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1.

Background

Approximately 20-40?% of epilepsy patients show drug resistance and a large number of patients under antiepileptic therapy suffer from side effects including cognitive disorders and depression. Transcutaneous vagus nerve stimulation (t-VNS) can be used for these patients as a supplementary treatment to resection epilepsy surgery.

Aim

The main aims of this investigation were to test the safety, tolerability and practicality of t-VNS in epilepsy patients.

Material and methods

For the proof of concept trial ten patients with pharmacoresistant epilepsy (eight with focal and two with generalized epilepsy) were recruited. For admission to the study a minimum frequency of four seizures per month was necessary. The medication dosage was kept constant in the baseline and in the total treatment phase. The auricular branch of the vagus nerve (ABVN) of the left ear was stimulated. The stimulation pulses were biphasic with a frequency of 10/s and a pulse width of 300 µs. After an initial training period the stimulation was carried out in the morning, midday and evening for 1 h each over a period of 9 months. The subjectively experienced frequency of seizures, continuous video EEG (electroencephalogram) long-term conduction carried out 4 times for 1 week each and cognitive and functional alterations were considered to be end point parameters.

Results

The total treatment period of 9 months was completed by seven patients. Of these seven patients five showed a reduction in the frequency of seizures during the 9-month treatment period and two reported an increase in seizures. In two patients the seizure frequency was reduced by 45 % and 48 % in a comparison between baseline and end of treatment. In two further patients contradictions arose between the subjective report on seizure frequency and the objectively quantified frequency in the video EEG. For one patient the interictal epileptic EEG activity was continually reduced during the course of the 9-month period.

Conclusion

The t-VNS procedure represents a procedure which is well tolerated and practical for long-term treatment.  相似文献   

2.

Purpose

This study was performed 1) to determine the timing of spike normalization in patients with benign epilepsy with centrotemporal spikes (BECTS); 2) to identify relationships between age of seizure onset, age of spike normalization, years of spike persistence and treatment; and 3) to assess final outcomes between groups of patients with or without spikes at the time of medication tapering.

Methods

Retrospective analysis of BECTS patients confirmed by clinical data, including age of onset, seizure semiology and serial electroencephalography (EEG) from diagnosis to remission. Age at spike normalization, years of spike persistence, and time of treatment onset to spike normalization were assessed. Final seizure and EEG outcome were compared between the groups with or without spikes at the time of AED tapering.

Results

One hundred and thirty-four patients were included. Mean age at seizure onset was 7.52?±?2.11?years. Mean age at spike normalization was 11.89?±?2.11 (range: 6.3–16.8) years. Mean time of treatment onset to spike normalization was 4.11?±?2.13 (range: 0.24–10.08) years. Younger age of seizure onset was correlated with longer duration of spike persistence (r?=??0.41, p?<?0.001). In treated patients, spikes persisted for 4.1?±?1.95?years, compared with 2.9?±?1.97?years in untreated patients. No patients had recurrent seizures after AED was discontinued, regardless of the presence/absence of spikes at time of AED tapering.

Conclusion

Years of spike persistence was longer in early onset BECTS patients. Treatment with AEDs did not shorten years of spike persistence. Persistence of spikes at time of treatment withdrawal was not associated with seizure recurrence.  相似文献   

3.
Purpose: Hippocampal deep brain stimulation (DBS) is an experimental therapy for patients with pharmacoresistant temporal lobe epilepsy (TLE). Despite the successful clinical application of DBS, the optimal stimulation parameters are undetermined. We evaluate the efficacy of a new form of DBS, using continuous stimuli with Poisson distributed intervals (Poisson distributed stimulation, PDS) in the kainate (KA) rat model, a validated model for human TLE. Methods: Status epilepticus was elicited by injection of KA (i.p.). After development of spontaneous seizures, rats were implanted with hippocampal DBS‐ and depth electroencephalography (EEG) electrodes. After baseline EEG monitoring, one group of rats (n = 13) was treated with PDS and a second (n = 11) received regular high frequency stimulation (HFS) at 130 Hz. Stimulation intensity was 100 μA below the threshold for induction of epileptiform EEG activity. Results: Stimulation intensity was significantly lower for PDS (156 ± 20 μA) than HFS (207 ± 23 μA; p < 0.02). Seven (54%) of 13 rats treated with PDS and 5 (45%) of 11 rats treated with HFS experienced a significant reduction in seizure frequency. In PDS‐improved rats, seizure frequency was reduced to 33% (p < 0.01) of baseline value and in HFS‐improved rats to 50% (p < 0.01). After termination of PDS, seizure rate returned to baseline value. Discussion: Continuous hippocampal PDS significantly reduces the number of spontaneous seizures. Compared to regular HFS, there is a slightly larger number of improved rats and a larger efficacy at a considerably lower stimulus intensity. The first two observations leave room for optimization, whereas a lower intensity is beneficial for battery life.  相似文献   

