scholarly journals 5 years of experience with DIBH (Deep inspiration breath-hold) combined with SGRT (Surface-Guided Radiation Therapy) in left-sided breast cancer

2020 ◽  
Vol 17 (01) ◽  
pp. 14-23
Author(s):  
Claudia Steffal ◽  
Annemarie U. Schratter-Sehn ◽  
Karin Brinda-Raitmayr ◽  
Thomas Kann ◽  
Daniela Mailat ◽  
...  
Keyword(s):  
Breast Cancer ◽  
Radiation Therapy ◽  
Side Effects ◽  
Left Lung ◽  
Breath Hold ◽  
Relative Reduction ◽  
Deep Inspiration ◽  
Deep Inspiration Breath Hold ◽  
Ipsilateral Lung

Abstract Background Radiation treatment to the left breast is associated with increased cardiac morbidity as well as mortality. Deep inspiration breath-hold (DIBH) technique with Surface Guided Radiation Therapy (SGRT) could have dosimetric advantages over the free breathing technique (NB, normal breathing) in cardiac (heart and LAD) and ipsilateral lung sparing in patients with left-sided breast cancer after surgery. Therefore this technique was implemented in 2013 at the institute of radiooncology at the KFJ/SMZ-South – Hospital Vienna. Methods From Oct 2013 – December 2018 548 patients were referred to radiotherapy following conservative operation of left-sided invasive breast cancer. All patients gave their informed consent and underwent training sessions for the DIBH-technique independent of age or breathing activity or respiratory disorders. Patients who turned out to be unfit for DIBH were enrolled for NB. The relative reduction in Dmean heart and left lung dose was compared between the two cohorts. Acute radiation induced side effects were classified according to the Radiation Therapy Oncology Group/The European Organisation for Research (RTOG) 37; late toxicity rates according to the Common Terminology Criteria for Adverse Events (CTCAE Version 4.03) Results The median age of the DIBH-patients was 58 years (27–90), of the NB-patients 65 (30–80) years. Follow-up was obtained until June 2019. The median follow-up was 52 months (range 7–73 m). The average coverage of Dmean left lung was 6.91 Gy (1.44 Gy – 12.4 Gy). The average coverage of Dmean heart was 1.17 Gy (0.12 Gy – 3.19 Gy) in the DIBH-cohort. The NB – plans had a Dmean of 8.92 Gy (5.23–16.9 Gy) at the ipsilateral lung and a Dmean of 2.31 Gy (0.71–4.21 Gy) at the heart. This shows that the DIBH-technique halved the Dmean of the heart. The amount of acute side effects was comparable between the two groups: RTOG 1: 70.8 % vs. 64 %, RTOG 3 6.6 % vs. 5.6 %, no reaction 3.2 % vs. 1.4 %. There were more CTCAE 1-late events in the NB-group (51.6 % vs. 12.67 %). Conclusion Deep inspiration breath-hold (DIBH) technique with Surface Guided Radiation Therapy (SGRT) is a rather simple, reproducable method with a high acceptance of the patients who can actively participate in the whole treatment process. The mean dose at the heart and the left lung can be reduced, at the heart even by as much as 50 %.

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

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.

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

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.

Lợi ích xạ trị ung thư vú trái phối hợp hít sâu nín thở và hệ thống quản lý bề mặt quang học của máy Truebeam tại Bệnh viện Ung bướu Thành phố Hồ Chí Minh

2021 ◽  
Author(s):  
Anh Phuong Le
Keyword(s):  
Breast Cancer ◽  
Radiation Therapy ◽  
Management System ◽  
Left Breast ◽  
Breath Hold ◽  
Deep Inspiration ◽  
Optical Surface ◽  
Deep Inspiration Breath Hold ◽  
Cardiac Dose ◽  
Set Up

