Abstract
Object. Gamma knife surgery (GKS) may be used for recurring glioblastomas (GBMs). However, patients have then usually undergone multimodal treatment, which makes it difficult to specifically validate GKS independent of established treatments. Thus, we developed an experimental brain tumor model to assess the efficacy and radiotoxicity associated with GKS. Methods. GBM xenografts were implanted intracerebrally in nude rats, and engraftment was confirmed with MRI. The rats were allocated to GKS, with margin doses of 12 Gy or 18 Gy, or to no treatment. Survival time was recorded, tumor sections were examined, and radiotoxicity was evaluated in a behavioral open field test. Results. In the first series, survival from the time of implantation was 96 days in treated rats and 72 days in controls (P < 0.001). In a second experiment, survival was 72 days in the treatment group versus 54 days in controls (P < 0.006). Polynuclear macrophages and fibrosis was seen in groups subjected to GKS. Untreated rats with GBM xenografts displayed less mobility than GKS-treated animals in the open field test 4 weeks after treatment (P = 0.04). Conclusion. GKS administered with clinically relevant doses prolongs survival in rats harboring GBM xenografts, and the associated toxicity is mild.
Highlights
The current treatments for GBMs include surgery, fractionated radiotherapy (FR), and temozolomide
In the first experiment using pA GBM xenografts, 8 rats received a 12 Gy margin dose, 7 rats received an 18 Gy margin dose, and 6 rats served as controls
The median survival from the time of Gamma knife surgery (GKS) was 41 days for the GKS treated rats compared to 10 days for the untreated rats (P < 0.0001, Figure 2(b))
Summary
The current treatments for GBMs include surgery, fractionated radiotherapy (FR), and temozolomide. This approach provides a definite effect as patients receiving this multimodal treatment have a median survival of approximately 15 months [1, 2], compared with 3 months if no treatment is given. Surgical debulking reduces symptoms and provides tissue for diagnosis, but infiltrative tumor growth makes complete removal impossible. Conventional radiotherapy improves survival [3] but is associated with noteworthy toxicity due to the high doses delivered to the surrounding brain tissue. Due to the improved survival of GBM patients in recent years with two year survival rates of 26.5%, more people will live to experience these side effects [4].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
