ABSTRACT
Objective To investigate the effect of transcranial direct current stimulation (tDCS) on the amplitude of low-frequency fluctuation (ALFF) of the resting brain function network in patients in a minimal conscious state (MCS) so as to explore the mechanism.Methods Eleven MCS patients were selected.Among them,there were 9 males and 2 females,10 with cerebral trauma and 1 with cerebral hemorrhage,with an average age of (37.3±8.4) and an average course of disease of (3.4±0.1) months.All subjects were given a resting-state functional magnetic resonance imaging (rs-fMRI) assessment prior to the single tDCS treatment,followed by a 20-minute single sham tDCS treatment at a time.After single-sham stimulation,a second time rs-fMRI assessment test will be conducted,followed by a real tDCS treatment for 20 minutes.Eventually,a third time rs-fMRI assessment test will be implemented.Results No significant statistical difference was shown in terms of all the parameters after single shamtDCS as compared to those before the treatment (P>0.05).After single real-tDCS,no significant change was observed with CRS-R score,ALFF of default network (left anterior wedge),the frontal-parietal network (left fróntal lobe,right superior gyms),sensory motor network (left auxiliary motor area),subcortical network (right thalamus,bilateral caudate nuclei) was significantly higher than that before treatment,while the ALFF of the frontal network (frontal lobe) and auditory network (bilateral temporal lobes) was significantly decreased (P<0.05).After single real-tDCS,the ALFF of default network (right frontal lobe) was significantly enhanced compared to that after single sham-tDCS (P<0.05),while that of the salient network (left insula) and sensorimotor network (right central frontal) was significantly decreased (P<0.05).Conclusion The enhancement of ALFF activity in the resting state brain function network is a possible neural mechanism for tDCS to promote the recovery of consciousness level in pa tients with minimal conscious state.
ABSTRACT
@#Objective To explore the effect of electroacupuncture and transcutaneous electrical acupoint stimulation (TEAS) on somatosensory evoked potential (SEP) of the upper extremity in healthy subjects. Methods From October, 2015 to April, 2016, ten healthy young volunteers were selected. Each of the subjects was randomly treated with electroacupuncture and TEAS. Before and after treatment, the latency and amplitude of N20 and N9 of SEP were detected. Results After electroacupuncture, the latency of N20 prolonged in the stimulated side (Z=-2.620, P<0.01); the latency of N9 prolonged (Z=-2.454, P<0.05), and the amplitude of N9 decreased (Z=-2.330, P<0.05) in the non-stimulated side. After TEAS, the latencies of N9 both in the stimulated side and the non-stimulated side prolonged (Z>2.695, P<0.01). There was no significant difference in the D-value of latency and amplitude of N20 and N9 in both two sides between two treatments (Z<1.817, P>0.05). Conclusion Both electroacupuncture and TEAS could affect the latency and amplitude of N20 and N9, and no difference was found between two treatments.
ABSTRACT
BACKGROUND:Previous studies have showed thatTougu XiaotongCapsule (TGXTC) exertsbetter effects on osteoarthritis, byregulatingRho/Rock signaling pathway, inhibitingsignal transduction of chondrocyte mitochondrial apoptosis pathway,varyingthe rate and pattern of subchondral bone remodeling and improving the arrangement of subchondral bone colagen fibers and calcium-phosphate crystalization. OBJECTIVE:To observe the effects of the serum containing TGXTC and itsdisassembled recipeson chondrocytedegenerationof ratsviaWnt/β-cateninsignal pathway, and to explore the maintherapeutic method forosteoarthritis in theTGXTC. METHODS:FortySprague-Dawley rats were randomlyassigned to receivethe treatment ofTGXTC,Bushen Rougan(BSRG),Huoxue Qufeng(HXQF) and normal saline, respectively, according tothe dose conversion methods ofanimaltoanimal and animaltohuman. Thenvarious drug-containing serums wereprepared for thefolowingcelular experiment.After culture and passage, chondrocytesfromSprague-Dawley ratsat passage 3 were divided into five groups: blank control, model, TGXTC, BSRG, HXQF groups. Cels in the latter four groups wereculturedin appropriate drug-containing serums(normal salineserumfor the model group) for 72 hours, folowing intervention with interleukin-1β for 24 hours.Cels in the blank control group were cultured innormal saline serum.Afterwards, cels in al the five groups were colected for detecting expression ofWnt 4, β-cateninandmatrix metaloproteinase 13at mRNA and proteinlevels using real-time PCR and western blot assay, respectively. RESULTS AND CONCLUSION:Compared with theblank control group, the expressionof Wnt 4,β-catenin, matrix metaloproteinase 13 wassignificantly increasedin the model group. Compared with the model group, the expression of Wnt 4, β-catenin, matrix metaloproteinase 13 in the TGXTC, BSRG and HXQF groups were decreasedsignificantly, sequenced as TGXTC group
