Effect of swinging on EEG of rats of juvenile age in the wakefulness state

Simultaneous recording of the EEG activity of superficial cortical and deep (caudate nucleus, dorsal hippocampus, anterior hypothalamus) brain parts has been performed for the first time after a 2-h swinging of frequency of 0.2 Hz in Wistar rats of juvenile age. Swinging was produced on a 4-bar parallel swing. Using a Neuron-Spectr electroencephalograph and a Diana program, normalized power spectra of wave EEG components, synchronization coefficients, and coefficients of cross-correlation between bioelectrical potentials of various brain structures were determined. After a 2-h swinging, the mean value of normalized power of slow waves of delta-diapason in hypothalamus and hippocampus was found to increase statistically significantly, while normalized power of fast waves of alpha- and beta1-diapasons in hippocampus decreased (p < 0.05). A statistically significant increase of synchronization coefficient was observed in hypothalamus and hippocampus. Changes of coefficients of cross-correlation between hypothalamus and hippocampus and other brain strictures were of the oppositely directed, individual character. In the parietal occipital brain cortex and in caudate nucleus, the changes of the EEG spectral composition also were of individual character. The obtained results on the whole correspond to data about an enhancement of the EEG low-frequency rhythms at swinging and agree with the resonance hypothesis of motion sickness.     

旋转刺激对大鼠七氟烷麻醉敏感性的影响

目的:探讨航海刺激对大鼠七氟烷麻醉敏感性的影响,为海上环境下七氟烷的合理使用提供依据。方法:以大鼠条件性厌食症作为判断指标,采用仿制Crampton旋转刺激器制作大鼠运动病模型。①60只SD大鼠随机分为对照组(n=15)和旋转组(n=45),观测2组大鼠的活动和行为变化、达到睡眠和麻醉状态所需七氟烷浓度以及麻醉苏醒时间。②32只SD大鼠随机分为四组(n=8):对照(Ⅰ)组、旋转(Ⅱ)组、麻醉(Ⅲ)组和旋转后再麻醉(Ⅳ)组,分别检测4组大鼠之大脑皮层、下丘脑和海马组织的乙酰胆碱、去甲肾上腺素、г-氨基丁酸及谷氨酸含量。结果:对照组大鼠达到睡眠和麻醉状态所需七氟烷浓度分别为1.74%±0.05%和3.54%±0.05%,旋转组分别为1.51%±0.06%和3.14%±0.08%,旋转组大鼠达到睡眠和麻醉状态所需七氟烷浓度明显降低(P<0.01)。神经递质变化以Ⅲ组大鼠各递质含量显著降低为其主要特点,在大脑皮层和海马组织中表现尤为明显(P<0.01)。Ⅱ组大鼠大脑皮层Ach显著升高,海马组织NE、GABA明显降低。Ⅳ组变化趋势更接近于Ⅱ组,即以旋转刺激的影响更为明显。结论:模拟航海刺激可明显增加大鼠对七氟烷麻醉的敏感性。     

Dietary astaxanthin can accumulate in the brain of rats

We evaluated the distribution of astaxanthin in rat brains after a single dose administration and after feeding 0.1% astaxanthin diet for 5 days. Astaxanthin was detected in the hippocampus and cerebral cortex 4 and 8 h after a single dose. Astaxanthin concentration in rat brains was higher after consumption of astaxanthin diet for 5 days than after a single dose.     

Variations of elemental distribution in brain regions of neonatal rats at different iodine intakes

Iodine deficiency (ID) can result in irreversible damage to the brain during the fetal and neonatal stages. As the active center of many enzymes, trace elements play essential roles in brain function. In this work, the relative contents and distributions of elements (Cl, Br, Fe, Cu, and Zn) in two important brain regions, the cerebral cortex and hippocampus, of the iodine-deficient model rats were determined by the synchrotron radiation X-ray fluorescence (SRXRF) method. Meanwhile, the ID rats were supplemented with adequate and excessive iodine, respectively. The results indicated that the distributions of trace elements could be influenced by the different iodine intakes in the stage of brain development. In contrast to the control group, the contents of Cl, Br, and Zn in two brain regions showed a significant increase in the ID group; however, both Fe and Cu decreased in the cerebral cortex and increased in the hippocmapus in the ID group. In addition, only slight changes of elemental contents in brain were found between the adequate and excessive iodine-supplemented rats.     

