Photon irradiation using a water bath technique for treatment of confluent carcinoma in situ of the hand, digits, and nail bed: a case report

Abstract Background Confluent squamous cell carcinoma in situ, or Bowen’s disease, involving the hand, digit, and nail bed is rare and represents a significant therapeutic challenge. Surgical excision is recommended as first-line treatment but in cases of extensive disease can lead to unacceptable functional morbidity or cosmetic outcomes. Radiation therapy has been shown to be equally efficacious to surgery in the treatment of carcinoma in situ but its use has historically been limited due to concerns regarding toxicity. In this case report we present a novel therapeutic technique that may enable radiotherapy to be employed as a definitive treatment option in these challenging cases. Case presentation A 75-year-old white man with a previous history of carcinoma in situ of his right hand previously treated with 5-fluorouracil presented with recurrent biopsy-proven confluent squamous cell carcinoma in situ of multiple surfaces of his right hand and digits with involvement of nail beds. To avoid extensive resection and possible amputation he was offered definitive external beam radiation therapy utilizing a water bath as a tissue-equivalent bolus material. This protocol enabled improved dose homogeneity to the target volume while minimizing acute toxicity. He experienced complete clinical resolution of the disease with only minimal acute edema and hyperpigmentation. Twenty months following treatment completion he remains disease-free with normal function and excellent cosmesis. Conclusions Therapeutic radiation utilizing water as a tissue-equivalent bolus in this complicated case enabled definitive treatment of disease without compromising functional or cosmetic outcomes. Radiotherapy may therefore be an alternative and under-utilized approach to surgical excision in difficult-to-treat cases of carcinoma in situ

ACR-ARS Practice Parameter on Informed Consent Radiation Oncology

OBJECTIVES: Consent is a communication process between the patient and a health care provider, in which both parties have the opportunity to ask questions and exchange information relevant to the patient\u27s diagnosis and treatment. The process of informed consent is designed to protect a patient\u27s autonomy in their medical decision-making in the context of an asymmetric relationship with the health care system. A proper consent process assures a patient\u27s individual autonomy, reduces the opportunity for abusive conduct or conflicts of interest, and raises trust levels among participants. This document was developed as an educational tool to facilitate these goals. METHODS: This practice parameter was produced according to the process described under the heading The Process for Developing ACR Practice Parameters and Technical Standards on the ACR website ( https://www.acr.org/Clinical-Resources/Practice-Parameters-and-Technical-Standards ) by the Committee on Practice Parameters-Radiation Oncology of the ACR Commission on Radiation Oncology in collaboration with the ARS. Committee members were charged with reviewing the prior version of the informed consent practice parameter published in 2017 and recommending additions, modifications, or deletions. The committee met through remote access and subsequently through an online exchange to facilitate the development of the revised document. Focus was given on identifying new considerations and challenges with informed consent given the evolution of the practice of radiation oncology in part driven by the COVID-19 pandemic and other external factors. RESULTS: A review of the practice parameter published in 2017 confirmed the ongoing relevance of recommendations made at that time. In addition, the evolution of the practice of radiation oncology since the publication of the prior document resulted in the need for new topics to be addressed. These topics include remote consent either through telehealth or telephone and with the patient or their health care proxy. CONCLUSIONS: Informed consent is an essential process in the care of radiation oncology patients. This practice parameter serves as an educational tool designed to assist practitioners in optimizing this process for the benefit of all involved parties

Radiotherapy of MRI-detected involved internal mammary lymph nodes in breast cancer

Abstract Background The internal mammary (IM) lymph node chain, along with the axillary nodal basin, is a first-echelon breast lymphatic draining site. A growing body of evidence supports irradiation of this region in node-positive breast cancer. This study evaluated the effectiveness of radiotherapy in treating magnetic resonance imaging (MRI)-detected abnormal IM lymph nodes in newly-diagnosed non-metastatic breast cancer. Methods A structured query was performed on an electronic institutional database to identify women with radiographic evidence of abnormal IM node(s) on breast MRI from 2005 to 2013. Manual review narrowed inclusion to patients with a primary diagnosis of non-metastatic breast cancer with abnormal IM node(s) based on pathologic size criteria and/or abnormal enhancement. Results Of the 7070 women who underwent pre-treatment MRI, 19 (0.3%) were identified on imaging to have a total of 25 abnormal pre-treatment IM lymph nodes, of which 96% were located in the first two intercostal spaces and 4% in the third space. A majority of the primary tumors were high-grade (94.7%) and hormone-receptor negative (73.7%), while 47.4% overexpressed HER-2/neu receptor. Axillary nodal disease was present in 89.5% of patients, while one patient had supraclavicular involvement. At a median follow-up of 38 months, 31.6% of patients had developed metastatic disease and 21.1% had died from their disease. Of the patients who received IM coverage, none had progressive disease within the IM lymph node chain. Conclusions Radiologic evidence of pre-treatment abnormal IM chain lymph nodes was associated with advanced stage, high grade, and negative estrogen receptor status. The majority of positive lymph nodes were located within the first two intercostal spaces, while none were below the third. Radiation of the IM chain in combination with modern systemic therapy was effective in achieving locoregional control without surgical resection in this cohort of patients