4.
The vagus nerve serves as a central pathway for communication between the central and peripheral organs. Despite traditional knowledge of vagus nerve functions, detailed neurophysiological dynamics of the vagus nerve in naïve behavior remain to be understood. In this study, we developed a new method to record spiking patterns from the cervical vagus nerve while simultaneously monitoring central and peripheral organ bioelectrical signals in a freely moving rat. When the rats transiently elevated locomotor activity, the frequency of vagus nerve spikes was correspondingly increased, and this activity was retained for several seconds after the increase in running speed terminated. Spike patterns of the vagus nerve were not robustly associated with which arms the animals entered on an elevated plus maze. During sniffing behavior, vagus nerve spikes were nearly absent. During stopping, the vagus nerve spike patterns differed considerably depending on external contexts and peripheral activity states associated with cortical arousal levels. Stimulation of the vagus nerve altered rat's running speed and cortical arousal states depending on running speed at the instant of stimulation. These observations are a new step for uncovering the physiological dynamics of the vagus nerve modulating the visceral organs such as cardiovascular, respiratory, and gastrointestinal systems.  相似文献   

5.
EEG changes with vagus nerve stimulation.   总被引:8,自引:0,他引:8  
Vagus nerve stimulation (VNS) has been shown to induce EEG changes in animals, but human studies have not shown any significant acute EEG changes. This study is to determine the long-term effect of VNS on EEG. Twenty-one patients aged 4 to 31 years (mean: 14.1 +/- 7.0 years) were studied for a mean duration of 16.8 months with serial EEGs performed at baseline and at 3 months, 6 months, and 12 months after receiving a VNS implant. Five patients who showed active spikes/spike and wave activity on baseline EEGs were found to have synchronization of epileptiform activity, progressive increase in duration of spike-free intervals (P < 0.05), and progressive decrease in duration and frequency of spikes/spike and wave activity (P < 0.01) with time. The remaining 16 patients with less active baseline EEGs did not show obvious synchronization or clustering of spikes but also showed a statistically significant progressive decrease in the number of spikes on EEG with time (P < 0.004 at 3 months, P < 0.008 at 6 months, and P < 0.004 at 1 year). Vagus nerve stimulation induces progressive EEG changes in the form of clustering of epileptiform activity followed by progressively increased periods of spike-free intervals. This may reflect the mechanism of action of VNS in achieving seizure control: alternating synchronization and desynchronization of EEG, with the latter being progressively the dominant feature.  相似文献   

6.
Purpose: We explored high‐frequency oscillations (HFOs) in scalp sleep electroencephalography (EEG) studies of patients with idiopathic partial epilepsy (IPE) of childhood in order to obtain a better understanding of the pathologic mechanisms underlying IPE. Methods: The subjects were 45 patients, including 32 with benign childhood epilepsy with centrotemporal spikes (BCECTS) and 13 with Panayiotopoulos syndrome (PS). A total of 136 EEG records were investigated through temporal expansion and filtering of traces and time‐frequency spectral analysis. Key Findings: HFOs with frequency of 93.8–152.3 Hz (mean 126.2 ± 13.6 Hz) in the band of ripples were detected in association with spikes in 97 records (71.3%). Time from last seizure to the EEG recording was significantly shorter in those with spike‐related HFOs than in the EEG recordings with spikes without HFOs (p = 0.006). Although time from last seizure reflects age, age at the time of recording was not significantly different between EEG studies with and without HFOs. Peak‐power values of the high‐frequency spots in time‐frequency spectra were significantly negatively correlated with time from last seizure (R2 = 0.122, p < 0.001) but not with age at the time of recording. Peak frequencies of the high‐frequency spectral spots were not significantly correlated with age at the time of recording or with time from last seizure. Significance: The close relationship between the generation of spike‐related HFOs and the period of active seizure occurrence indicated that HFOs may tell us more about epileptogenicity in IPE than the spikes themselves. Because there is a spectrum of pediatric epileptic disorders extending from the benign end of BCECTS to the encephalopathic end of epilepsy with continuous spike‐waves during slow‐wave sleep (CSWS), and HFOs that have already been detected in association with CSWS were more prominent than HFOs in IPE, intense spike‐related HFOs may indicate poor prognosis.  相似文献   

7.
《Brain & development》2020,42(3):270-276
ObjectiveTo reveal the changes of centrotemporal spikes that occur during the disease course of self-limited epilepsy with centrotemporal spikes (SLECTS).MethodWe retrospectively reviewed the serial EEGs of 63 patients with SLECTS from initial diagnosis to remission. There were 32 patients who did not undergo treatment and 31 patients who underwent treatment with oxcarbazepine (OXC). The change of occurrence or abundance, voltage, and location of centrotemporal spikes of serial EEGs were analyzed and compared between the two groups. Clinical seizure evidenced and reported was counted. The time gap between seizure remission and EEG remission was measured in the two groups.ResultChanges of occurrence or abundance of the centrotemporal spikes were either abrupt (sudden disappearance of the frequent spikes on following EEG) or gradual (decline in number over 2 or more serial EEGs). Pattern of spike disappearance was not significantly different between the medication naïve group and OXC treated group. The spike voltage or the location of centrotemporal spikes did not change during the disease course in most cases. Delay between seizure remission and EEG normalization was 3.34 ± 1.75 (mean ± standard deviation, range: 0.77–7.97) years in untreated patients and 3.03 ± 1.41 (0.95–6.61) years in OXC-treated group.ConclusionPattern of spike disappearance in SLECTS was either abrupt or gradual. Treatment with OXC had no effect in the disappearance pattern. Precise data regarding the pattern of disappearance and delay between seizure remission and EEG normalization can help to understand the evolution of spike in SLECTS and to predict the timing of normalization of EEG after seizure remission.  相似文献   

