Sylvie Bonvalot1, Piotr L Rutkowski2, Juliette Thariat3, Sébastien Carrère4, Anne Ducassou5, Marie-Pierre Sunyach6, Peter Agoston7, Angela Hong8, Augustin Mervoyer9, Marco Rastrelli10, Victor Moreno11, Rubi K Li12, Béatrice Tiangco13, Antonio Casado Herraez14, Alessandro Gronchi15, László Mangel16, Teresa Sy-Ortin17, Peter Hohenberger18, Thierry de Baère19, Axel Le Cesne20, Sylvie Helfre21, Esma Saada-Bouzid22, Aneta Borkowska23, Rodica Anghel24, Ann Co25, Michael Gebhart26, Guy Kantor27, Angel Montero28, Herbert H Loong29, Ramona Vergés30, Lore Lapeire31, Sorin Dema32, Gabriel Kacso33, Lyn Austen34, Laurence Moureau-Zabotto35, Vincent Servois36, Eva Wardelmann37, Philippe Terrier38, Alexander J Lazar39, Judith V M G Bovée40, Cécile Le Péchoux41, Zsusanna Papai42. 1. Department of Surgery, Institut Curie, PSL Research University, Paris, France. Electronic address: sylvie.bonvalot@curie.fr. 2. Department of Soft Tissue/Bone Sarcoma and Melanoma, Maria Sklodowska-Curie Institute-Oncology Center, Institute of Oncology, Warsaw, Poland. 3. Department of Radiation Oncology, Centre François Baclesse, Caen, France; Department of Radiation Oncology, Centre Lacassagne, Nice, France. 4. Department of Surgical Oncology, Centre Regional De Lutte Contre Le Cancer Paul Lamarque, Montpellier, France. 5. Department of Radiation Oncology, Institut Claudius Regaud (ICR), Institut Universitaire du Cancer de Toulouse-Oncopole (IUCT-O), Toulouse, France. 6. Department of Radiotherapy, Léon Bérard Cancer Center, Lyon, France. 7. Department of Radiation Oncology, Országos Onkologiai Intézet, Budapest, Hungary. 8. Department of Radiation Oncology, Chris O'Brien Lifehouse and The University of Sydney, Camperdown, NSW, Australia. 9. Department of Radiation Oncology, Institut de Cancerologie de l'Ouest- Rene Gauducheau, Saint-Herblain, France. 10. Department of Surgical Oncology, Istituto Oncologico Veneto IRCCS, Padova, Italy. 11. Department of Medical Oncology, Hospital Fundación Jimenez Diaz, Madrid, Spain. 12. Department of Medical Oncology, St Luke's Medical Center, Quezon City, Philippines. 13. Department of Medical Oncology, The Medical City Cancer Center, Pasay City, Philippines. 14. Department of Medical Oncology, Hospital Clinico Universitario San Carlos, Madrid, Spain. 15. Department of Surgery, Fondazione IRCCS Istituto Nazionale Dei Tumori, Milan, Italy. 16. Department of Oncotherapy, University of Pecs, Pecs, Hungary. 17. Department of Radiation Oncology, Benavides Cancer Institute, University of Santo Tomas Hospital, Manila, Philippines. 18. Department of Surgery, Division of Surgical Oncology and Thoracic Surgery, University Hospital Mannheim, University of Heidelberg, Mannheim, Germany. 19. Department of Interventional Radiology, Gustave Roussy-Cancer Campus, Villejuif, France. 20. Department of Medical Oncology, Gustave Roussy-Cancer Campus, Villejuif, France. 21. Department of Radiation Therapy, Institut Curie, PSL Research University, Paris, France. 22. Department of Medical Oncology, Centre Anticancer Antoine Lacassagne, Nice, France. 23. Department of Radiotherapy, Maria Sklodowska-Curie Institute-Oncology Center, Institute of Oncology, Warsaw, Poland. 24. Institutul Oncologic Bucuresti Prof Dr Alexandru Trestioreanu, Bucharest, Romania. 25. Cebu Cancer Institute, Perpetual Succour Hospital, Cebu City, Philippines. 26. Department of Orthopedic Surgery, ULB, Institut Jules Bordet, Brussels, Belgium. 27. Department of Radiotherapy, Institut Bergonié, Comprehensive Cancer Center, Bordeaux, France. 28. Radiation Oncology Department, Hospital HM Universitario Sanchinarro, Madrid, Spain. 29. Department of Clinical Oncology, Prince of Wales Hospital, Sha Tin, Hong Kong. 30. Radiation Oncology Department, Vall d'Hebron University Hospital, Barcelona, Spain. 31. Department of Medical Oncology, Ghent University Hospital, Gent, Belgium. 32. Municipal Emergency Hospital Timisoara, Timisoara, Romania. 33. Iuliu Hatieganu Medical University, RTC Amethyst, Cluj, Romania. 34. Department of Radiation Oncology, Canberra Region Cancer Centre, Garran, Australia. 35. Department of Radiation-Oncology, Institut Paoli Calmettes, Marseille Cedex, France. 36. Department of Radiology, Institut Curie, PSL Research University, Paris, France. 37. Gerhard Domagk Institute of Pathology, University Hospital Münster, Münster, Germany. 38. Gustave Roussy, Cancer Campus, Paris-Sud University, Villejuif, France. 39. Departments of Pathology & Genomic Medicine, The University of Texas MD Anderson Cancer Center, Houston, TX, USA. 40. Department of Pathology, Leiden University Medical Center, Leiden, Netherlands. 41. Department of Radiation Oncology, Gustave Roussy-Cancer Campus, Villejuif, France. 42. Medical Centre, Hungarian Defence Forces, Budapest, Hungary.
