Yolanda Aarons scite author profile

Strategies are needed to compensate for volume losses at the extremes of motion for both 4DCT MIP and CBCT images for larger and varied amplitudes, and for patterns with rest periods following expiration. Lesions moving greater than 2 cm would warrant larger treatment margins added to the 4DCT MIP ITV to account for the volume being under-represented at the extremes of motion. Lesions moving with a rest period following expiration would be better aligned using an edge-to-edge alignment technique. Sinusoidal patterns represented the ideal clinical scenario, reinforcing the importance of investigating clinically relevant motions and their effects on 4DCT MIP and CBCT volumes. Since most patients do not breathe sinusoidally this may lead to misinterpretation of previous studies using only sinusoidal motion.

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The cardiac dose‐sparing benefits of deep inspiration breath‐hold in left breast irradiation: a systematic review

Smyth

Knight

Aarons

et al. 2015

J of Medical Radiation Sci

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IntroductionDespite technical advancements in breast radiation therapy, cardiac structures are still subject to significant levels of irradiation. As the use of adjuvant radiation therapy after breast-conserving surgery continues to improve survival for early breast cancer patients, the associated radiation-induced cardiac toxicities become increasingly relevant. Our primary aim was to evaluate the cardiac-sparing benefits of the deep inspiration breath-hold (DIBH) technique.MethodsAn electronic literature search of the PubMed database from 1966 to July 2014 was used to identify articles published in English relating to the dosimetric benefits of DIBH. Studies comparing the mean heart dose of DIBH and free breathing treatment plans for left breast cancer patients were eligible to be included in the review. Studies evaluating the reproducibility and stability of the DIBH technique were also reviewed.ResultsTen studies provided data on the benefits of DIBH during left breast irradiation. From these studies, DIBH reduced the mean heart dose by up to 3.4 Gy when compared to a free breathing approach. Four studies reported that the DIBH technique was stable and reproducible on a daily basis. According to current estimates of the excess cardiac toxicity associated with radiation therapy, a 3.4 Gy reduction in mean heart dose is equivalent to a 13.6% reduction in the projected increase in risk of heart disease.ConclusionDIBH is a reproducible and stable technique for left breast irradiation showing significant promise in reducing the late cardiac toxicities associated with radiation therapy.

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Validation of a 4D-PET Maximum Intensity Projection for Delineation of an Internal Target Volume

Callahan

Kron

Schneider-Kolsky

et al. 2013

International Journal of Radiation Oncology*Biology*Physics

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Implementation of a lung radiosurgery program: Technical considerations and quality assurance in an Australian institution

Siva¹,

Chesson

Aarons

et al. 2012

J Med Imag Rad Onc

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Yolanda Aarons

The effect of irregular breathing patterns on internal target volumes in four-dimensional CT and cone-beam CT images in the context of stereotactic lung radiotherapy

The cardiac dose‐sparing benefits of deep inspiration breath‐hold in left breast irradiation: a systematic review

Validation of a 4D-PET Maximum Intensity Projection for Delineation of an Internal Target Volume

Implementation of a lung radiosurgery program: Technical considerations and quality assurance in an Australian institution

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