Abstract
BACKGROUND
Tectal gliomas (TG) are rare tumors occurring primarily in children but also found in adults during workup of various neurological symptoms. Surgery is not required in asymptomatic cases, so histopathological information is sparse. No consensus on timing of imaging surveillance or management has been established.
OBJECTIVE
We seek to standardize neuroimaging, including MRI protocol and surveillance time intervals, and clinical management of symptoms and disease progression, including surgery, radiotherapy, and chemotherapy.
METHODS
At our institution, patients with TG were identified through a search of radiology reports and clinic notes between 1989 and 2020. Initial and serial MRI exams were evaluated for tumor size, enhancement, edema, hydrocephalus, and other radiographic features. When tissue was available, cellularity, mitotic activity, and morphology were described. We documented neurological symptoms and signs potentially related to the tumor.
RESULTS
37 cases were identified: 22 female, 15 male; 5 children, 32 adults. Age of diagnosis ranged from 7 to 69 years. Presenting symptoms included headache (59%), visual symptoms (35%), and imbalance (14%), less commonly: seizure, weakness, nausea/vomiting, and dizziness. Surgical procedures included biopsy (9), resection (7), endoscopic third ventriculostomy (15), and shunt placement (11). Eight patients received radiotherapy, including IMRT, CyberKnife, GammaKnife, and Zap-X (all adults; 4 at diagnosis, 3 at progression, 1 at diagnosis and again at progression). Four patients received chemotherapy (all adults; 1 at diagnosis, 3 at progression), all with temozolomide. One additionally received bevacizumab for radionecrosis. Three patients died with progressive disease, two following treatment and one without. Of interest, 5 adult patients developed signs of parkinsonism during their follow-up period.
CONCLUSION
Management of TG encompasses both neoplastic progression and symptom control, either from local compression or infiltrative disease. We have developed an algorithm for imaging surveillance and treatment, including MRI protocol, definition of progressive disease, and indications for antineoplastic therapies.