Humans ; Infant ; Protein-Tyrosine Kinases ; Proto-Oncogene Proteins ; Brain Neoplasms/surgery* ; Glioma/surgery* ; Oncogene Proteins, Fusion/genetics* ; Lung Neoplasms

Precision neurosurgery concept as well as the establishment of it's technical platform, have played essential roles in promoting the modern surgical management of brain gliomas in China.In the past decade,the multidisciplinary integration of medical sciences and technology innovations has significantly promoted the clinical implementation of new imaging and novel navigation technology.With active clinical translational research and practice,precision neurosurgery has developed from "startup prologue" (simple anatomical navigation) to "precision neurosurgery 1.0" (intraoperative MRI with multimodal neuronavigation),followed by "precision neurosurgery 2.0" (informative and systematic upgrading).In the past decade,Chinese researchers have made significant and remarkable achievements in precision neurosurgery through continuous efforts and innovation.In the future,state-of-art technologies such as artificial intelligence on deep learning and machine learning,multimodal real-time navigation,intraoperative optical imaging,and targeted molecular imaging technology will promote the development of precision neurosurgery in a coordinated manner, leading to the advent of "precision neurosurgery 3.0".
Artificial Intelligence ; Brain ; Glioma/surgery* ; Humans ; Neurosurgery ; Neurosurgical Procedures/methods*

The demand for acquiring different languages has increased with increasing globalization. However, knowledge of the modification of the new language in the neural language network remains insufficient. Although many details of language function have been detected based on the awake intra-operative mapping results, the language neural network of the bilingual or multilingual remains unclear, which raises difficulties in clinical practice to preserve patients' full language ability in neurosurgery. In this review, we present a summary of the current findings regarding the structure of the language network and its evolution as the number of acquired languages increased in glioma patients. We then discuss a new insight into the awake intra-operative mapping protocol to reduce surgical risks during the preservation of language function in multilingual patients with glioma.
Brain Mapping ; Brain Neoplasms/surgery* ; Glioma/surgery* ; Humans ; Language ; Multilingualism

PURPOSE: The aim of this study was to evaluate the efficacy of re-irradiation in patients with recurrent gliomas and to identify subgroups for whom re-irradiation for recurrent gliomas is most beneficial. MATERIALS AND METHODS: We retrospectively reviewed 36 patients with recurrent or progressive gliomas who received re-irradiation between January 1996 and December 2011. Re-irradiation was offered to recurrent glioma patients with good performance or at least 6 months had passed after initial radiotherapy (RT), with few exceptions. RESULTS: Median doses of re-irradiation and initial RT were 45.0 Gy and 59.4 Gy, respectively. The median time interval between initial RT and re-irradiation was 30.5 months. Median overall survival (OS) and the 12-month OS rate were 11 months and 41.7%, respectively. In univariate analysis, Karnofsky performance status (KPS) ≥70 (p<0.001), re-irradiation dose ≥45 Gy (p=0.040), and longer time interval between initial RT and re-irradiation (p=0.040) were associated with improved OS. In multivariate analysis, KPS (p=0.030) and length of time interval between initial RT and re-irradiation (p=0.048) were important predictors of OS. A radiographically suspected mixture of radiation necrosis and progression after re-irradiation was seen in 5 patients. CONCLUSION: Re-irradiation in conjunction with surgery could be a salvage treatment for selected recurrent glioma patients with good performance status and recurrence over a long time.
Adult ; Brain Neoplasms/mortality/*radiotherapy/surgery ; Female ; Glioma/mortality/*radiotherapy/surgery ; Humans ; Karnofsky Performance Status ; Male ; Middle Aged ; Multivariate Analysis ; Neoplasm Recurrence, Local/mortality/*radiotherapy/surgery ; *Re-Irradiation ; Retrospective Studies ; Salvage Therapy ; Treatment Outcome ; Young Adult

