Consolidative active scanning proton therapy for mediastinal lymphoma: selection criteria, treatment implementation and clinical feasibility

F Dionisi; D Scartoni; B Rombi; S Vennarini; R Righetto; P Farace; S Lorentini; M Schwarz; L Di Murro; C Demofonti; R M D'Angelillo; M G Petrongari; G Sanguineti; M Amichetti

doi:10.1007/s00066-022-01918-1

Consolidative active scanning proton therapy for mediastinal lymphoma: selection criteria, treatment implementation and clinical feasibility

Strahlenther Onkol. 2022 Jun;198(6):558-565. doi: 10.1007/s00066-022-01918-1. Epub 2022 Apr 8.

Authors

F Dionisi¹, D Scartoni², B Rombi², S Vennarini², R Righetto², P Farace², S Lorentini², M Schwarz², L Di Murro³, C Demofonti³, R M D'Angelillo³, M G Petrongari⁴, G Sanguineti⁴, M Amichetti²

Affiliations

¹ Department of Radiation Oncology, IRCSS Regina Elena National Cancer Institute, Rome, Italy. francesco.dionisi@ifo.it.
² Proton Therapy unit, APSS, Trento, Italy.
³ Department of Radiotherapy, University of Tor Vergata, Rome, Italy.
⁴ Department of Radiation Oncology, IRCSS Regina Elena National Cancer Institute, Rome, Italy.

PMID: 35394144
DOI: 10.1007/s00066-022-01918-1

Abstract

Aims: Proton therapy (PT) represents an advanced form of radiotherapy with unique physical properties which could be of great advantage in reducing long-term radiation morbidity for cancer survivors. Here, we aim to describe the whole process leading to the clinical implementation of consolidative active scanning proton therapy treatment (PT) for mediastinal lymphoma.

Methods: The process included administrative, technical and clinical issues. Authorization of PT is required in all cases as mediastinal lymphoma is currently not on the list of diseases reimbursable by the Italian National Health Service. Technically, active scanning PT treatment for mediastinal lymphoma is complex, due to the interaction between actively scanned protons and the usually irregular and large volumes to be irradiated, the nearby healthy tissues and the target motion caused by breathing. A road map to implement the technical procedures was prepared. The clinical selection of patients was of utmost importance and took into account both patient and tumor characteristics.

Results: The first mediastinal lymphoma was treated at our PT center in 2018, four years after the start of the clinical activities. The treatment technique implementation included mechanical deep inspiration breath-hold simulation computed tomography (CT), clinical target volume (CTV)-based multifield optimization planning and plan robustness analysis. The ultimate authorization rate was 93%. In 4 cases a proton-photon plan comparison was required. Between May 2018 and February, 2021, 14 patients were treated with consolidative PT. The main clinical reasons for choosing PT over photons was a bulky disease in 8 patients (57%), patient's age in 11 patients (78%) and the proximity of the lymphoma to cardiac structures in 10 patients (71%). With a median follow-up of 15 months (range, 1-33 months) all patients but one (out-of-field relapse) are without evidence of disease, all are alive and no late toxicities were observed during the follow-up period.

Conclusions: The clinical implementation of consolidative active scanning PT for mediastinal lymphoma required specific technical procedures and a prolonged experience with PT treatments. An accurate selection of patients for which PT could be of advantage in comparison with photons is mandatory.

Keywords: Hodgkin lymphoma; IMPT; Non-Hodgkin lymphoma; Particle therapy; Radiation therapy.

MeSH terms

Feasibility Studies
Hodgkin Disease* / pathology
Humans
Lymphoma* / radiotherapy
Mediastinal Neoplasms* / diagnostic imaging
Mediastinal Neoplasms* / radiotherapy
Organs at Risk / pathology
Patient Selection
Proton Therapy* / methods
Radiotherapy Dosage
Radiotherapy Planning, Computer-Assisted / methods
Radiotherapy, Intensity-Modulated* / methods
State Medicine