8.
Previous studies of the effects of electrical vagus stimulation on experimental seizures were without suitable controls or statistical validation, and ignored the potential role of vagally-induced hemodynamic depression on seizure expression. This study addresses these limitations. The effects of periodic left vagus nerve stimulation (LVNS) on chemically-induced seizures in rats were compared with control groups receiving no stimulation (NoS), left sciatic nerve stimulation (LSNS) and LVNS after pretreatment with methyl atropine (MA-LVNS). Stimulation followed a 30 s on-120 s off cycle over 130 min. Seizures were scored visually and the temporal variation of their probability P(s) across the stimulation cycle was measured statistically. P(s) was significantly different (P<0.01) for all groups: LSNS had the highest and MA-LVNS the lowest seizure probability; LVNS and NoS had intermediate values. While LVNS blocked seizures, it also precipitated them, explaining why its anti-seizure effect was only slightly greater than NoS. Neither LVNS nor MA-LVNS induced changes in cortical rhythms ('activation') associated with decreased P(s), unlike LSNS which increased cortical rhythm synchrony and with it, P(s). LVNS alone induced marked bradycardia and moderate hypoxemia. In conclusion, cranial and peripheral nerve stimulation have complex, time-varying effects on cerebral excitability: low frequency LSNS facilitated seizures, while LVNS both suppressed and facilitated them. The anti-seizure effect of LVNS was small and may have, in part, been due to a hemodynamically-induced deficit in energy substrates. The effects of MA-LVNS on seizure duration and P(s) raise the possibility that, in the absence of hemodynamic depression, stimulation of this nerve does not have a strong anti-seizure effect.  相似文献   

9.
《Brain stimulation》2021,14(4):771-779
BackgroundTranscranial direct current stimulation (tDCS) provides a noninvasive polarity-specific constant current to treat epilepsy, through a mechanism possibly involving excitability modulation and neural oscillation.ObjectiveTo determine whether EEG oscillations underlie the interictal spike changes after tDCS in rats with chronic spontaneous seizures.MethodsRats with kainic acid-induced spontaneous seizures were subjected to cathodal tDCS or sham stimulation for 5 consecutive days. Video-EEG recordings were collected immediately pre- and post-stimulation and for the subsequent 2 weeks following stimulation. The acute pre-post stimulation and subacute follow-up changes of interictal spikes and EEG oscillations in tDCS-treated rats were compared with sham. Ictal EEG with seizure behaviors, hippocampal brain-derived neurotrophic factor (BDNF) protein expression, and mossy fiber sprouting were compared between tDCS and sham rats.ResultsInterictal spike counts were reduced immediately following tDCS with augmented delta and diminished beta and gamma oscillations compared with sham. Cathodal tDCS also enhanced delta oscillations in normal rats. However, increased numbers of interictal spikes with a decrease of delta and theta oscillations were observed in tDCS-treated rats compared with sham during the following 2 weeks after stimulation. Resuming tDCS suppressed the increase of interictal spike activity. In tDCS rats, hippocampal BDNF protein expression was decreased while mossy fiber sprouting did not change compared with sham.ConclusionsThe inverse relationship between the changes of delta oscillation and interictal spikes during tDCS on and off stimulation periods indicates that an enhanced endogenous delta oscillation underlies the tDCS inhibitory effect on epileptic excitability.  相似文献   

10.
ObjectiveThe effect of continuous subthreshold cortical stimulation (CSCS) over the seizure onset zone (SOZ) in epilepsy was analyzed to delineate the affected physiological processes.MethodECoG data was recorded over SOZ and adjacent regions in patients (n = 7) with refractory-epilepsy. Data was reviewed before and during 2 Hz cortical electrical stimulation. Group differences were estimated using ANOVA and correlation with Pearson’s r.ResultsCSCS reduced background ECoG power at SOZ (p < 0.05), increased spectral coherence (p < 0.05) and reduced spike rate (p < 0.01) over all recorded sites. Spectral power and coherence (p < 0.01) correlated with spike rate at SOZ but not with each other at any location. Spike morphology correlated with spike-rate over all recorded sites (p < 0.0001) and with spectral power and coherence at SOZ (p < 0.01).ConclusionThis study shows changes in cortical electrophysiology during CSCS over the SOZ where spike rate reduction correlated with two independent electrophysiological parameters, background power and coherence. These results suggest the possibility of a causal relationship between spectral power, coherence and interictal spikes which may be related to seizure rate.SignificanceImproved understanding of the effect of electrical stimulation on epileptic tissue could suggest improvements in stimulation paradigms to reduce seizure frequency.  相似文献   

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