[Concurrent simultaneous integrated boost radiotherapy and cetuximab in head and neck squamous cell cancer patients: is it feasible in daily clinical practice?] / Radioterapia a intensità modulata con boost simultaneo più cetuximab in pazienti con carcinoma a cellule squamose in stadio localmente avanzato del distretto testa collo: è fattibile nella pratica clinica quotidiana?

INTRODUCTION AND AIM: Locally advanced head and neck squamous cell carcinoma (LA-Hnscc) is a true therapeutical challenge in the modern era and the scientific community is trying to face this challenge with new therapeutical strategies, including combinations of monoclonal antibodies and radiation therapy. The aim of this study is to evaluate clinical outcomes in LA-Hnscc patients unfit to receive platinum-based chemotherapy, treated with concurrent simultaneous integrated boost-intensity modulated radiotherapy (Sib-Imrt) + cetuximab (Ctx) in daily clinical practice. METHODS: LA-Hnscc patients not included in other prospective studies treated in 4 Italian radiotherapy units (2 Messina, 1 Rome, and 1 Lecce) using Sib-Imrt and Ctx were included in this study. Acute and late toxicities and overall survival (OS) have been evaluated. RESULTS: Data regarding 27 patients with squamous tumour were collected and reviewed. The primary tumour sites were oropharynx in 14 patients (51.9%), oral cavity in 7 (25.9%), larynx in 3 (11%) and other sites in 3(11%). There were 20 (74%) patients had stage IV (16 IVa and 4 IVb). Complete remission was observed in 18 patients (66.7%), a partial remission in 4 (14.8%) whilst 4 had a progression disease (14.8%). After 3 year of follow-up 7/27 patients were deaths. The OS was 95.5%, 62.5% and 52.9% respectively at 1,2 and 3 years. Acute toxicities were observed in all treated patients (mucositis, dermatitis and dysphagia) while 66.7% of patients developed late toxicities. All observed toxicities were grade 1 to 3 and just 1 patient developed a G4 toxicity. CONCLUSION: The concurrent bio-radiotherapy of Sib-Imrt and cetuximab is feasible in real-life daily clinical practice for LA-Hnscc patients unfit for platinum-based chemoradiotherapy.

Modulation of Radiation Doses and Chimeric Antigen Receptor T Cells: A Promising New Weapon in Solid Tumors-A Narrative Review.

Tumor behavior is determined by its interaction with the tumor microenvironment (TME). Chimeric antigen receptor (CART) cell therapy represents a new form of cellular immunotherapy (IT). Immune cells present a different sensitivity to radiation therapy (RT). RT can affect tumor cells both modifying the TME and inducing DNA damage, with different effects depending on the low and high doses delivered, and can favor the expression of CART cells. CART cells are patients' T cells genetically engineered to recognize surface structure and to eradicate cancer cells. High-dose radiation therapy (HDRT, >10-20 Gy/fractions) converts immunologically "cold" tumors into "hot" ones by inducing necrosis and massive inflammation and death. LDRT (low-dose radiation therapy, >5-10 Gy/fractions) increases the expansion of CART cells and leads to non-immunogenetic death. An innovative approach, defined as the LATTICE technique, combines a high dose in higher FDG- uptake areas and a low dose to the tumor periphery. The association of RT and immune checkpoint inhibitors increases tumor immunogenicity and immune response both in irradiated and non-irradiated sites. The aim of this narrative review is to clarify the knowledge, to date, on CART cell therapy and its possible association with radiation therapy in solid tumors.