Chaotic component of human high-frequency EEG in the state of quiet wakefulness

Chaotic component of human EEG oscillations in the high-frequency band (14.7-100 Hz) was investigated. EEG was recorded from four points in symmetrical frontal and occipital scalp areas. The results of the non-linear analysis of the high-frequency EEG indicate the existence of the deterministic chaotic component with a high attractor correlation dimension. It was significantly different from the respective values of the Gaussian noise filtered in the same frequency band. In the state of quiet wakefulness (eyes closed), the dimensions of chaotic components of the EEG in all derivations did not differ from each other. Analysis of correlation pairs between the ensembles of correlation dimensions of the high-frequency EEG revealed reliable patterns of significant connections between the neocortical areas with individual features in different subjects. When the functional state of the brain was changed by hyperventilation, both the values of the correlation dimensions and the structure of inter-area connection patterns changed. We believe that the nonlinear component of high-frequency EEG is a sensitive and local characteristic of the functional state of the human brain.     

基于前额联络皮层脑电信号的海洛因戒断大鼠个体觅药行为状态识别

目的:探究海洛因诱导位置偏爱大鼠不同行为状态下额叶联络皮层(Fr A)无线遥测脑电新的分析方法,以期能精确实时识别海洛因诱导大鼠个体的强迫性觅药行为。方法:清洁级Wistar大鼠30只,于前额皮层行电极埋藏术后,随机分为手术对照组(n=10)和海洛因诱导组(n=20);海洛因诱导组皮下注射海洛因0.5 mg/(kg·d),之后每日递增0.25 mg/kg,连续注射7 d,对照组同时间注射等量生理盐水;利用CPP视频系统结合脑电无线遥测技术,同步记录白-黑箱穿梭、黑箱停留、黑-白箱穿梭、白箱停留四种行为状态下已成瘾大鼠Fr A区脑电信号,辨识原始脑电中含肌电等噪声信号区域,针对性的给以小波分解及振幅阈值消噪预处理,提取不同行为状态下脑电数据的样本熵值及与4个节律频率对应的小波系数标准差值,利用支持向量机算法(SVM)实现对海洛因成瘾大鼠个体不同行为状态的实时识别。结果:SVM对20只经海洛因诱导产生明显药物依赖的大鼠个体白-黑穿梭、黑箱停留、黑-白穿梭、白箱停留四种不同行为状态的实时分类识别率均值都达到80%左右,其中与觅药行为关联最紧密的黑-白穿梭状态实时识别率均值达到83.88%。结...     

Principal component analysis of electroencephalographic activity during sleep and wakefulness in the spider monkey (Ateles geoffroyi)

The study of electroencephalographic (EEG) activity during sleep in the spider monkey has provided new insights into primitive arboreal sleep physiology and behavior in anthropoids. Nevertheless, studies conducted to date have maintained the frequency ranges of the EEG bands commonly used with humans. The aim of the present work was to determine the EEG broad bands that characterize sleep and wakefulness in the spider monkey using principal component analysis (PCA). The EEG activity was recorded from the occipital, central, and frontal EEG derivations of six young-adult male spider monkeys housed in a laboratory setting. To determine which frequencies covaried and which were orthogonally independent during sleep and wakefulness, the power EEG spectra and interhemispheric and intrahemispheric EEG correlations from 1 to 30 Hz were subjected to PCA. Findings show that the EEG bands detection differed from those reported previously in both spider monkeys and humans, and that the 1–3 and 2–13 Hz frequency ranges concur with the oscillatory activity elucidated by cellular recordings of subcortical regions. Results show that applying PCA to the EEG spectrum during sleep and wakefulness in the spider monkey led to the identification of frequencies that covaried with, and were orthogonally independent of, other frequencies in each behavioral vigilance state. The new EEG bands differ from those used previously with both spider monkeys and humans. The 1–3 and 2–13 Hz frequency ranges are in accordance with the oscillatory activity elucidated by cellular recordings of subcortical regions in other mammals.     

