Age-related Changes of Neurophysiological Characteristics of Children in Health and Mental Retardation Syndrome, Linked to Fragile X Chromosome (FRAXA)

Gorbachevskaya N.L.; Sorokin A.B.; Danilina K.K.

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Psychological Science and Education

Publisher: Moscow State University of Psychology and Education

ISSN (printed version): 1814-2052

ISSN (online): 2311-7273

DOI: https://doi.org/10.17759/pse

License: CC BY-NC 4.0

Started in 1996

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Psychological Science and Education
2014. Vol. 19, no. 4, 36–45
ISSN: 1814-2052 / 2311-7273 (online)

Age-related Changes of Neurophysiological Characteristics of Children in Health and Mental Retardation Syndrome, Linked to Fragile X Chromosome (FRAXA) ¹³⁶⁹

Gorbachevskaya N.L.
Doctor of Biology, Professor, Head of Research Laboratory, Federal Resource Center for Organization of Comprehensive Support to Children with ASD, Moscow State University of Psychology and Education, Moscow, Russia
ORCID: https://orcid.org/0000-0002-8558-9007
e-mail: gorbachevskaya@yandex.ru

Sorokin A.B.

Danilina K.K.
Junior Researcher, FRC MSUPE, Moscow, Russia
e-mail: d-kk@mail.ru

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RUIn Russian

The article deals with the reflection of the normal and impaired ontogeny in biological terms. It is assumed that there are certain regularities in the formation of bioelectric activity of the brain of a healthy person, which are in some way violated in various forms of developmental disorders. We combine the results of the study of quantitative EEG parameters in 699 healthy children and adolescents aged 3 to 20 years, and 40 children, adolescents and adults with mental retardation syndrome linked to the fragile X chromosome (FRAXA).

Keywords: EEG, healthy children and adults, normal ontogenesis, impaired ontogenesis, mental retardation syndrome, linked to fragile X chromosome (FRAXA)

Column: Development trajectories and development space

For Reference

Gorbachevskaya N.L., Sorokin A.B., Danilina K.K. Age-related Changes of Neurophysiological Characteristics of Children in Health and Mental Retardation Syndrome, Linked to Fragile X Chromosome (FRAXA). Psikhologicheskaya nauka i obrazovanie = Psychological Science and Education, 2014. Vol. 19, no. 4, pp. 36–45. (In Russ., аbstr. in Engl.)

Gorbachevskaya N. L. Vozrastnye osobennosti elektroentsefalogrammy zdorovykh detei i podrostkov[Age Dynamics of the Electroencephalogram in Healthy Children and Adolescents]. In ShevchenkoYu. S. (ed.) Detskaya i podrostkovaya psikhiatriya[Child and Adolescent Psychiatry]. Moscow: MIA, 2011, pp. 643–658.
Kurova N. S., Panyushkina C. B. Uzkopolosnye izmeneniya spektral'nogo sostava EEG pod vliyaniem agonista i antagonista kholinergicheskoi neiromediatornoi
sistemy [Narrow-band Changes of Spectral EEG Affected by a Cholinergic Agonist and Antagosnist]. Zhurn. vyssh. nervn. deyat. im. I. P.Pavlova [I. P. Pavlov Higher Nervous Activity Journal], 1999. Vol. 48, no. 2, pp. 351–354.
Osipenko T. N. Psikhonevrologicheskoe razvitie doshkol’nikov [Psychoneurological Development of Pre- School Children]. Moscow: Meditsina, 1996. 289 p.
Panyushkina C. B. Elektroentsefalograficheskie zakonomernosti dinamiki neiromediatornykh protsessov u bol'nykh s nevroticheskimi rasstroistvami (patogeneticheskie i farmakoterapevticheskie aspekty). Avtoref. dis.dokt.med. nauk [Electroencephalographic Principles of Neurotransmitter Processes Dynamics in Neurotic Patients (Pathology and Pharmacology). Dr.Sci.Thesis], 2000. 36 p.
Tyushkevich S. A. Osobennosti povedeniya i kognitivnykh narushenii u detei i podrostkov s sindromom umstvennoi otstalosti, stseplennoi s lomkoi khromosomoi X. Avtoref. diss.kand. psikh. nauk [Behavior and Cognitive Peculiarities of Children and Adolescents with Fragile X Syndrome. Ph.D. Thesis]. Moscow, 2010. 27 p.
Farber D. A., Beteleva T. G., Gorev A. S., Dubrovinskaya N. V., Machinskaya R. I. Funktsional'naya organizatsiya razvivayushchegosya mozga i formirovanie kognitivnoi deyatel'nosti [Functional Organization of Developing Brain]. In Bezrukhih M .M. (eds.) Fiziologiya razvitiya rebenka [Developmental Physiology of Child]. Moscow, 2000, pp. 82–104.
Farber D. A., Vil’davskii V. Yu. Geterogennost’ i vozrastnaya dinamika al’fa-ritma elektroentsefalogrammy [Heterogeneity and Age Development of EEG Alpha-Rhythm]. Fiziologiya cheloveka [Human Physiology], 1996. Vol. 22, no. 5, pp. 5–12.
Tsekhmistrenko T. A., Vasil’eva V. A., Shumeiko N. S. Komp’yuternyi analiz tempov rosta neironov funktsional’no razlichnykh zon kory bol’shogo
mozga i mozzhechka cheloveka ot rozhdeniya do 20 let. [Computer analysis of the growth rate of the neutronelectrons functionally distinct cortical areas
largerShogo brain and cerebellum from birth to20 years] Rossiiskie morfologicheskie vedomosti [Russian morphologic news], 1997. Vol. 3, p. 97.
Bailey D. B, Jr., Hatton D. D, Skinner M., Mesibov G. B. Autistic behavior, FMR1 protein, and developmental trajectories in young males with fragile X syndrome. Journal of Autism and Developmental Disorders, 2001, no. 31(2), pp. 165–174.
Eeg-Olofsson O. The development of the electroencephalogram in normal children and adolescents from the age of 1 through 21 years. Acta paediat.
scand., 1970. Suppl. 208, pp. 1–46.
Hatton D. D, Wheeler A. C, Skinner M. L, Bailey D. B, Sullivan K. M, Roberts J. E., Mirrett P., Clark R. D. Adaptive behavior in children with fragile X syndrome. Am. J. Ment. Retard, 2003. Nov., 108, no. 6, pp. 373–90.
Klekamp Y., Riedel A., Harper C. Quantitative changes during the postnatal maturation of the human visual cortex. Journal of neurol. Science, 1991, no. 103, pp. 136–143.
Pfurtscheller G., Neuper C. Event-related synchronization of mu rhythm in the EEG over the cortical hand area in man. Neuroscience Letters, 6 June 1994. Vol. 174. Issue 1, pp. 93–96.
Tsekhmistrenko T. A. Quantitative Changes In Piriform Neurons Of Human Cerebellar Cortex From Birth To 20 Years. Morfologiya, 1998. Vol. 113, no. 2, pp. 57–61.