Simultaneous integrated boost intensity-modulated radiotherapy post breast-conserving surgery: clinical efficacy, adverse effects, and cosmetic outcomes in breast cancer patients

Breast cancer has become the most prevalent cancer among women, accounting for 11.7% of all global cancer cases [1]. This increase emphasizes the necessity for effective and efficient treatment strategies. The evolution of diagnostic and therapeutic technologies has facilitated the early detection of breast cancer, particularly in its early stages. With the development of diagnosis and treatment technology, more and more early-stage breast cancer patients can be detected in time. Breast-conserving surgery (BCS) followed by whole-breast irradiation (WBI) has become the main treatment method, as it has been proven to provide at least equal effects in local control rate and overall survival time as mastectomy [2, 3]. However, the traditional whole-breast radiotherapy (RT) regimen, which spans approximately 5 weeks with an additional 1–2 weeks for tumor bed boost, presents challenges such as prolonged treatment duration and increased risk of local tumor recurrence [4].

Despite the established benefits of post-BCS radiotherapy, a significant proportion of patients opt out of this treatment due to various reasons including the length of treatment, perceived discomfort, and economic factors [5]. This highlights an urgent need to refine breast radiotherapy approaches to make them more patient-friendly by reducing treatment duration, lowering costs, and minimizing both acute and late toxicities, thereby making this essential treatment more accessible to a broader patient population [6‐9].

The advent of Intensity-modulated radiation therapy (IMRT) has revolutionized radiotherapy by optimizing the dose distribution to the target while sparing surrounding normal tissues, thus mitigating some extent of radiotherapy-induced toxicity. In tandem with the development of IMRT, Simultaneous integrated boost (SIB) technology has been introduced. SIB offers several treatment enhancements such as increased efficacy via higher single-dose irradiation to high-risk areas, optimal and uniform dose distribution within the target area, and a reduction in the number of radiotherapy sessions required [10, 11]. However, the effectiveness and safety of SIB as an adjuvant radiotherapy approach have not been comprehensively established due to the lack of extensive randomized controlled trials, leading to some controversies in clinical guidelines [12, 13].

In light of these considerations, there is a pressing need to evaluate the clinical efficacy, early and late radiotherapy-related adverse reactions, and cosmetic outcomes of SIB in the context of breast cancer treatment. This study aims to fill this gap by conducting a comprehensive retrospective analysis of stage 0–III breast cancer patients who underwent breast-conserving surgery at our institution. We endeavor to provide robust data and analysis to inform future guidelines and clinical practices in the treatment of breast cancer.

IMRT-SIB, as a new form of TB supplementary irradiation, has been applied in radiotherapy after BCS. Compared with sequential supplement, IMRT-SIB can improve the dose uniformity within the tumor target area, and reduce the high-dose radiation dose volume received by the affected breast. Especially for deep tumor lesions, imrt-sib technology can further reduce the volume of high-dose areas in the lung and heart. Many studies have shown that the feasibility and dosimetric advantages of IMRT-SIB in the treatment of breast cancer are better than those of the traditional plan [16, 17]. Our study underscores the effectiveness of IMRT-SIB as an adjuvant therapy following breast-conserving surgery, demonstrating remarkable short-term efficacy and excellent cosmetic outcomes [18‐20]. The 3-year local control, distant metastasis-free survival, and overall survival rates of 99.6%, 99.2%, and 100%, respectively, not only reinforce the therapeutic value of this approach but also align well with previous literature on IMRT-SIB for breast cancer [21, 22]. McDonald et al. and Bantema-Joppe et al. reported similar findings, thereby validating our study's results [21, 23, 24]. Between March 2011 and August 2015, the NCT 01322854 phase III trial randomized 502 patients to receive either 50.4 Gy in 1.8 Gy single fractions with SIB to the lumpectomy site to a total dose of 64.4 Gy in 28 fractions of 2.3 Gy (IMRT-SIB) or 3D-CRT to the whole breast to a total dose of 50.4 Gy in 28 fractions of 1.8 Gy followed by a seqB to a total dose of 66.4 Gy in 8 fractions of 2 Gy (3D-CRT-seqB) [25, 26]. NCT 01322854 trial (IMRT-SIB) demonstrates that SIB-IMRT delivers a higher dose to the tumor bed while irradiating the entire breast. Our study employs a similar approach, with prescribed doses of 1.85 Gy across 27 fractions to the whole breast and 2.22 Gy or 2.20 Gy across 27 fractions to the tumor bed. Clinical outcomes show that the NCT 01322854 trial achieved a non-inferior 5-year local control rate of 98.7% compared to the control group's 98.3%. Although not explicitly mentioned in our study, excellent clinical efficacy was observed. Both studies reported no significant difference in overall survival (97.1% vs. 98.3%), disease-free survival (95.8% vs. 96.1%), and distant disease-free survival (97.0% vs. 97.8%). Mild acute and late toxicities were reported in both studies. The cosmetic outcomes were not explicitly mentioned in the NCT 01322854 trial, but our study achieved excellent or good results in 96.9% of cases. In conclusion, both studies support the safety and effectiveness of SIB-IMRT for breast cancer patients suitable for breast-conserving surgery. Our study aligns with the NCT 01322854 trial, emphasizing the feasibility and positive outcomes of SIB-IMRT in breast cancer management. A number of other studies also have shown the potential of IMRT-SIB in achieving effective local control, which is a critical factor in breast cancer management [27‐29].

