Glioma related epilepsy (GRE) is a complication that seriously affects the quality of life and treatment process of glioma patients. The genes and biomolecules in the tumor microenvironment may contribute to the mechanisms and pathways of epilepsy. In addition, it has been found that epileptic seizures can promote the growth of brain tumors, making controlling epilepsy a key factor in treating brain tumors., However, in current understanding, not all genetic molecular features carried by gliomas themselves are involved in the pathogenesis of GRE. With the deepening understanding of GRE, it has been discovered that some molecular features of gliomas are involved in the pathogenesis of GRE, mainly through the Ras/Raf/MAPK (MEK)/ERK and PI3K/AKT/mTOR pathways, which are also involved in the pathogenesis of gliomas. In 2021, the World Health Organization (WHO) classified diffuse gliomas into two categories: adult and pediatric, and further subdivided them into types such as astrocytoma, oligodendroglioma, and glioblastoma. This classification helps to more accurately understand and apply the molecular characteristics of gliomas, promote the standardization of tumor pathological diagnosis, and may have an impact on the treatment and prognosis evaluation of GRE. This review links genes and biomolecules in the tumor microenvironment through the latest WHO classification, summarizes previous research and recent findings, and provides a deeper understanding of the molecular characteristics of gliomas and their relationship with epilepsy related molecular pathways. It explores more effective treatment methods to suppress epilepsy symptoms and tumor growth, which is of great significance for improving the diagnosis and treatment of GRE.
ObjectiveTo analyze the electro-clinical characteristics and surgical outcome of low-grade developmental tumors in temporal lobe. MethodsThe onset age, seizure duration, seizure types, electroencephalogram and surgical outcome of 49 patients with low-grade developmental tumor of temporal lobe were analyzed retrospectively. ResultsTwo groups of the seizure types were divided. The first group was spasm, the other was focal onset. There were 12 cases in spasm group, with an average onset age of (1.00±0.59) years. The discharge was extensive and multi-brain-area locaded, especially in the temporal montages and the ipsilateral posterior montages. There were 37 cases in second group, with an average onset age of (8.90±8.84) years, mainly including autonomic seizure, tonic seizure and automotor seizure. In this group, the discharge was mainly recorded in the temporal montages, which could spread to the frontal montages and less locaded in posterior montages. The difference of onset age between the two groups was statistically significant (P<0.01). The average follow-up of spasm group was (2.80±1.57) years, and the surgical outcome of all patients in this group were all Engel I (100.00%, 12/12). The focal onset group was followed up for an average of (6.50±4.78) years, and the rate of Engel I was 91.80% (34/37). There was no significant difference between the two groups (P>0.05). ConclusionsFor low-grade developmental tumors in temporal lobe, there are two seizure types, including spasm and focal onset. The onset age of spasm is earlier, while patients with focal onset mostly start at childhood or older, rare in infancy. Surgery has a good effect on the treatment of temporal lobe developmental tumor epilepsy.
Glioma is a primary brain tumor with high incidence rate. High-grade gliomas (HGG) are those with the highest degree of malignancy and the lowest degree of survival. Surgical resection and postoperative adjuvant chemoradiotherapy are often used in clinical treatment, so accurate segmentation of tumor-related areas is of great significance for the treatment of patients. In order to improve the segmentation accuracy of HGG, this paper proposes a multi-modal glioma semantic segmentation network with multi-scale feature extraction and multi-attention fusion mechanism. The main contributions are, (1) Multi-scale residual structures were used to extract features from multi-modal gliomas magnetic resonance imaging (MRI); (2) Two types of attention modules were used for features aggregating in channel and spatial; (3) In order to improve the segmentation performance of the whole network, the branch classifier was constructed using ensemble learning strategy to adjust and correct the classification results of the backbone classifier. The experimental results showed that the Dice coefficient values of the proposed segmentation method in this article were 0.909 7, 0.877 3 and 0.839 6 for whole tumor, tumor core and enhanced tumor respectively, and the segmentation results had good boundary continuity in the three-dimensional direction. Therefore, the proposed semantic segmentation network has good segmentation performance for high-grade gliomas lesions.