ABSTRACT
Objective To study the effects of functional electric stimulation(FES) on neural function recovery and expression of nestin around cerebral infract area of rats with acute stroke.Methods The model of middle cerebral artery occlusion(MCAO) of male adult SD rats was established with the method of modified intraluminal filament occlusion.Sixty successfully established model rats were randomly allocated into FES group, placebo group and control group(20/group).Three days after MCAO' s surgery, rats in FES group were treated with FES device while the ones in placebo stimulation group were treated with the same FES device but without electrical output.Rats in control group had no treatment.All groups were randomly assigned into 4 subgroups according to treatment time:1 d,3 d ,7 d and 14 d (5/subgroup).The modified neurological severity score(mNSS) was adopted to evaluate neural function recovery before and after treatment in 4 time points as mentioned above.Meanwhile,the nestin expression in various time points was detected by immunohistochemistry stain in distant area of ipsilateral cortex of infarction.Results The mNSS sours in FES group is lower than that in placebo simulation group and control group at the 7 thd and 14thd (P < 0.05 ) ;The expression of nestin-positive cells in distant area of ipsilateral cortex of infarction of rats in FES group is higher than that in placebo stimulation group and control group ( P < 0.05 ).Conclusions FES may improve the recovery of neural function in the earlier stage of cerebral infarction.FES treatment could improve the expression of nesitin around cerebral infarct area and it could be one of the mechanisms of FES' s effect.
ABSTRACT
Objective To observe the effect of low level infrasound on neuropathic pain and explore its underlying mechanism. Methods Rats were divided into experimental and control groups after their L5 spinal nerves had been ligated to create a neuropathic pain model. The experimental group was subjected to 40 to 80 dB infra sound. The control group received no infrasound treatment. Paw withdrawal latency in response to heat radiation was measured and the average gray scale of the microglia in a slice of the L5 spinal cord was compared. Results The experimental group expressed significantly lengthened paw withdrawal latency on the 12th and 14th day. The average gray scale showed significantly weakened activation of spinal microglia in the 2nd week of infrasound treatment compared with the control group. Conclusion Low level infrasound can ameliorate neuropathic pain to a certain extent,which might be related with inhibition of spinal microglia.
ABSTRACT
Objective To observe the effects of low frequency electrical stimulation (LFES) on the proliferation of endogenous brain neural stem cells (NSCs) and on the expression of basic fibroblast growth factor (bFGF)and epidermal growth factor (EGF) in rats with acute cerebral infarction; to explore the therapeutic mechanism of LFES in improving neural function. Methods Fifty-four rats were randomly divided into a LFES group, a placebo stimulation group and a sham-operated group. Each group was further divided into 3rd day, 7th day and 14th day subgroups, with 6 rats in each subgroup. An acute cerebral infarction model was induced in the rats of the LFES and placebo stimulation groups by middle cerebral artery occlusion (MCAO). Three days after the operation, rats in the LFES group began LFES treatment (frequency 30 Hz, pulse width 250 μs, current intensity 3 mA, 10 min/d) ,while the placebo stimulation group was treated identically but without electricity. The rats in the sham-operated group had no special treatment. The expression of nestin positive cells in the subgranular zone of the hippocampus and the subventricular zone was detected by immunohistochemical staining. The expression of bFGF, EGF proteins and mRNA in the ischemic hemisphere was detected by Western blotting and RT-PCR analysis. A screen test was applied to evaluate motor function. Results Nestin-positive cells in the subgranular and subventricular zones of rats in the LFES group increased significantly more than in the placebo stimulation group at the 7th and 14th day. The expression of bFGF, EGF proteins and mRNA in the ischemic hemisphere was up-regulated compared to the placebo stimulation group at the 7th and 14th day. At the 14th day a difference in motor function was observed in rats in the LFES group compared with the placebo stimulation group. Conclusion LFES can promote the proliferation of endogenous brain NSCs and the expression of bFGF and EGF in rats with acute cerebral infarction. It can also improve motor function and enhance neural plasticity in the brain.
