedback in dyslexia: A randomized controlled treatment study." Applied psychophysiology and biofeedback 35.1 (2010): 5-11.
• 18. Au, Alma, et al. "Does it help to train attention in dyslexic children: pilot case studies with a ten-session neurofeedback program." International Journal on Disability and Human Development 13.1 (2014): 45-54.
• 19. Coben, Robert, Michael Linden, and Thomas E. Myers. "Neurofeedback for autistic spectrum disorder: a review of the literature." Applied psychophysiology and biofeedback 35.1 (2010): 83.
• 20. Oberman, Lindsay M., Vilayanur S. Ramachandran, and Jaime A. Pineda. "Modulation of mu suppression in children with autism spectrum disorders in response to familiar or unfamiliar stimuli: the mirror neuron hypothesis." Neuropsychologia 46.5 (2008): 1558-1565.
• 21. Katona, J., et al. "Evaluation of the NeuroSky MindFlex EEG headset brain waves data." Applied Machine Intelligence and Informatics (SAMI), 2014 IEEE 12th International Symposium on. IEEE, 2014.
• 22. Carrick, Frederick Robert, et al. "The treatment of autism spectrum disorder with auditory neurofeedback: A Randomized placebo controlled trial using the mente autism device." Frontiers in neurology 9 (2018): 537.