Nuclear Technology & Radiation Protection Journal


NT & RP Journal	A TECHNIQUE TO OPTIMIZE ISOCENTER CO-ORDINATE AND COLLIMATOR ANGLE IN RADIOSURGERY PLANNING FOR MULTIPLE BRAIN METASTASES
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Vol. XL, No. 1, Pp. 1-78 March 2025 UDC 621.039+614.876:504.06 ISSN 1451-3994 Back to Contents	Pages: 65-72 Authors: Hong Lam Pham, Tien Manh Phan, and Quang Trung Pham Abstract Collimator angle optimization software CAOS was developed in Python and integrated with the Eclipse 13.6 platform to support stereotactic radiosurgery treatment planning. Twenty-five cases of multiple brain metastasis (10 with two lesions, 10 with three, and 5 with four) were planned using stereotactic radiosurgery in Eclipse 13.6, followed by optimization with CAOS. Eclipse uses a conventional method, while CAOS software first determines the isocenter co-ordinate and then optimizes the collimator angles. The CAOS-optimized plans exhibited significantly improved dosimetric outcomes in stereotactic radiosurgery planning. They reduced gradient index and gradient measure values for the tumor, decreased the mean normal brain volume receiving 12 Gy, and lowered the maximum dose to organs-at-risk, compared to Eclipse plans. Key words: stereotactic radiosurgery, collimator angle optimization, Eclipse 13.6, normal brain tissue FULL PAPER IN PDF FORMAT (1,04 MB)
Vinča Institute of Nuclear Sciences :: Designed by milas :: July 2007 Operated by acapanic :: Last updated on July, 2025

Pages: 65-72

Authors: Hong Lam Pham, Tien Manh Phan, and Quang Trung Pham

Abstract

Collimator angle optimization software CAOS was developed in Python and integrated with the Eclipse 13.6 platform to support stereotactic radiosurgery treatment planning. Twenty-five cases of multiple brain metastasis (10 with two lesions, 10 with three, and 5 with four) were planned using stereotactic radiosurgery in Eclipse 13.6, followed by optimization with CAOS. Eclipse uses a conventional method, while CAOS software first determines the isocenter co-ordinate and then optimizes the collimator angles. The CAOS-optimized plans exhibited significantly improved dosimetric outcomes in stereotactic radiosurgery planning. They reduced gradient index and gradient measure values for the tumor, decreased the mean normal brain volume receiving 12 Gy, and lowered the maximum dose to organs-at-risk, compared to Eclipse plans.

Key words: stereotactic radiosurgery, collimator angle optimization, Eclipse 13.6, normal brain tissue

FULL PAPER IN PDF FORMAT (1,04 MB)