4.7 Article

Tumor Control Probability of Radiosurgery and Fractionated Stereotactic Radiosurgery for Brain Metastases

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ELSEVIER SCIENCE INC
DOI: 10.1016/j.ijrobp.2020.10.034

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This study modeled tumor control probability after stereotactic radiosurgery and fractionated stereotactic radiosurgery for brain metastases based on pooled dosimetric and clinical data from published literature. Different dose levels were associated with varying rates of local control for tumors of different sizes, with higher doses recommended for melanoma and fSRS regimens recommended for larger lesions. The need for updated analyses to assess the effectiveness and toxicity of SRS and fSRS in the context of evolving systemic and biologic therapies was highlighted.
Purpose: As part of the American Association of Physicists in Medicine Working Group on Stereotactic Body Radiotherapy, tumor control probability (TCP) after stereotactic radiosurgery (SRS) and fractionated stereotactic radiosurgery (fSRS) for brain metastases was modeled based on pooled dosimetric and clinical data from published English-language literature. Methods and Materials: PubMed-indexed studies published between January 1995 and September 2017 were used to evaluate dosimetric and clinical predictors of TCP after SRS or fSRS for brain metastases. Eligible studies had >= 10 patients and included detailed dose-fractionation data with corresponding >= 1-year local control (LC) data, typically evaluated as a >20% increase in diameter of the targeted lesion using the pre-SRS diameter as a reference. Results: Of 2951 potentially eligible manuscripts, 56 included sufficient dose-volume data for analyses. Accepting that necrosis and pseudoprogression can complicate the assessment of LC, for tumors <= 20 mm, single-fraction doses of 18 and 24 Gy corresponded with >85% and 95% 1-year LC rates, respectively. For tumors 21 to 30 mm, an 18 Gy single-fraction dose was associated with 75% LC. For tumors 31 to 40 mm, a 15 Gy single-fraction dose yielded similar to 69% LC. For 3-to 5-fraction fSRS using doses in the range of 27 to 35 Gy, 80% 1-year LC has been achieved for tumors of 21 to 40 mm in diameter. Conclusions: TCP for SRS and fSRS are presented. For small lesions <= 20 mm, single doses of approximate to 18 Gy appear generally associated with excellent rates of LC; for melanoma, higher doses seem warranted. For larger lesions >20 mm, local control rates appear to be approximate to 70% to 75% with usual doses of 15 to 18 Gy, and in this setting, fSRS regimens should be considered. Greater consistency in reporting of dosimetric and LC data is needed to facilitate future pooled analyses. As systemic and biologic therapies evolve, updated analyses will be needed to further assess the necessity, efficacy, and toxicity of SRS and fSRS. (C) 2020 Elsevier Inc. All rights reserved.

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