摘要:目的:探讨联合应用激光汽化减压(percutaneous laser disc discompression,PLDD)、射频热凝靶点消融、臭氧注射治疗腰椎间盘突出症的的个体化选择。方法: 自2006年6月,在CT引导下选择性联合应用PLDD、射频和臭氧治疗腰椎间盘突出症患者267例,突出椎间盘的特点个体化选择穿刺路径和治疗方法;其中PLDD联合臭氧治疗92例(A组),射频联合臭氧治疗67例(B组),PLDD、射频和臭氧三者联合治疗108例(C组)。结果:所有患者均顺利完成手术,于术后1周、1个月,3个月及6个月随访记录VAS评分和Macanab优良率。三组患者VAS评分经方差分析,手术前、后有显著性差异(Plt;0.05),术后1周至6个月的VAS评分统计无显著性差异(Pgt;0.05);术后三组间VAS评分、Macanab优良率比较无显著性差异(Pgt;0.05)。结论: 选择性联合应用微创技术进行个体化的立体治疗,具有扩大微创手术适应症、提高手术疗效的优势,值得推广和利用。Abstract: Objective: To investigate the selectivity and individualization of using percutaneous laser disc discompression(PLDD) and ozone injection combined with radiofrequency thermocoagulation and target ablation curing lumbar intervertebral disc protrusion. Methods: From June 2006, 267 lumbar disc herniation cases were operated that guided by CT, the characteristic of the liable disc was confirmed by magnetic resonance imaging and CT before the procedure. 92 cases (A group) were treated by PLDD combined with ozone injection,67 case were treated by radiofrequency thermocoagulation and target ablation combined with ozone injection, 108 cases were treated by PLDD and ozone injection combined with radiofrequency thermocoagulation and target ablation. Results: All case been successfully operated, the theraptic effect was evaluated by comparing the value of VAS and excellent and good rate of therapy at preoperation and at 1 week, 1month,3 months, 6 months after operation. The value of VAS in three groups at postoperation were remarkably lower than preoperation (Plt;0.05). The excellent and good rate of therapy at 6 months was respectively 94.5% in group A,94.0% in group B and 95.4% in group C,no significant difference was observed between the three groups(Pgt;0.05).Conclusion: The selectivity and individualization of using PLDD and ozone injection combined with radiofrequency thermocoagulation and target ablation curing lumbar intervertebral disc protrusion can enlarge the indication and improve the clinical curative effect, it should be spreaded in clinic.
ObjectiveTo explore the clinical value of SEEG-guided radiofrequency thermocoagulation therapy in patients with posterior cortex epilepsy.MethodsA case of epilepsy secondary to viral encephalitis was reported in this paper, SEEG implantation confirmed that the seizure began in bilateral posterior head, and the right posterior head was the main area of disabling lesion. After a series of complete preoperative neuropsychological assessment, the right posterior head was found to have functional retention. Therefore, we used a minimally invasive radiofrequency thermocoagulation therapy to damage epileptic foci.ResultsThe patient were followed up for 2 years after operation, the seizure frequency were significantly reduced, and the patients did not show symptoms of functional loss.ConclusionPosterior cortex epilepsy is common in neonates with brain injury. The localization and lateralization of operation is difficult because its EEG showed bilateral discharges, or the seizures start from both sides of posterior head, meanwhile, posterior head involves functional areas, which makes the operation even more difficult. This minimally invasive treatment destroys the lesion and maximizes the protection of the patient's functional areas, which provides a new surgical approach for bilateral posterior cortex epilepsy in the future, especially for symptomatic epilepsy caused by hypoxic-ischemic brain injury and encephalitis.
ObjectiveTo investigate the establishment of a risk nomogram model for predicting vagus excitatory response in patients with functional epilepsy after radiofrequency thermocoagulation.MethodsA total of 106 patients with epilepsy admitted to the neurosurgery department of our hospital from January 2016 to June 2020 were selected and divided into the Vagus excitatory response (VER) group and the non-VER group according to their occurrence or absence. Logistic regression analysis was used to screen out the risk factors of VER during SEEG-guided Percutaneous radiofrequency thermocoagulation (PRFT) in patients with functional epilepsy, and R software was used to establish a histogram model affecting VER in SEEG-guided PRFT. Bootstrap method was used for internal verification. C-index, correction curve and ROC curve were used to evaluate the prediction ability of the model.ResultsLogistic regression analysis showed that age [OR=0.235, 95%CI (0.564, 3.076)], preoperative fugl-meyer score [OR=4.356, 95%CI (1.537, 6.621)], depression [OR=0.995, 95%CI (1.068, 7.404)], and lesion range [OR=1.512, 95%CI (0.073, 3.453)] were independent risk factors for the occurrence of VER in PRFT under the guidance of SEEG (P<0.05), and were highly correlated with the occurrence of VER in PRFT. Based on the above six indicators, a SEEG-guided colograph model of VER risk in PRFT was established, and the model was validated internally. The results showed that the C-index of the modeling set and validation set were 0.779 [95%CI (0.689, 0.869)] and 0.782 [95%CI (0.692, 0.872)], respectively. The calibration curves of the two groups fit well with the standard curves. The areas under the ROC curve (AUC) of the two groups were 0.779 and 0.782 respectively, which proved that the model had good prediction accuracy.ConclusionFor patients with functional epilepsy requiring seeg-guided PRFT therapy, age, preoperative Fugl-meyer score, depression and lesion range should be taken into full consideration to comprehensively assess the incidence of VER, and early intervention measures should be taken to reduce and reduce the incidence, which has good clinical application value.