The diverse response of different molecular subtypes to IMRT-SIB treatment observed in our study suggests that personalized treatment strategies are essential. Understanding the nuances of how various subtypes, especially more aggressive forms like triple-negative breast cancer, respond to treatment will be crucial in optimizing therapeutic approaches for individual patients. Particularly in understanding and overcoming treatment resistance in this subgroup. This is in line with other studies that have reported higher rates of distant metastases in luminal and triple-negative subtypes [30, 31].

In terms of treatment safety, our study reports a significantly lower incidence of radiation pneumonitis (1.1%) compared to the broader range documented in other studies (4.5–63%) [32, 33]. These patients had only slight imaging changes of pneumonia, but no respiratory symptoms. The radiation dose to the heart is relatively small, so there is no ischemic cardiomyopathy occurred [34]. The reduction of such adverse effects reactions may be mainly attributed to the accuracy of IMRT-SIB radiotherapy dose and the use of advanced improved irradiation technology. This indicates that IMRT-SIB has made great progress in reducing the side effects of radiotherapy [35, 36].

The late cosmetic effect of the whole breast combined with tumor bed concurrent IMRT-SIB has always been the focus of attention. The comprehensive publication of long-term cosmetic results and longer follow-up data for several large randomized controlled phase III trials investigating the application of SIB in adjuvant WBI is still pending [37, 38]. Our findings had a high rate of excellent cosmetic outcomes (96.9% at 2 years) highlight the patient-centric benefits of IMRT-SIB, better than some studies [39, 40]. However, the reliance on subjective assessments by patients and physicians raises questions about the consistency and objectivity of these evaluations. Our study highlights the necessity of incorporating more objective measures in assessing cosmetic outcomes. These detailed analyses of toxicity and cosmetic outcomes could offer new insights into patient experiences and long-term satisfaction with IMRT-SIB, potentially influencing future treatment choices and patient care strategies. Future research should aim to include more standardized and objective measures, such as those employed in the IMRT-MC2 trial, to provide a more comprehensive evaluation of cosmetic outcomes [25, 26, 41]. During the follow-up of this study, it was also found that 5 patients had upper limb lymphedema, which may be caused by comprehensive factors such as local regional radiotherapy and axillary lymph node dissection [42].

In this study, most patients (89.6%) had grade 0–1 acute radiodermatitis, and 10.4% had grade 2. No patients with grade 3 or above skin toxicity were found. This is similar to the findings of Krug et al. [38], but lower than the results reported by Xia et al. [43]. This may be because that most of the patients in this study are hospitalized for radiotherapy, and the skin care during radiotherapy is better, thus reducing the occurrence of higher-level skin toxicity. In addition, relevant studies have shown that the increase of wet desquamation is related to the larger breast volume, and the breast sizes of patients after breast conserving surgery are different in each study, which may be one of the factors that have different incidence of acute skin toxicity in the same type of study [44].

The occurrence of radiation esophagitis is directly related to the radiation dose. Therefore, in the IMRT-SIB for breast cancer, the esophagus must be taken as an OAR for strict dose limit. Our results found that 147 patients (47.4%) had grade 1 acute laryngopharyngitis/esophagitis, which was consistent with the observation of 59.6% grade 1–2 esophageal toxicity after radiotherapy reported by Pasqueer et al. [45], which is slightly lower than that reported by Wang et al. [46]. The reason for this discrepancy might be that their study involved patients who underwent total breast mastectomy and had pathologically positive axillary lymph nodes. The tumor target area in their study is closer to the entrance of the esophagus, resulting in a higher radiation dose to the esophagus. However, our analysis focuses on patients who have undergone breast-conserving surgery, where the target area is relatively farther away, leading to a lower radiation dose to the esophagus.

While our study presents substantial evidence supporting the efficacy and safety of SIB, it is not without limitations. The relatively short follow-up period limits our ability to assess long-term outcomes comprehensively. Although these short-term results are promising, the need for extended follow-up to ascertain long-term efficacy and safety remains paramount [47]. Moreover, the lack of photographic documentation for cosmetic assessments introduces an element of subjectivity that might affect the reliability of these outcomes. The longevity of treatment benefits, potential late adverse effects, and long-term quality of life outcomes are critical components of comprehensive cancer care that require further exploration. To address these limitations, future studies should incorporate longer follow-up durations and objective methods for cosmetic assessment, such as photographic records.

In light of these considerations, our study contributes significantly to the existing body of knowledge, supporting the use of IMRT-SIB in the treatment of breast cancer post-conserving surgery. We advocate for further research to validate these findings in a larger cohort over a more extended period, ensuring that the promising results observed in our study are sustainable and universally applicable. Additionally, patient-reported outcomes and quality of life assessments could be incorporated to provide a more holistic view of the treatment impact. These outcomes are crucial for understanding the patient experience and the broader implications of treatment beyond clinical efficacy.

In conclusion, our study provides compelling evidence that intensity-modulated radiation therapy with simultaneous integrated boost (IMRT-SIB) following breast-conserving surgery is not only effective in the short term but also yields favorable cosmetic outcomes. The impressive rates of local control, distant metastasis-free survival, and overall survival observed in our cohort are indicative of the potential of IMRT-SIB as a reliable adjuvant therapy in breast cancer management. Furthermore, the high rate of excellent cosmetic outcomes emphasizes the patient-centric advantages of this approach, which are increasingly vital in cancer care.

All study participants provided informed consent, and the study design was approved by the appropriate ethics review board. We have read and understood your journal’s policies, and we believe that neither the manuscript nor the study violates any of these. There are no conflicts of interest to declare.