ObjectiveThe optimal target of deep brain stimulation (DBS) for treating intractable epilepsy is still undefined. Cumulative studies suggest that the mediodorsal thalamic nucleus (MD) is involved in seizure activity, the purpose of this study was to investigate the effect of high frequency stimulation in MD on pentylenetetrazole (PTZ)-induced seizures in rats. MethodsThe experimental rats (Male Sprague-Dawley rats 280-350 g) were all provided by Experimental Animal Center, Zhejiang Academy of Medical Science, Hangzhou, China. The rats were given unilateral or bilateral stimulation of the MD at 100 Hz (HFS group) and sham stimulation, others were given unilateral stimulation of the MD at 1 Hz (LFS group). EEGs in the cortex and seizure behavior were recorded with the Neuroscan system at the same time. ResultsNeither LFS nor HFS of the MD changed the latency to the first spikes or EEG manifestations for stage 3 and stage 5 seizures; animals receiving unilateral or bilateral HFS of the MD decreased the number of stage 5 EEG seizure synchronized with the convulsive episodes; LFS and sham stimulation showed multiple periods of continuous spikes which accompanied stage 5 or stage 4 seizures. HFS of unilateral or bilateral MD, but not LFS, decreased the seizure stage, the number of clonic movement episodes, and the duration of acute PTZ-induced seizures. The average latency to onset of myoclonic jerks did not differ among groups. Unilateral and bilateral HFS of the MD had a similar antiepileptic effect. ConclusionHFS of the MD may be of value as a new antiepileptic approach for patients with generalized epilepsy, besides, the seizure model, should be fully considered in clinical application.
Existing neuroregulatory techniques can achieve precise stimulation of the whole brain or cortex, but high-focus deep brain stimulation has been a technical bottleneck in this field. In this paper, based on the theory of negative permeability emerged in recent years, a simulation model of magnetic replicator is established to study the distribution of the induced electric field in the deep brain and explore the possibility of deep focusing, which is compared with the traditional magnetic stimulation method. Simulation results show that a single magnetic replicator realized remote magnetic source. Under the condition of the same position and compared with the traditional method of stimulating, the former generated smaller induced electric field which sharply reduced with distance. By superposition of the magnetic field replicator, the induced electric field intensity could be increased and the focus could be improved, reducing the number of peripheral wires while guaranteeing good focus. The magnetic replicator model established in this paper provides a new idea for precise deep brain stimulation, which can be combined with neuroregulatory techniques in the future to lay a foundation for clinical application.
ObjectiveTo explore the best nursing regimen for patients with severe Tardive dyskinesia (TD) after deep brain stimulation (DBS). MethodsTo analyze the clinical nursing data of 7 patients with TD treated by DBS in our department from January 2018 to August 2019, preoperative assessment of the patient's condition, dyskinesia care, psychological care, preoperative preparation, preoperative guidance, etc. General nursing, observation and nursing of complications, psychological nursing, safety management and rehabilitation training of limb function were carried out after operation discharge to discharge guidance, daily life guidance, DBS device-related education and other post-discharge continuous care to help patients improve quality of life. The changes of TD symptoms were assessed with the abnormal involuntary movement scale -LRB-AIMS, the nursing effect was assessed with the psychiatric nursing observation sc-Nosiee (NOSIE) , and the self-care ability was assessed with the ability of daily livin-ADL- scale (ADL). ResultsAll of the 7 TD patients recovered well after operation, without complications caused by improper nursing, and the TD symptoms were relieved. The AIMS and NOSIE scores were significantly lower at 1 month, 3 months and 1 year after operation than those before operation (P<0.05). The ADL scores were significantly higher than those before operation (P<0.05). ConclusionIn order to treat TD patients with DBS operation, we should pay attention to the pertinent nursing in perioperative period and the continuous nursing after discharge, it is of great significance to relieve the symptoms of involuntary movement, improve the mental state and improve the self-care ability of patients with TD.