ObjectiveTo preliminarily explore the damage effect of stereo electroencephalogram-guided radiofrequency thermocoagulation after increasing the number of electrodes in the epileptic foci.MethodsEight cases were included from 42 patients requiring SEEG from the Department of Neurosurgery of the Second Hospital of Lanzhou University during June 2017 to Jan. 2019, of which 6 cases were hypothetical epileptogenic foci located in the functional area or deep in the epileptogenic foci that could not be surgically removed, 2 patients who were unwilling to undergo craniotomy; added hypothetical epileptic foci Electrodes, the number of implanted electrodes exceeds the number of electrodes needed to locate the epileptic foci. After radiofrequency thermocoagulation damages the epileptogenic foci, the therapeutic effect is analyzed.ResultsIn 8 patients, the number of implanted electrodes increased from 1 ~ 6, with an average of (4±2.2), and the number of thermosetting points increased by 2 ~ 10, with an average of (7±3.1); follow-up (9±3.2) months, Epilepsy control status: 3 cases of Engel Ⅰ, 3 cases of Engel Ⅱ, 2 cases of Engel Ⅲ; 8 cases of epileptic seizure frequency decreased≥50%. There was a statistically significant difference in the frequency of attacks before and after thermocoagulation (P<0.05).ConclusionsIncreasing the lesion volume of the epileptic foci can obviously improve the efficacy of epilepsy. SEEG-guided radiofrequency thermocoagulation is an effective supplementary method for classical resection.
ObjectiveTo investigate the application of stereoelectroencephalography (SEEG) in the refractory epilepsy related to periventricular nodular heterotopia (PNH). MethodsTen patients with drug-resistant epilepsy related to PNHs from Guangdong Sanjiu Brain Hospital and the First Affiliated Hospital of Jinan University from April 2017 to February 2021 were studied. Electrodes were implanted based on non-invasive preoperative evaluation. Then long-term monitoring of SEEG was carried out. The patterns of epileptogenic zone (EZ) were divided into four categories based on the ictal SEEG: A. only the nodules started; B. nodules and cortex synchronous initiation; C. the cortex initiation with early spreading to nodules; D. only cortex initiation. All patients underwent SEEG-guided radiofrequency thermocoagulation (RFTC), with a follow-up of at least 12 months. ResultsAll cases were multiple nodules. Four cases were unilateral and six bilateral. Eight cases were distributed in posterior pattern, and one in anterior pattern and one in diffused pattern, respectively. Seven patients had only PNH (pure PNH) and three patients were associated with other overlying cortex malformations (PNH plus). The EZ patterns of all cases were confirmed by the ictal SEEG: six patients were in pure type A, two patients were in pure type B, one patient in type A+B and one in type A+B+C, respectively. In eight patients SEEG-guided RF-TC was targeted only to PNHs; and in two patients RFTC was directed to both heterotopias and related cortical regions. The mean follow up was (33.4±14.0) months (12 ~ 58 months). Eight patients (in pure type A or type A included) were seizure free. Two patients were effective. None of the patients had significant postoperative complications or sequelae. ConclusionThe epileptic network of Epilepsy associated with nodular heterotopia may be individualized. Not all nodules are always epileptogenic, the role of each nodule in the epileptic network may be different. And multiple epileptic patterns may occur simultaneously in the same patient. SEEG can provide individualized diagnosis and treatment, be helpful to prognosis.
ObjectiveTo study the therapeutic efficacy of stereoelectroencephalography (SEEG)-guided radiofrequency thermo-coagulation ablation (RF-TC) in the treatment of tuberous sclerosis (TSC) related epilepsy and to investigate the prediction of the therapeutic response to SEEG-guided RF-TC for the efficacy of the subsequent surgical treatment. MethodsWe retrospectively analyze TSC patients who underwent SEEG phase II evaluation from January 2014 to January 2023, and to select patients who underwent RF-TC after completion of SEEG monitoring, study the seizure control of patients after RF-TC, and classify patients into effective and ineffective groups for RF-TC treatment according to the results of RF-TC treatment, compare the surgical outcomes of patients in the two groups after SEEG, to explore the prediction of surgical outcome by RF-TC treatment. Results59 patients with TSC were enrolled, 53 patients (89.83%) were genetic detection, of which 28 (52.83%) were TSC1-positive, 21 (39.62%) were TSC2-positive, and 4 (7.54%) were negative, with 33 (67.34%) de novo mutations. The side of the SEEG electrode placement: left hemisphere in 9 cases, right hemisphere in 13 cases, and bilateral hemisphere in 37 cases. 37 patients (62.71%) were seizure-free at 3 months, 31 patients (52.54%) were seizure-free at 6 months, 29 patients (49.15%) were seizure-free at 12 months, and 20 patients (39.21%) were seizure-free at 24 months or more. 11 patients had a seizure reduction of more than 75% after RF-TC, and the remaining 11 patients showed no significant change after RF-TC. There were 48 patients (81.35%) in the effective group and 11 patients (18.65%) in the ineffective group. In the effective group, 22 patients were performed focal tuber resection laser ablation, 19 cases were seizure-free (86.36%). In the ineffective group, 10 patients were performed focal tuber resection laser ablation, only 5 cases were seizure-free (50%), which was a significant difference between the two groups (P<0.05). ConclusionsOur data suggest that SEEG guided RF-TC is a safe and effective both diagnostic and therapeutic treatment for TSC-related epilepsy, and can assist in guiding the development of future resective surgical strategies and determining prognosis.