Improved accelerated breath-hold radial cine image reconstruction by acquiring additional free-breathing data between breath-holds

Abstract Background Studying the clinical utility of deep-inspirational breath-hold (DIBH) in left breast cancer radiotherapy (RT) was aimed at focusing on dosimetry and feasibility aspects. Methods In this prospective trial all enrolled patients went through planning CT in supine position under both DIBH and free breathing (FB); in whole breast irradiation (WBI) cases prone CT was also taken. In 3-dimensional conformal radiotherapy (3DCRT) plans heart, left anterior descending coronary artery (LAD), ipsilateral lung and contralateral breast doses were analyzed. The acceptance of DIBH technique as reported by the patients and the staff was analyzed; post-RT side-effects including radiation lung changes (visual scores and lung density measurements) were collected. Results Among 130 enrolled patients 26 were not suitable for the technique while in 16, heart or LAD dose constraints were not met in the DIBH plans. Among 54 and 34 patients receiving WBI and postmastectomy/nodal RT, respectively with DIBH, mean heart dose (MHD) was reduced to < 50%, the heart V25 Gy to < 20%, the LAD mean dose to < 40% and the LAD maximum dose to about 50% as compared to that under FB; the magnitude of benefit was related to the relative increase of the ipsilateral lung volume at DIBH. Nevertheless, heart and LAD dose differences (DIBH vs. FB) individually varied. Among the WBI cases at least one heart/LAD dose parameter was more favorable in the prone or in the supine FB plan in 15 and 4 cases, respectively; differences were numerically small. All DIBH patients completed the RT, inter-fraction repositioning accuracy and radiation side-effects were similar to that of other breast RT techniques. Both the patients and radiographers were satisfied with the technique. Conclusions DIBH is an excellent heart sparing technique in breast RT, but about one-third of the patients do not benefit from that otherwise laborious procedure or benefit less than from an alternative method. Trial registration: retrospectively registered under ISRCTN14360721 (February 12, 2021)

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EP-1316: Prone breast radiotherapy in prone: free breathing, deep inspiration breath hold and inspiration gating

Radiotherapy and Oncology ◽

10.1016/s0167-8140(15)41308-8 ◽

2015 ◽

Vol 115 ◽

pp. S710

Author(s):

M. Swimberge ◽

V. Remouchamps ◽

L. Veldeman ◽

T. Mulliez ◽

B. Speelers ◽

...

Keyword(s):

Free Breathing ◽

Breath Hold ◽

Deep Inspiration ◽

Breast Radiotherapy ◽

Deep Inspiration Breath Hold

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Deep-inspiration breath hold radiotherapy in patients with left-sided breast cancer after partial mastectomy

10.33699/pis.2021.100.4.180-185 ◽

2021 ◽

Vol 100 (4) ◽

Keyword(s):

Breast Cancer ◽

Radiation Dose ◽

Organs At Risk ◽

Left Lung ◽

Free Breathing ◽

Partial Mastectomy ◽

Breath Hold ◽

Deep Inspiration ◽

Deep Inspiration Breath Hold ◽

Dose Volume Histograms

Introduction: The purpose of this study was to compare the radiation dose to organs at risk for deep-inspiration breath hold (DIBH) and free-breathing (FB) radiotherapy in patients with lef-sided breast cancer undergoing adjuvant radiotherapy after partial mastectomy. Methods: One hundred patients with left-sided breast cancer underwent DIBH and FB planning computed tomography scans, and the 2 techniques were compared. Dose-volume histograms were analyzed for heart, left anterior descending coronary artery (LAD), and left lung. Results: Radiation dose to heart, LAD, and left lung was significantly lower for DIBH than for free breathing plans. The median mean heart dose for DIBH technique in comparison with FB was 1.21 Gy, and 3.22 Gy respectively; for LAD, 4.67 versus 24.71 Gy; and for left lung 8.32 Gy versus 9.99 Gy. Conclusion: DIBH is an effective technique to reduce cardiac and lung radiation exposure.

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Deep inspiration breath-hold for patients with left-sided breast cancer – A one fits all approach? A prospective analysis of patient selection using dosimetrical and practical aspects

British Journal of Radiology ◽

10.1259/bjr.20210295 ◽

2021 ◽

pp. 20210295

Author(s):

Christina Schröder ◽

Sebastian Kirschke ◽

Eyck Blank ◽

Sophia Rohrberg ◽

Robert Förster ◽

...

Keyword(s):

Breast Cancer ◽

Left Lung ◽

Free Breathing ◽

Lymphatic Drainage ◽

Breath Hold ◽

Deep Inspiration ◽

Deep Inspiration Breath Hold ◽

Patient Preparation ◽

Treatment Plans ◽

Planning Ct

Objective: To prospectively analyze the feasibility of an algorithm for patient preparation, treatment planning and selection for deep inspiration breath-hold (DIBH) treatment of left-sided breast cancer. Methods: From 02/2017 to 07/2019, 135 patients with left-sided breast cancer were selected and prepared for radiotherapy in DIBH. 99 received radiotherapy for the breast alone and 36 for the breast including the lymphatic drainage (RNI). Treatment plans DIBH and free breathing (FB) were calculated. Dosimetrical analyses were performed and criteria were defined to assess whether a patient would dosimetrically profit from DIBH. Results: Of the 135 patients, 97 received a DIBH planning CT and 72 were selected for treatment in DIBH according to predefined criteria. When using DIBH there was a mean reduction of the DmeanHeart of 2.8 Gy and DmeanLAD of 4.2 Gy. seven patients did not benefit from DIBH regarding DmeanHeart, 23 regarding DmeanLAD. For the left lung the V20Gy was reduced by 4.9%, the V30Gy by 2.7% with 15 and 29 patients not benefitting from DIBH, respectively. In the 25 patients treated in FB, the benefit of DIBH would have been lower than for patients treated with DIBH (ΔDmeanHeart0.7 Gy vs 3.4 Gy). Conclusion: Dosimetrically, DIBH is no “one fits all” approach. However, there is a statistically significant benefit when looking at a larger patient population. DIBH should be used for treatment of left-sided breast cancer in patients fit for DIBH. Advances in knowledge: This analysis offers a well-designed dosimetrical analysis in patients treated with DIBH radiotherapy in an “every day” cohort.

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