RÉSUMÉ
Objective To assess the value of real-time intraoperative neuronavigation integrated with ultrasound in the resection of deep-seated brain tumor. Methods Thirty patients with deep-seated brain tumor were treated with microneurosurgery guided with real-time ultrasound integrated with the Brain Lab IGSonic navigation. During the ultrasound based operation, the degree of brain shift and the tumor border was timely observed, and then the tumor was resected totally. Results Guiding with navigation integrated ultrasound, we noticed the brain shift with various degrees happening in 30 patients,and the border of tumor was exposed and the tumor was resected totally without serious complications.Conclusions Intraoperative ultrasound integrated with navigation is a reliable guidance which can accurately re-localize the border of deep-seated brain tumor even when the tumor is shifting, timely delineate the reformatted images from ultrasound and totally resectcd the tumor, thus decrease the surgical time and increase the safety of surgical procedure.
RÉSUMÉ
Objective To evaluate the application of intraoperative real-time ultrasound combined with neuronavigation in surgical resection of deep intracranial lesions. Methods Fifteen patients with deep intracranial lesions underwent surgical resection of the lesions with guidance by Brain-Lab neuronavigation and intraoperative real-time ultrasound. The lesions were localized by ultrasound, and in cases of brain shift, intraoperative real-time ultrasound was used for lesion relocalization, surgical guidance, and monitoring of the tumor remnants during the operation. Results The lesions and their surrounding structures were accurately localized. Intraoperative real-time ultrasound identified brain shift of varying degrees, which was corrected under ultrasound guidance. Total resection of the lesions was achieved in 12 cases, and subtotal resection was performed in 2 cases. In the other case, the inflammatory lesion was identified as chronic granuloma by biopsy. All the patients showed improvements of the clinical symptoms after the operations. Conclusion Intraoperative real-time ultrasound during neuronavigation allows accurate localization of deep intracranial lesions and facilitates preoperative surgical planning to define the scope of resection, avoid the cortical brain tissue and important deep structures, and help evaluate the lesion residues for a second operation. Intraoperative real-time ultrasound may help improve the therapeutic effects and reduce the surgical complications.