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Scientific objectives
Researches on brain functions, forming of algorithms of neuronets’ functioning and attempt of their active correction are priority in medicine. With IT medical technologies the brain function research like EEG and transcranial electro-stimulation gains new significance and should be revised. Application of methodology for clinical interpretation in the estimation of the brain bioelectric activity allows creating a universal technology for estimation and individually oriented monitoring and correction of brain functions with the purpose of improvement of neurone conductivity, reactivity of cerebral tissues to stimuli, balancing of excitation and inhibition processes [1].
Results interpretation
During 17 years the Veritas Research Center has investigated sanogenic and pathological reconstructions in the brain bioelectric activity in patients of different type - from healthy to non-curable. 33% of all vascular patients were less curable (hemodynamically marked stenosises of the major arteries, combined cardiovascular insufficiency of II and III stages) and 48% of all psychoneurological patients (apallic syndrome, multiple sclerosis, lateral amyotrophic sclerosis, autism, ICP, epilepsy). The dynamics of brain bioelectric activity testified to large potential in functional activity of the brain, necessity in formation of new algorithms and IT-technologies for monitoring neurodynamics in the treatment process [2, 3].
Outlook and expert recommendations
Applying the IT-technology allows optimizing work of a medical staff, increase efficiency of costs on treatment due to the individually oriented approach to prediction of treatment results and active medical management on the basis of evidential medicine and monitoring of sanogenic reconstructions [2].
References
Lushchyk UB, Novytskyy VV: Polyvector dynamic diagnostics of the vascular systems. A modern innovative medical technology: from local examinations to integrative comprehension of the whole system. Med Devices. 2008, 3: 64-67.
Lushchyk UB, Babii IP, Titenko TM, Novytskyy VV, Stukalin VO, Lushchyk NG, Leonova VV, Priz AM: Innovative vectors in neurorehabilitation. Logic and management of multidisciplinary approach in restorative medicine. Macros. 2012, Kyiv, 244:
Lushchyk UB, Novytskyy VV, Alexeyeva TS, Francevich KA, Branytska NS: Analytical aspects of an individual hemodynamic correction in the angioneurology. Istyna. 2006, Kyiv, 130:
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Lushchyk, U.B., Novytskyy, V.V., Babii, I.P. et al. Monitoring brain functioning with evident based IT-technologies with feedback control. EPMA Journal 5 (Suppl 1), A100 (2014). https://doi.org/10.1186/1878-5085-5-S1-A100
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DOI: https://doi.org/10.1186/1878-5085-5-S1-A100