PURPOSE: Although conventional neuro-navigation is a useful tool for image-guided glioma surgery, there are some limitations, such as brain shift. We introduced our methods using an identifiable marker, a "tailed bullet", to overcome the limitation of conventional neuro-navigation. A tailed bullet is an identifiable tumor location marker that determines the extent of a resection and we have introduced our technique and reviewed the clinical results. MATERIALS AND METHODS: We have developed and used "tailed bullets" for brain tumor surgery. They were inserted into the brain parenchyma or the tumor itself to help identify the margin of tumor. We retrospectively reviewed surgically resected glioma cases using "tailed bullet". Total 110 gliomas included in this study and it contains WHO grade 2, 3, and 4 glioma was 14, 36, and 60 cases, respectively. RESULTS: Gross total resection (GTR) was achieved in 71 patients (64.5%), subtotal resection in 36 patients (32.7%), and partial resection in 3 patients (2.7%). The overall survival (OS) duration of grade 3 and 4 gliomas were 20.9 (range, 1.2-82.4) and 13.6 months (range, 1.4-173.4), respectively. Extent of resection (GTR), younger age, and higher initial Karnofsky Performance Status (KPS) score were related to longer OS for grade-4 gliomas. There was no significant adverse event directly related to the use of tailed bullets. CONCLUSION: Considering the limitations of conventional neuro-navigation methods, the tailed bullets could be helpful during glioma resection. We believe this simple method is an easily accessible technique and overcomes the limitation of the brain shift from the conventional neuro-navigation. Further studies are needed to verify the clinical benefits of using tailed bullets.
Adult ; Aged ; Brain/pathology ; Brain Neoplasms/pathology/*surgery ; Female ; Glioma/pathology/*surgery ; Humans ; Karnofsky Performance Status ; Magnetic Resonance Imaging, Interventional ; Male ; Middle Aged ; Neuronavigation/*methods ; Retrospective Studies ; Surgery, Computer-Assisted/*methods ; Survival Rate ; Time Factors ; Treatment Outcome

OBJECTIVETo investigate the clinical value of high-field-strength intraoperative magnetic resonance imaging (iMRI) combined with optic radiation neuro-navigation for the resection of temporal lobe low-grade gliomas.

METHODSFrom April 2009 to September 2013, 65 patients with temporal lobe low-grade gliomas (WHO grade II) involving optic radiation were operated with iMRI and functional neuro-navigation. Diffusion tensor imaging (DTI) based fiber tracking was used to delineate optic radiation. The reconstructed optic radiations were integrated into a navigation system, in order to achieve intraoperative microscopic-based functional neuro-navigation. iMRI was used to update the images for both optic radiations and residual tumors. Volumetric analyses were performed using 3D Slicer for pre- and intra-operative tumor volumes in all cases. All patients were evaluated for visual field deficits preoperatively and postoperatively. The Student t test was used to evaluate the average rate of extent of resection between groups. Spearman rank correlation analysis was used to assess correlations between predictors and epilepsy prognosis.

RESULTSPreoperative tumor volumes were (78±40) cm3. In 29 cases, iMRI scan detected residual tumor that could be further resected, and extent of resection were increased from 76.2% to 92.7% (t=7.314, P<0.01). In 19 cases (29.2%), gross total resection was accomplished, and iMRI contributed directly to 8 of these cases. Postsurgical follow-up period varied from 13 months to 59 months, mean (33±13) months. Tumor progression were observed in 3 patients, newly developed or deteriorated visual field defects occurred in 4 patients (6.2%). For patients with pre-operative seizures, Engel Class I were achieved for 89.7% of them. Spearman rank correlation analysis revealed that seizure outcome (Engel Class) was related to increased excision of ratio (r=-0.452, P=0.004, 95% CI: -0.636--0.261) and larger tumors (r=0.391, P=0.014, 95% CI: 0.178-0.484).

CONCLUSIONSWith iMRI and functional neuro-navigation, the optic radiation can be accurately located, while extent of resection can be evaluated intra-operatively. This technique is safe and helpful for preservation of visual field for the resection of temporal lobe low-grade gliomas involving optic radiation.