Effect of bacterial lypopolysaccharide on penicillin-induced seizure activity in rats

In experiments on Wistar rats, we found that, within an early period (2 to 4 h) after injection of bacterial lypopolysaccharide, LPS (0.1 mg/kg, i.p.), the latency of generalized seizures induced by injection of benzylpenicillin (sodium salt; 3.0 million IU/kg, i.p.) became significantly shorter, while the severity of seizure manifestations was higher than in the control group. Within this period, the power of oscillations of the delta and alpha-frequency ranges increased in the frontal cortex and hippocampal structures; fast ECoG components (beta and gamma rhythms) were suppressed, and the power of the theta activity decreased. In the hippocampal structures, these changes were more clearly pronounced, as compared with the neocortex. Within a later period of the action of LPS (12 to 18 h from the moment of injection), the latency of penicillin-induced seizures significantly exceeded the control value, and the severity of such seizures was lower. Under such conditions, we observed a smaller power of the synchronized activity of delta and alpha frequencies combined with intensification of the theta activity (most clearly pronounced in the hippocampal structures), and also an increase in the power of “desynchronized” rhythms (beta and gamma oscillations) in the cortex and hippocampus. Neirofiziologiya/Neurophysiology, Vol. 40, No. 3, pp. 236–241, May–June, 2008.     

一氧化氮合酶抑制剂L-NAME对大鼠脑缺血耐受诱导的影响

采用大鼠四血管闭塞全脑缺血耐受模型和脑组织切片形态学方法,观察应用一氧化氮合酶(NOS)抑制剂L—NAME对大鼠海马CAl区脑缺血耐受(BIT)诱导的影响,在整体水平探讨一氧化氮(NO)在BIT诱导中的作用。54只Wistar大鼠凝闭双侧推动脉后分为6组：(1)假手术组(n＝6);分离双侧颈总动脉,但不阻断脑血流;(2)损伤性缺血组(n＝6)：全脑缺血10min;(3)预缺血 损伤性缺血组(n＝6)：脑缺血预处理(CIP)3min,再灌注72h后行全脑缺血10min;(4)L—NAME组;分别于CIP前1h和后1、12及36h腹腔注射L—NAME(5mg／kg),每个时间点6只动物,其余步骤同预缺血 损伤性缺血组;(5)L—NAME L—精氨酸组(n＝6)：于CIP前1h腹腔注射L—NAME(5mg／kg)和L—精氨酸(300mg／kg),其它步骤同L—NAME组;(6)L—NAME 损伤性缺血组(n＝6)：于腹腔注射L—NAME(5mg／kg)72h后行全脑缺血10min。实验结果表明,(1)单纯10min全脑缺血可使海马CAl区组织学分级增加(表明损伤加重),神经元密度降低(P＜0．01);(2)预缺血 损伤性缺血组的海马CAl区组织学分级、神经元密度与假手术组相比,无显著性差别(P＞0．05);(3)L—NAME组中,应用L—NAME后海马CAl区组织学分级增加,神经元密度降低,与预缺血 损伤性缺血组相比有显著性差异(P＜0．05),表明L—NAME可阻断CIP对神经元的保护作用;(4)L—NAME L—精氨酸组与L—NAME组相比,海马CAl区组织损伤明显减轻(P＜0．05),但与预缺血 损伤性缺血组相比仍有显著性差别(P＜0．05),提示L-精氨酸可部分逆转L—NAME的作用;(5)L—NAME 损伤性缺血组的组织学表现与损伤性缺血组相同(P＞0．05)。这些结果表明,在整体情况下N0参与BIT的诱导。与CIP前1h及后1、12h给予L—NAME组相比,CIP后36h给予L—NAME对CIP保护作用的阻断效应明显减弱,提示N0在CIP后较早阶段即开始参与BIT的诱导。     