ABSTRACT
Objective To study the effects of low-frequency electrical stimulation(LFES)on motor function and the expression of glia fibrillary acidic protein(GFAP)around cerebral infarction sites in rats.Methods Fifty-four male adult Sprague-Dawley rats were randomly divided into a LFES group,a placebo group and a sham operation group(18/group).All groups were randomly divided into 3 treatment groups.A rat model of middle cerebral artery occlusion(MCAO)was established using intraluminal filament occlusion.Treatment was carried out 3 d after the operation.Rats in the LFES treatment groups were stimulated with LFES for 3,7 or 14 days (10 min/d);the placebo groups were treated in the same way without electric stimulation;the sham operation subgroups didn't receive any therapy.Scores on a beam-walking test,a rotating pole test and a screen test were assessed at each time point mentioned above.Expression of GFAP was also assessed using immunohistochemcal techniques.Results The paralysed limbs recovered motor function better in the LFES groups than in the control groups.GFAP-positive cells were more numerous at the margins of the infarction area in the treated groups than in the control groups.Conclusions LFES might increase the expression of GFAP,which might be an important mechanism in improving brain plasticity after cerebral ischemia,aiding the recovery of the central nervous system and rebuilding its functioning.
ABSTRACT
Objective To study changes in synaptic plasticity in the contralesional mirror area of the cortexes of rats with cerebral infarction treated by low-frequency electrical stimulation(LFES)and to explore the therapeutic mechanism of LFES on the molecular level.Methods Forty-eight Sprague-Dawley rats were randomly allocated into a LFES group,a placebo group and a sham-operation group.Following middle cerebral artery occlusion(MCAO),rats in the LFES group were treated with LFES for 7 d(20 min/d),while the ones in placebo group were connected with the same LFES device but without electricity.Rats in the sham-operation group were subjected to a MCAO operation without occlusion and then received no special treatment.Synaptic ultra-structures and the expression levels of glia fibrillary acidic protein(CFAP)and synaptophysin in the contralesional mirror area of the cortexes of the rats in each group were measured with electron-microscopy and Western blotting.Results Compared with the placebo group or the rats before treatment,rats treated with LFES exhibited ultra-structural changes in the form of larger curvature of synaptic interfaces and narrower synaptic clefts.GFAP expression levels did not fluctuate significantly,but the expression of synaptophysin was significantly up-regulated.Conclusion LFES treatment can induce active changes in synaptic plasticity in the contralesional mirror area of the cortex of rats after cerebral infarction.
ABSTRACT
Objective To observe the effects of infrasound on rat myocardial cells and to study its underlying mechanism. Methods One hundred Sprague-Dawley rats were divided into a normal control group and a infrasound exposure group, composed of various subgroups subject to exposure to infrasound for 2 hours daily for 1 d,7 d,14 d,21 d,and 28 d, respectively. The ultra-microstructure and apoptosis of the rat myocardial cells were observed, and SOD and MDA were measured. Results After exposure to infrasound, significant ultra-microstructural impairment and increased apoptosis of the myocardial cells were observed in the infrasound exposure group as compared to those of the normal control group,(P
ABSTRACT
AIM:To observe the effects of infrasound on sperm quality and explore some underlying mechanisms. METHODS: Adult male SD rats were exposed to infrasound of 8 Hz at 90 dB or 130 dB for 1,7,14 or 21 d(2 h/d), whose epididymises were obtained for sperm count, abnormity and activity ratio inspection and whose testes for GSH-Px and MDA inspection. RESULTS: With prolonged exposure, sperm quality and GSH-Px in 90 dB and 130 dB groups decreased, while MDA increased, and at the same time point, the indexes of 130 dB groups changed more profoundly than those in 90 dB groups. CONCLUSION: Biological effect of infrasound on testes depends on the exposure parameters. The mechanisms of which could be unbalanced antioxidant system induced by infrasonic exposure.