Abstract
Radiation necrosis (RN) is a challenging potential complication of cranial radiation therapy. Believed to result from a complex interplay of vascular, glial, and immunologic factors, the exact mechanism of RN remains unclear. Patients who develop RN typically have a history of treatment with stereotactic radiation surgery or some other form of radiation-based therapy. The time frame for its development is variable, but it most often occurs one to three years following radiation therapy. Reported treatment doses capable of inducing radiation necrosis are variable, with higher doses per fraction more likely to induce RN. Furthermore, RN remains a challenging diagnosis for clinicians to make, as its presentation is often nonspecific and imaging studies might not clearly differentiate RN from tumor recurrence or pseudoprogression. RN is initially managed with corticosteroids, followed by bevacizumab, surgical resection, or laser interstitial thermal therapy if symptoms persist. In this review, we examine the literature regarding pathophysiology, incidence, imaging characteristics, and management strategies for radiation necrosis.
Highlights
BackgroundRadiation necrosis (RN) is a focal structural anomaly that forms following cranial irradiation of cerebral neoplasms
In a series of 63 patients with a total of 173 brain metastases treated with stereotactic radiosurgery (SRS), RN occurred in up to 68.8% of patients treated with V10 Gy at a volume > 14.5 cm3 and V12 > 10.8 cm3 [24]
These results suggest that the patient’s initial lesion should be considered during the evaluation of RN in order to guide the selection of imaging modalities for diagnosis
Summary
Radiation necrosis (RN) is a focal structural anomaly that forms following cranial irradiation of cerebral neoplasms. In the setting of new enhancement on follow-up imaging after radiation, whether the patient was originally treated for a primary glioma versus metastatic disease may assist in guiding management. 22 of 23 demonstrated radiation-induced change without any evidence of active tumor on pathology [35] This is in contrast to a study that histologically evaluated 27 patients with primary gliomas treated with radiation and newfound enhancement on MRI. In patients with gliomas, combined imaging that includes metabolic and blood flow methods enhanced the diagnostic accuracy for differentiating RN from tumor progression in this study [36] Together, these results suggest that the patient’s initial lesion should be considered during the evaluation of RN in order to guide the selection of imaging modalities for diagnosis. Anticoagulation therapy seems to have only a modest effect on improving systems in patients with RN
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