Cytoskeletal-associated protein kinase and phosphatase activities from cerebral cortex of young rats

We describe the phosphorylation system associated with the Triton-insoluble cytoskeletal fraction that phosphorylates in vitro the 150 kDa neurofilament subunit (NF-M) and alpha and beta tubulin from cerebral cortex of rats. The protein kinase activities were determined in the presence of 20 M cyclic AMP (cAMP), 1 mM calcium and 1 M calmodulin (Ca²⁺/calmodulin) or 1 mM calcium, 0.2 mM phosphatidylserine and 0.5 M phorbol 12,13-dibutyrate (Ca²⁺/PS/PDBu). Phosphorylation of these cytoskeletal proteins increased approximately 35% and 65% in the presence of cAMP and Ca²⁺/calmodulin, respectively, but was unaffected in the presence of Ca²⁺/PS/PDBu. Basal phosphorylation of these proteins studied increased approximately 35% and 72% in the presence of 0.5 M okadaic acid and 0.01 M microcystin-LR, respectively, suggesting the presence of phosphatase type 1. Results suggest that at least two protein kinases and one protein phosphatase are associated with the Triton-insoluble cytoskeletal fraction from cerebral cortex of rats.     

Effects of DSP-4 on monoamine and monoamine metabolite levels and on beta adrenoceptor binding kinetics in rat brain at different times after administration

Effects of DSP-4 on noradrenaline (NA), 3-methoxy-4-hydroxyphenyl glycol (MHPG), serotonin (5-HT) and 5-hydroxyindole acetic acid (5-HIAA) levels and on beta adrenoceptor binding kinetics (Bmax and K_D) in rat hippocampus, cortex and hypothalamus were studied between 24 hours and 14 days after systemic administration. Beta adrenoceptor numbers in hippocampus and cortex, but not in hypothalamus, were significantly increased after DSP-4. No significant changes in K_D values were observed in hypothalamus, but significant increases in this parameter were measured in hippocampus and cortex. NA and MHPG levels were significantly decreased in all three brain regions, but MHPG/NA ratios were increased in hippocampus, decreased in cortex and unchanged in hypothalamus. Very prominent increases in 5-HIAA levels were observed in all three brain regions, but only at one day after DSP-4. The greatest increases in 5-HIAA levels occurred in the hippocampus, but this effect of DPS-4 appeared to be slightly diminished by pre-treatment with fluoxetine. In cortex and hippocampus 5-HT levels were slightly, but significantly decreased after DSP-4.     

大鼠运动病敏感性性别差异与血浆和垂体中AVP水平及垂体V1b受体表达水平的关系

目的：观察不同性别大鼠旋转前后不同时间点血浆和垂体精氨酸加压素（AVP）的含量以及垂体AvP—V1b受体阳性神经元数目和受体表达量,探讨AVP与运动病性别差异间的联系,为进一步认识运动病的发病机制提供实验依据。方法：采用条件性厌食症作为运动病模型。98只SD大鼠,雌雄各半,分别用放射免疫分析法、免疫组化及Western—blot法测定血浆、垂体AVP含量和垂体V1b受体表达水平。结果：旋转刺激后雌性大鼠糖精水（0．15％）饮用量的减少程度高于雄性大鼠。雌性大鼠血浆AVP含量在基础状态下高于雄性大鼠,旋转刺激后下降,而雄性大鼠无显著性变化。雌性大鼠垂体AVP含量在基础状态下也高于雄性大鼠,旋转刺激后8h下降。24h降低有显著性;雄性大鼠旋转后8h垂体AVP含量较旋转前明显下降,但降幅不及雌性大鼠,旋转后24h已近恢复。与应激反应密切相关的垂体V1b受体表达为阳性的神经元数目及V1b受体表达水平,在基础状态下,雌性大鼠显著高于雄性;旋转刺激后,雌性大鼠V1b受体表达为阳性的神经元数目和表达水平均明显降低,而雄性大鼠则无显著性改变。结论：运动病诱发刺激后,雌雄性大鼠血浆和垂体中AVP含量及垂体V1b受体表达均有差异,提示AVP的内分泌状态与运动病敏感性性别差异可能有某种关联。     