TÓM TẮT Đối với ung thư vú (UTV) xạ trị là điều trị bổ túc cần thiết giúp giảm tái phát tại chỗ tại vùng, gia tăng sống còn. Tuy nhiên, xạ trị có tác dụng phụ lên tim mạch nhất là với UTV trái. Nhiều nghiên cứu đã chứng minh biến chứng và tử vong do tim mạch tăng tỉ lệ thuận với liều trung bình lên tim. Các kỹ thuật xạ trị mới trong xạ trị ung thư vú trái giúp tối ưu hóa liều vào thể tích xạ và bảo vệ tốt hơn cơ quan lành, càng đòi hỏi độ chính xác cao khi đặt bệnh. Các sai số do thiết bị hoặc đặt bệnh sẽ dẫn đến nguy cơ quá liều dung nạp hoặc thiếu liều và có nguy cơ tái phát. Vì vậy, xạ trị đòi hỏi sự chính xác cao trong suốt quá trình từ mô phỏng đến lập kế hoạch và tiến hành xạ trị. Xạ trị ung thư vú trái phối hợp hít sâu nín thở (DIBH - Deep Inspiration Breath - hold) và hệ thống quản lý bề mặt quang học (OSMS - Optical Surface Management System) làm cho tim di chuyển ra xa hơn khỏi vú, thành ngực trong quá trình xạ trị, giúp giảm liều tim một cách rõ rệt, vẫn đảm bảo được liều xạ lên thể tích đích. Ưu điểm của OSMS ngoài áp dụng cho đặt bệnh nhanh không cần xăm dấu trên da còn giám sát thời gian thực trong toàn bộ quá trình điều trị. Khi nhịp thở của bệnh nhân vượt quá một ngưỡng nhất định (0,3cm) chùm tia bức xạ sẽ bị tắt để ngăn ngừa độc tính. Do đó, hiểu và nắm rõ lợi ích quy trình đặt bệnh giúp đạt mục tiêu điều trị đồng thời giảm thời gian đặt bệnh để người bệnh có tâm lý thoải mái hơn, giảm áp lực về số lượng bệnh, nhất là đối với các trung tâm xạ trị lớn. ABSTRACT BENEFITS OF LEFT BREAST CANCER RADIATION COMBINATION OF DEEP INSPIRATION BREATH - HOLD AND OPTICAL SURFACE MANAGEMENT SYSTEM OF TRUEBEAM MACHINE AT CANCER HOSPITAL HO CHI MINH CITY Background: For breast cancer, radiation therapy is an essential adjuvant treatment to help reduce local recurrence and increase survival. However, radiation therapy has adverse effects on the cardiovascular systemespecially for left breast cancer. Several studies have demonstrated that cardiovascular morbidity and mortality increase in proportion to the mean cardiac dose. New radiotherapy techniques in radiation therapy for left breast cancer help optimize dose to radiation volume and better protect healthy organs, which requires high accuracy when patient set - up. Errors due to equipment or patient set - up will lead to the risk of overdosage or underdosage and risk of relapse. Therefore, radiation therapy requires high precision throughout the process from simulation to planning and conducting radiation therapy. Radiation therapy for left breast cancer combined with Deep Inspiration Breath - hold (DIBH) and Optical Surface Management System (OSMS)causes the heart to move further away from the breast and chest wall during radiation therapy, helping to reduce the cardiac dose significantly, still ensuring the radiation dose to the target volume. The advantage of OSMS is that in addition to being applied for fastpatient set - up, without tattooing on the skin, it also provides real - time monitoring during the entire treatment process. When the patient’s breathing rate exceeds a certain threshold (0,3cm) the radiation beam is turned off to prevent toxicity. Therefore, understanding and understanding the benefits of patient set - up helps to achieve treatment goals, while reducing patient set - up time for more comfort, reducing pressure on the number of patients, especially for patients large radiotherapy center. Keyword: Radiation therapy for left breast cancer, Deep Inspiration Breath - hold, Optical Surface Management System, cardiovascular risk.

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