Consideration of Optimal Evaluation Metrics for Internal Gross Tumor Dose Relevant to Tumor Response in Multi-fraction Stereotactic Radiosurgery of Brain MetastasisKazuhiro Ohtakara, Kojiro Suzuki|Cureus|2024Cited by 9
Determining Simple and Effective Cost Functions for an Efficient Volumetric-Modulated Arcs-Based Stereotactic Radiosurgery for Single Brain Metastases Using Monaco® Planning SystemKazuhiro Ohtakara, Kojiro Suzuki|Cureus|2024Cited by 8
Non-coplanar Arc-Involved Beam Arrangement With Sufficient Arc Rotations Is Suitable for Volumetric-Modulated Arc-Based Radiosurgery for Single Brain MetastasisKazuhiro Ohtakara, Kojiro Suzuki|Cureus|2024Cited by 7
Impacts of Calculation Grid Spacing and Statistical Uncertainty of Monte Carlo Algorithm on Stereotactic Radiosurgery Planning With Volumetric-Modulated Arcs for Single Brain Metastases Using the Monaco® SystemKazuhiro Ohtakara, Kojiro Suzuki|Cureus|2024Cited by 3
Significance of Inverse Planning With Variable Dose Rate and the Segment Shape Optimization in Dynamic Conformal Arcs Using the High-Definition Dynamic Radiosurgery Platform for Single Brain MetastasesKazuhiro Ohtakara, Kojiro Suzuki|Cureus|2025Cited by 1