海马齿状回神经再生对WKY大鼠抑郁样行为的影响*

目的:观察海马齿状回(DG)神经再生对成年Wistar Kyoto(WKY)大鼠抑郁样行为的影响。方法:实验共分三个组(n = 10):①正常对照(Wistar)组:选取 9 周龄Wistar大鼠,给予生理盐水 3 周(10 mg/kg, 灌胃);②抑郁模型(WKY)组:选取同龄WKY大鼠并经行为学测定后筛选出抑郁大鼠作为抑郁模型组,给予生理盐水 3 周(10 mg/kg, 灌胃);③阳性对照(AMI+WKY)组:选取同龄WKY抑郁大鼠,给予阿米替林(AMI) 3 周(10 mg/kg, 灌胃)。选用免疫荧光染色细胞增殖标记物Ki67、未成熟神经元标志物DCX检测大鼠的海马神经再生水平;应用糖水偏好实验(SPT)、旷场实验(OFT)和强迫游泳实验(FST)检测各组大鼠的抑郁样行为学变化。结果:①WKY抑郁大鼠海马DG区细胞增殖标志物Ki67⁺细胞数和未成熟神经元标志物DCX⁺细胞数较Wistar大鼠分别降低了 33.0%(P＜0.01)和39.2%(P＜0.01);阿米替林给药后使抑郁大鼠海马DG区Ki67⁺细胞数和DCX⁺细胞数分别增加了43.8%(P＜0.01)和46.7%(P＜0.01)。②与Wistar大鼠相比,WKY抑郁大鼠糖水偏好程度明显降低(P＜ 0.01),旷场实验中运动总距离显著缩短(P＜0.01)和中心停留时间显著减少(P＜0.01),强迫游泳实验中不动时间明显延长(P＜ 0.01);阿米替林治疗可显著改善WKY大鼠的上述抑郁样行为。结论:①成年WKY抑郁大鼠的海马神经干细胞的增殖和分化能力较正常对照组显著降低,提示成年WKY抑郁大鼠的神经再生受损;②改善海马受损的神经再生可以部分逆转成年WKY大鼠的抑郁样行为。     

Differences in central noradrenergic and behavioural responses of Maudsley non-reactive and Maudsley reactive inbred rats on exposure to an aversive novel environment

The present experiments compared the noradrenaline and behavioural responses of inbred Maudsley reactive (MR) and non-reactive (MNRA) rats when they are exposed to the light or dark arena of a light/dark shuttle-box. Behavioural scores confirmed that both strains of rats perceived the light arena to be more aversive than the dark one. Using in vivo microdialysis, exposure to the light, but not the dark, arena was found to increase noradrenaline efflux in both the frontal cortex and the hypothalamus of MNRA and MR rats. However, whereas the increase in the frontal cortex of both strains and the hypothalamus of MR rats was transient, the hypothalamic response in MNRA rats was maintained throughout exposure to the test zone. Strain differences in activity/visit and time/visit were evident but it was not possible to discern whether this could be attributed to the strain difference in the hypothalamic noradrenaline response. Nevertheless, it remains possible that, by comparison with MR rats, the prolonged noradrenaline response in the hypothalamus of MNRA rats could contribute to their well-documented, greater resistance to aversive environmental stimuli.     