Brain Neoplasms ; pathology ; surgery ; Glioma ; pathology ; surgery ; Humans ; Magnetic Resonance Imaging ; Neuronavigation ; Temporal Lobe ; surgery

Subependymomas are rare benign tumors located in the ventricular system. Intraparenchymal subependymoma is extremely rare; only 6 cases have been reported, and all were located in the supratentorial region. We describe a case of infratentorial, intraparenchymal subependymoma in a 28-year-old man with intermittent headache. Imaging revealed a well-demarcated cystic and solid cerebellar mass near the fourth ventricle. The mass had a microcystic component and calcification without contrast enhancement. Complete surgical excision was performed, and histopathology confirmed a subependymoma.
Adult ; Calcinosis/diagnosis ; Cerebellar Neoplasms/*diagnosis/surgery ; Fourth Ventricle ; Glioma, Subependymal/*diagnosis/surgery ; Humans ; Magnetic Resonance Imaging ; Male ; Rare Diseases/*diagnosis/surgery ; Tomography, X-Ray Computed

BACKGROUNDTumor surgery in brain motor functional areas remains challenging. Novel techniques are being developed to gain maximal and safe resection for brain tumor surgery. Herein, we assessed the magnetic resonance diffusion tensor imaging (MR-DTI) and fluorescein sodium dyeing (FLS) guiding technique for surgery of glioma located in brain motor functional areas.

METHODSTotally 83 patients were enrolled according to our inclusion and exclusion criteria (56 patients in experimental group, 27 patients in control group). In the experimental group, the surgical approach was designed by DTI imaging, which showed the relationship between the tumor and motor tract. The range of resection in the operation was determined using the FLS-stained area, which recognized the tumor and its infiltrated tissue. The traditional routine method was used in the control group. Postoperatively, all patients underwent enhanced brain MRI within 72 hours to ascertain the extent of resection. Patients were followed in our outpatient clinic over 6 - 24 months. Neurological deficits and Karnofsky scoring (KPS) were evaluated.

RESULTSThere were no significant differences in balance test indexes of preoperative data (sex, age, lesion location and volume, and neurological deficits before operation) and diagnosis of histopathology between the two groups. There was a trend in the experimental group for greater rates of gross total resection (80.4% vs. 40.7%), and the paralysis rate caused by surgery was lower in experimental (25.0%) vs. control (66.7%) groups (P < 0.05). The 6-month KPS in the low-grade and high-grade gliomas was 91 ± 11 and 73 ± 26, respectively, in the experimental group vs. 82 ± 9 and 43 ± 27, respectively, in the control group (P < 0.05 for both).

CONCLUSIONSMR-DTI and FLS dye guiding for surgery of glioma located in brain motor functional areas can increase the gross total resection rate, decrease the paralysis rate caused by surgery, and improve patient quality of life compared with traditional glioma surgery.

Adolescent ; Adult ; Aged ; Brain Neoplasms ; pathology ; psychology ; surgery ; Diffusion Tensor Imaging ; methods ; Female ; Fluorescein ; Glioma ; pathology ; psychology ; surgery ; Humans ; Male ; Middle Aged ; Motor Cortex ; pathology ; Muscle Strength ; Prognosis

Brain Diseases ; etiology ; Brain Neoplasms ; surgery ; Glioma ; surgery ; Humans ; Infection ; etiology ; Postoperative Complications ; etiology ; Recurrence ; Risk Factors

OBJECTIVETo study the clinicopathologic features of delayed radiation-induced brain injury after radiotherapy for brain tumor.

METHODSThe clinical, histopathologic and immunohistochemical features of 9 cases with delayed radiation-induced injury were evaluated.

RESULTSThe disease occurred from 6 months to 12 years after radiotherapy and often presented with headache and muscle weakness. Magnetic resonance imaging showed peripheral enhancing lesions with slight mass effect and surrounding edema. Microscopically, the major changes included coagulative necrosis, fibrinoid necrosis of vessels, vascular hyalinization with luminal stenosis and peripheral reactive gliosis. Immunostaining for hypoxia-inducible factors 1α was positive in reactive astrocytes.

CONCLUSIONSDelayed radiation-induced brain injury is a relatively common complication of radiation therapy. The lesion was frequently misdiagnosed as brain tumor. Correct diagnosis relies on clinical, radiologic and pathologic correlation.

Aged ; Brain Neoplasms ; radiotherapy ; Female ; Glioma ; radiotherapy ; Humans ; Hypoxia-Inducible Factor 1, alpha Subunit ; metabolism ; Magnetic Resonance Imaging ; Male ; Middle Aged ; Radiation Injuries ; diagnosis ; diagnostic imaging ; metabolism ; pathology ; surgery ; Radiotherapy ; adverse effects ; Tomography, X-Ray Computed