ObjectiveTo explore the clinical features and prognostic factors of diffuse brain stem glioma in children. MethodsA retrospective analysis was conducted on pediatric diffuse brain stem glioma diagnosed by pathology in West China Hospital of Sichuan University between January 2016 and May 2019. The demographic data, clinical manifestations, MRI findings, pathological results, and treatment were included in the prognosis study.ResultsA total of 39 cases of pediatric diffuse brain stem glioma confirmed by pathology were enrolled, including 21 males and 18 females aged between 3 and 14 years with an average of (8.1±2.8) years and mostly between 5 and 10 years (29 cases). The mean maximum diameter of gliomas was (4.46±0.81) cm. Among the 39 cases, there were 15 cases complicated with hydrocephalus and 16 cases whose tumors completely surrounded the basilar artery. The median survival time was 6 months. The one-year survival rate was 15.4%, and the two-year survival rate was 5.1%. Univariate analyses showed that the tumor enhancement and completely enclosed basilar artery had significant impact on the prognosis (P<0.05). Multiple Cox regression analysis showed that whether the basilar artery was completely wrapped was related to the prognosis [hazard ratio=4.596, 95% confidence interval (1.839, 11.488), P=0.001]. ConclusionsPediatric diffuse brain stem gliomas are common in children aged 5-10 years with poor prognosis. Whether the tumor completely surrounds the basilar artery is closely related to the short overall survival time.
High-grade gliomas are the most common malignant primary central nervous system tumors with poor prognosis. The operation based on the principle of maximum safe resection of tumors, combined with radiation therapy and chemotherapy, is the primary treatment method. This treatment only delays the progression of high-grade gliomas, and almost all patients eventually develop disease progression or relapse. With the development of molecular biology, immunology, and genomics, people have a deeper understanding of the pathogenesis of gliomas. Targeted therapy, immunotherapy, and other comprehensive treatments are expected to become potential treatments for high-grade gliomas. This article reviews the current status of medical treatment of primary and recurrent high-grade gliomas, and the research progress of high-grade gliomas in targeted therapy and immunotherapy.
【摘要】 目的 探讨高级别胶质瘤患者放射、化学治疗后假性进展的临床特点、诊断与处理。 方法 分析2008年6月-2009年6月接受综合治疗的31例高级别胶质瘤患者临床资料,对假性进展的患者进行回顾分析,按照实体瘤疗效评判标准应用磁共振进行疗效评价。 结果 31例术后病理诊断为高级别胶质瘤的患者,替莫唑胺(TMZ)同期放射、化学治疗后维持TMZ辅助化学疗法,放射治疗后早期发生假性进展4例(14%)。 结论 对于TMZ同期放射、化学治疗后早期出现的影像学疑似进展,不要急于下结论,了解假性进展的临床特点,结合功能影像学检查可能会有助于临床医生的判断与处理。【Abstract】 Objective To discuss the clinical feature, diagnosis, and management of pseudoprogression after radiochemotherapy of high-grade glioma patients. Methods The clinical data of 31 high-grade glioma patients who underwent postoperative radiochemotherapy from June 2008 to June 2009 were reviewed. Pseudoprogression cases were analyzed. The treatment response was assessed through magnetic resonance imaging (MRI) according to the established response evaluation criteria in solid tumors. Results All the 31 high grade gioma patients received postoperative fractioned radiotherapy with concomitant TMZ chemotherapy, followed by TMZ maintenance chemotherapy. Four cases of pseudoprogression occurred after radiotherapy (14%). Conclusion Doctors should be careful in making early diagnosis for the suspected early progression after TMZ concomitant radiochemotherapy. It would be helpful for management to combine the clinical features of pseudoprogression with functional imaging technology.