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Clinical Trial Summary

Surgical treatment represents the standard of local therapy in patients with early breast cancer, however in women over75, the comorbidities related to aging reduce the possibility of candidates for surgical treatment. In the United Kingdom it is estimated that over 40% of elderly women do not receive surgery for their breast cancer, and that their primary treatment is hormonal only, the so-called primary endocrinotherapy. In Italy the recent AIOM guidelines of 2019 exclude, in patients with hormone-sensitive disease and age older than 70, the omission of surgery in favor of hormone therapy alone, thus underlining the importance of a treatment local. However, there are currently no local treatments that could in any way effectively control the primary tumor. In recent years, SRT has widely found space as a therapeutic alternative in patients not fit for surgery. Stereotactic Radiotherapy is a non-invasive treatment with ablative intent obtained with highly focused high intensity fields for a few fractions (generally 1-5). It is the standard treatment for surgically inoperable lung cancers, and is also used in the treatment of liver metastases, intermediate-risk prostate cancer and locally advanced pancreatic cancers. The applications of stereotactic treatment in breast cancer are limited to the neoadjuvant and adjuvant setting. Against this backgroung, in elderly patients with localized breast cancer candidates for hormonal therapy and non-fit for surgery due to age or comorbidity, a SBRT could more effectively control local disease, not excluding local treatment rather than in itself it is considered very important.

Clinical Trial Description

Breast cancer is the most common cancer diagnosis in females; with population ageing, this diagnosis may increase in 75 years old or older patients. According to AIRTUM data, 22% of new cases of breast cancer and 14% of death by breast cancer are expected in women over 70 years old. Surgery is the gold standard of treatment for breast cancer, but advanced age and age-related comorbidity could reduce the ability of a surgical approach. In the United Kingdom, it is estimated that over 40% of older women will not receive surgical treatment for breast tumor, while endocrine therapy alone is frequently offered. This treatment is known as primary endocrine therapy. In our country, AIOM guidelines favor endocrine therapy alone in women over 70 with ER-positive tumors instead of surgical resection, even emphasizing the importance of local treatment. Among nonsurgical methods to treat breast cancer, radiofrequency ablation and focused ultrasound have been investigated, but they are not widely available at present time. Radiation therapy has been used to treat patients with inoperable breast cancer, but most of these treatments were palliative. There are limited clinical data supporting the use of definitive conventionally fractionated radiotherapy and more specifically stereotactic ablative body radiotherapy in breast cancer. A collaborative study between the Gustave-Roussy Institute and the Princess Margaret Hospital reviewed the use of radiotherapy alone as definitive breast cancer treatment. Patients who had inoperable disease or who were unable to undergo general anesthesia received definitive hypofractionated radiotherapy (40Gy in 16 fractions, 45Gy in 20 fractions, or 45Gy in 18 fractions). This retrospective study demonstrated tumor dose as being a highly significant factor for local control, with very low rates of disabling complications at 10 years. Van Limbergen et al. also performed a retrospective analysis of 221 patients withTis-T3N0-1 breast cancer treated with radiotherapy alone. The risk of local recurrence was significantly associated with tumor size, age, radiation dose, and length of radiation. They concluded that doses needed to provide local control similar to a combination of surgery and radiation are 10 Gy higher for T1 tumors and 35Gy higher for T2 tumors. Unfortunately, higher doses may result in worsened cosmetic outcomes. Van Limbergen et al reviewed 161 patients, and those that received dose higher than 75Gy recorded very poor cosmetic results in more than 30% of patients; if total dose was up to 80Gy only 15% of patients reported good cosmetic results. It is important to remember that these papers are more than 25 years old, using older radiotherapy techniques and larger treatment fields. With the development of modern radiation therapy techniques, and the adoption of Stereotactic Body RadioTherapy (SBRT) tumoricidal doses are delivered without severe complications. SBRT is a non-invasive cancer treatment with ablative intent delivered with highly focused and accurate radiation beams for few fraction (generally 3-5 fractions). Many trials established the safety and efficacy of SBRT in multiple organ sites including the lung, liver, spine, prostate and pancreas. SBRT is actually shared as standard treatment in inoperable lung tumors: Timmerman et al. published one of the earlier extracranial SBRT trials on its use in early stage lung cancer, demonstrating excellent local control rates and side effect outcomes. SBRT also offers a noninvasive alternative treatment for patients with liver metastases, who are not candidates for surgical resection. The Stanford group initially established the safety of single fraction SBRT in 6 patients with locally advanced pancreatic cancer, subsequently a multi-institutional phase II study, reported by Herman et al. demonstrated equivalent efficacy in 1-year local progression freedom with acceptable toxicity profile in 49 patients with LAPC treated with 5 fractions SBRT following gemcitabine. The scandinavian HYPO-RT-PC trial showed non-inferiority to conventionally fractionated radiotherapy for ultra-hypofractionated radiotherapy for intermediate-to-high risk prostate cancer regarding failure-free survival with similar late toxicity in both groups. To date, SABR to primary tumor in breast cancer treatment has been mainly investigated in neoadjuvant and adjuvant setting. Bondiau et al. conducted a Phase I study involving 25 patients to determine the maximum tolerable dose of SBRT concomitant with neoadjuvant chemotherapy before surgery. Thirty-six percent of patients had a pathological complete response, with the highest rate (67%) at dose level of 25.5 Gy in 3 consecutive fractions. However, the maximum tolerated dose was not reached (highest dose level 31.5 in 3 consecutive fractions) as the group found that early SABR related toxicities were rare. Also in other studies toxicity was limited. The first SBRT studies in the management of early stage breast cancer were post-operative studies. SBRT was used either as a boost, or for accelerated partial breast radiation therapy. Age was not an exclusion criterion, but mean ages were under 65 years. The proportion of patients aged >65 years were not given. SBRT has not yet been studied specifically in elderly patients who paradoxically most often have tumors with better histoprognostic factors than younger women. Instead, SBRT role as a definitive ablative therapy in breast cancer is less considered and there are no prospective studies. Therefore, in elderly patients (over 75y) eligible for hormone therapy only and unsuitable for surgery, SBRT could improve locoregional control by means of a short and highly effective treatment without any interruption of systemic treatment. The Aim of this trial is to evaluate dose limiting toxicity for SBRT in elderly patients elected to receive hormone therapy only for breast cancer. ;

Study Design

Related Conditions & MeSH terms

NCT number NCT05071105
Study type Interventional
Source University of Rome Tor Vergata
Contact Laura Cedrone
Phone +393669879224
Email [email protected]
Status Recruiting
Phase Phase 1
Start date January 1, 2021
Completion date November 2023

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