Glioblastoma is the most common malignant tumor of the central nervous system in adults. It is highly invasive, grows rapidly and has a poor prognosis. Brain tumors, whether benign or malignant in nature, take up space in the skull and will follow the tumor. The malignant degree of growth, so that the intracranial pressure increases, thus compression or destruction of brain tissue, leading to central nervous damage, it endangers the life of the patient.
At present, neurosurgery is still the main treatment for craniocerebral tumors. Surgical resection course degree is a determinant of patient survival. Due to individual differences and pathological changes, the effect of causing the variation of the anatomical position of brain functional areas and the generation of intraoperative brain tissue displacement all make it difficult to determine correct functional areas, which is the main reason that affects the accuracy and postoperative effect of surgery.
However, routine MRI scans have difficulty in identifying changes in adjacent functional areas caused by tumors, and is also difficult to define the boundaries of invasive neoplasms. The application of functional magnetic resonance imaging and diffusion tensor imaging enables neurosurgeons not only to be accurate positioning the functional areas, but knowing the functional areas caused by the tumor before neurosurgery, so as to maximize removing the tumor and better protecting important functional areas.
After stroke, the language and motor function will undergo plasticity, causing the language and motor areas to slowly repair the damaged brain function. Contrast to stroke, low-grade glioma grows slower, which gives brain more time to adapt to the damage caused by tumor growth, it may cause more functional reorganization. Professor Hugues Duffau's research, published in the journal Brain, also shows that it is brain plasticity that can effectively explain patients with low-grade gliomas, even in language and motor areas, did not appear obvious dysfunction. Therefore, exploring the brain functional plasticity of low-grade glioma not only facilitates the maximum resection of the tumor, but also help for prediction of postoperative of rehabilitation.
Therefore, taking the patients with brain glioma as the object in this project, combining with intraoperative cortical electrical stimulation and multiple modal magnetic resonance imaging, a multi-time longitudinal study was designed to explore the imaging features of changes in motor and language plasticity in low-grade gliomas.
All images were obtained using a GE3.0T magnetic resonance scanner. 3D-T1FSPGR( fast spoiled gradient echo)was scanned for anatomical images, T2-weighted single-shot gradient-echo-planae-imaging sequence for functional images. Tak-based fMRI used block design mode (e.g. ABAB mode) with 30s resting state (A) and 30s hand movement task (B) alternating, the whole task process has a total of 6 resting states, 5 tasks state composition. All patients and healthy controls were instructed to repeatedly play each visual stimulus with open and close hand. All the subjects were trained on a specific exercise task before the scans, to ensure that the task is fully understood and that you are able to cooperate carefully to complete the scan. Language tasks use the block design paradigm. The equation is control-task-control last for 5min30s with 30s interval.
In this study, the subjects looked at the "+" symbol on the screen and lay quietly on the exam bed performing three language tasks. All the patients were trained to better cooperate with the subjects. To avoid head movement displacement during scanning, patients are required to speak as softly as possible that is whisper. Furthermore,derect electric stimulus was conducted in every patient. If the distance between functional areas and the positive target of electrical stimulation was less than 1cm, the results of fMRI and electrical considered were considered to be consistent. As for functional rating scale, the standard chinese version of the Quality of Life Inventory EORTC QLQ-C30 (3.0) was used to assess the preoperative quality of life of patients with brain tumors; KPS( Karnofsky Performance Status Scale)was used to evaluate physiological function; Mini-Mental State Examination (MMSE) was used for clinical screening of cognitive impairment, evaluate the patients' interpretation, spatial orientation, memory and computation, linguistic naming and reading ability.
Correlation analysis was conducted between the fMRI data processing results and functional scale score, to build the brain structure - function correlation models and explore different stages of low-grade glioma recombination mode of functional areas.