Specific [3H] Glutamate Binding in the Cerebral Cortex and Hippocampus of Rats During Development: Effect of Homocysteine-Induced Seizures

Specific [³H]glutamate binding to synaptic membranes from the cerebral cortex and hippocampus of 7-, 12- and 18-day-old rats was examined, both in control animals and during seizures induced by homocysteine. In the cerebral cortex a transient peak of glutamate binding was observed in 7-day-old group, whereas in the hippocampus it occurred in 12-day-old animals. Total specific [³H]glutamate binding was not influenced by preceding seizure activity in either of the age groups and both the studied regions. NMDA- and QA-sensitive glutamate bindings represent the highest portion of the total binding. Moreover, NMDA-sensitive binding in the cerebral cortex of 7-day-old rats is significantly higher as compared to the two more mature groups. The proportion of individual receptor subtypes on total binding in each age group was not influenced by preceding seizure activity. However, NMDA-sensitive binding in the hippocampus of 12-day-old rats, sacrificed during homocysteine-induced seizures, was significantly increased as compared to corresponding controls. In contrast to the effect of NMDA, AMPA, kainate and quisqualate which displaced to a different extent [³H]glutamate binding, homocysteine had no effect when added to membrane preparations. Similarly, [³H]CPP and [³H]AMPA bindings were not affected in the presence of homocysteine. It thus seems unlikely that homocysteine is an effective agonist for conventional ionotropic glutamate receptors. Its potential activity at some of the modulatory sites at the NMDA receptor channel complex or at metabotropic receptors has to be clarified in further experiments.     

Topographic EEG mapping of the relaxation response

The purpose of this study was to assess the central nervous system effects of the relaxation response (RR) in novice subjects using a controlled, within-subjects design and topographic EEG mapping as the dependent measure. Twenty subjects listened to a RR and control audiotape presented in a counterbalanced order while EEG was recorded from 14 scalp locations. TheRR condition produced greater (p<.0164) reductions in frontal EEG beta activity relative to the control condition. No significant differences were observed for any other frequency band or scalp region. These findings suggest that elicitation of the RR produces significant reductions in cortical activation in anterior brain regions in novice subjects.     

Minocycline causes widespread cell death and increases microglial labeling in the neonatal mouse brain

Minocycline, an antibiotic of the tetracycline family, inhibits microglia in many paradigms and is among the most commonly used tools for examining the role of microglia in physiological processes. Microglia may play an active role in triggering developmental neuronal cell death, although findings have been contradictory. To determine whether microglia influence developmental cell death, we treated perinatal mice with minocycline (45 mg/kg) and quantified effects on dying cells and microglial labeling using immunohistochemistry for activated caspase‐3 (AC3) and ionized calcium‐binding adapter molecule 1 (Iba1), respectively. Contrary to our expectations, minocycline treatment from embryonic day 18 to postnatal day (P)1 caused a > tenfold increase in cell death 8 h after the last injection in all brain regions examined, including the primary sensory cortex, septum, hippocampus and hypothalamus. Iba1 labeling was also increased in most regions. Similar effects, although of smaller magnitude, were seen when treatment was delayed to P3–P5. Minocycline treatment from P3 to P5 also decreased overall cell number in the septum at weaning, suggesting lasting effects of the neonatal exposure. When administered at lower doses (4.5 or 22.5 mg/kg), or at the same dose 1 week later (P10‐P12), minocycline no longer increased microglial markers or cell death. Taken together, the most commonly used microglial “inhibitor” increases cell death and Iba1 labeling in the neonatal mouse brain. Minocycline is used clinically in infant and pediatric populations; caution is warrented when using minocycline in developing animals, or extrapolating the effects of this drug across ages. © 2016 Wiley Periodicals, Inc. Develop Neurobiol 77: 753–766, 2017     

胃扩张刺激对大鼠大脑皮层及海马CCK mRNA表达的影响

胆囊收缩素（ｃｈｏｌｅｃｙｓｔｏｋｉｎｉｎ,ＣＣＫ）是脑肠肽中的一种,被认为是饱因子。本实验采用以地高辛标记的ＣＣＫ ｃＤＮＡ为探针的原位杂交和半定量ＲＴ－ＰＣＲ技术。用水囊扩张胃作为对胃壁的机械刺激模拟食物对胃的充盈作用,观察大鼠大脑皮层和海马内含ＣＣＫ神经元ＣＣＫ ｍＲＮＡ表达的变化情况。     

Effect of photostimulation on the wakefulness-sleep cycle in the common frog Rana temporaria

Effect of daily 30-min photostimulation in the 10 s light: 10 s pause regime (the total of 5 days) on the time structure of the wakefulness-protosleep cycle (WPC) was studied in the common frog Rana temporaria. Changes of EEG wave components were analyzed in three immobility forms of the types of catalepsy (P-1), catatonia (P-2), and cataplexy (P-3) that form protosleep. The first three photostimulations promoted a gradual increase of the P-1 state to 84.16 ± 11.6% (the initial value (IV) 22.9 ± 9.1%) and a decrease of representation of wakefulness to 4.86 ± 2.1% (IV 13.8 ± 7.8 %), of P-2 to 11.1 ± 5.3 (IV 53.3 ± 13.3 %), and of P-3 to 2.21 ± 1.0% (IV 11.1 ± 5.6%). After 4–5 photostimulations and especially after their complete cessation the percentage of P1 in the WPC was restored to initial values, whereas the percentage of the frog WPC P-3 considered to be a precursor of the homoiothermal sleep rose to 20 ± 8.3% after 5 photostimulations and to 38.5 ± 6.7% the next day. Changes in the frog EEG spectra appeared only after one photostimulation and were characterized by a brief increase of power of α-like waves and by inhibition of slow δ-waves. In P-2 the power of the slow δ-waves gradually rose. In P-3 the EEG parameters did not change. In all experimental animals a decrease of the relative thymus and adrenal masses was revealed, which indicates the stress nature of the photostimulation regime used in the work. The obtained data allow thinking that a certain neurohormonal response to stress has already been formed at the amphibian level and that an important role in this response realization is played by a coordinated interaction of the hypothalamic sleep-regulating system providing protosleep manifestations and of the hypothalamic neurosecretory system triggering hormonal cascade of the stress-reaction.     

Peculiarities of EEG in hard-of-hearing children of primary school age

Electroencephalographic examination of 7-to 9-year-old children with sensorineural deafness of degrees II and III included EEG recording in the resting state, in the course of reaction of activation (at opening of the eyes), under conditions of rhythmic photostimulation with frequencies of 4, 6, 9, and 12 sec⁻¹ and under those of the hyperventilation test. The results allow us to conclude that systems responsible for generation of EEG in hard-of-hearing children demonstrate some functionally immaturity. The following facts confirm the above conclusion. As compared with the norm, greater normalized spectral powers (SPs) of the delta and theta rhythms, a higher intensity of electrogenesis (integral power of oscillations) within all frequency ranges, and a smaller mean frequency of the dominant rhythm were typical of hard-of-hearing children. In these children, the reaction of activation in the majority of cases looked like incomplete suppression of the alpha rhythm. Upon rhythmic photostimulation, hard-of-hearing boys and girls demonstrated following of the rhythm at frequencies of 4 and 6 sec⁻¹ while children with normal hearing demonstrated that at 9 and 12 sec⁻¹ frequencies. The characteristics of EEG reactions under the conditions of the hyperventilation test reflected the immaturity of the fronto-thalamic controlling system, as well as certain dysfunction of lower brainstem regions in children with disorders of hearing. Neirofiziologiya/Neurophysiology, Vol. 40, No. 2, pp. 137–146, March–April, 2008.