Abstract
BACKGROUND:Pathological complete response to preoperative treatment in adults with soft-tissue sarcoma can be achieved in only a few patients receiving radiotherapy. This phase 2-3 trial evaluated the safety and efficacy of the hafnium oxide (HfO2) nanoparticle NBTXR3 activated by radiotherapy versus radiotherapy alone as a pre-operative treatment in patients with locally advanced soft-tissue sarcoma. METHODS: Act.In.Sarc is a phase 2-3 randomised, multicentre, international trial. Adults (aged ≥18 years) with locally advanced soft-tissue sarcoma of the extremity or trunk wall, of any histological grade, and requiring preoperative radiotherapy were included. Patients had to have a WHO performance status of 0-2 and a life expectancy of at least 6 months. Patients were randomly assigned (1:1) by an interactive web response system to receive either NBTXR3 (volume corresponding to 10% of baseline tumour volume at a fixed concentration of 53·3 g/L) as a single intratumoural administration before preoperative external-beam radiotherapy (50 Gy in 25 fractions) or radiotherapy alone, followed by surgery. Randomisation was stratified by histological subtype (myxoid liposarcoma vs others). This was an open-label study. The primary endpoint was the proportion of patients with a pathological complete response, assessed by a central pathology review board following European Organisation for Research and Treatment of Cancer guidelines in the intention-to-treat population full analysis set. Safety analyses were done in all patients who received at least one puncture and injection of NBTXR3 or at least one dose of radiotherapy. This study is registered with ClinicalTrials.gov, number NCT02379845, and is ongoing for long-term follow-up, but recruitment is complete. FINDINGS:Between March 3, 2015, and Nov 21, 2017, 180 eligible patients were enrolled and randomly assigned and 179 started treatment: 89 in theNBTXR3 plus radiotherapy group and 90 in the radiotherapy alone group. Two patients in the NBTXR3 group and one patient in the radiotherapy group were excluded from the efficacy analysis because they were subsequently discovered to be ineligible; thus, a total of 176 patients were analysed for the primary endpoint in the intention-to-treat full analysis set (87 in the NBTXR3 group and 89 in the radiotherapy alone group). A pathological complete response was noted in 14 (16%) of 87 patients in the NBTXR3 group and seven (8%) of 89 in the radiotherapy alone group (p=0·044). In both treatment groups, the most common grade 3-4 treatment-emergent adverse event was postoperative wound complication (eight [9%] of 89 patients in the NBTXR3 group and eight [9%] of 90 in the radiotherapy alone group). The most common grade 3-4 adverse events related to NBTXR3 administration were injection site pain (four [4%] of 89) and hypotension (four [4%]) and the most common grade 3-4 radiotherapy-related adverse event was radiation skin injury in both groups (five [6%] of 89 in the NBTXR3 group and four [4%] of 90 in the radiotherapy alone group). The most common treatment-emergent grade 3-4 adverse event related to NBTXR3 was hypotension (six [7%] of 89 patients). Serious adverse events were observed in 35 (39%) of 89 patients in the NBTXR3 group and 27 (30%) of 90 patients in the radiotherapy alone group. No treatment-related deaths occurred. INTERPRETATION: This trial validates the mode of action of this new class of radioenhancer, which potentially opens a large field of clinical applications in soft-tissue sarcoma and possibly other cancers. FUNDING: Nanobiotix SA.
RCT Entities:
BACKGROUND: Pathological complete response to preoperative treatment in adults with soft-tissue sarcoma can be achieved in only a few patients receiving radiotherapy. This phase 2-3 trial evaluated the safety and efficacy of the hafnium oxide (HfO2) nanoparticle NBTXR3 activated by radiotherapy versus radiotherapy alone as a pre-operative treatment in patients with locally advanced soft-tissue sarcoma. METHODS: Act.In.Sarc is a phase 2-3 randomised, multicentre, international trial. Adults (aged ≥18 years) with locally advanced soft-tissue sarcoma of the extremity or trunk wall, of any histological grade, and requiring preoperative radiotherapy were included. Patients had to have a WHO performance status of 0-2 and a life expectancy of at least 6 months. Patients were randomly assigned (1:1) by an interactive web response system to receive either NBTXR3 (volume corresponding to 10% of baseline tumour volume at a fixed concentration of 53·3 g/L) as a single intratumoural administration before preoperative external-beam radiotherapy (50 Gy in 25 fractions) or radiotherapy alone, followed by surgery. Randomisation was stratified by histological subtype (myxoid liposarcoma vs others). This was an open-label study. The primary endpoint was the proportion of patients with a pathological complete response, assessed by a central pathology review board following European Organisation for Research and Treatment of Cancer guidelines in the intention-to-treat population full analysis set. Safety analyses were done in all patients who received at least one puncture and injection of NBTXR3 or at least one dose of radiotherapy. This study is registered with ClinicalTrials.gov, number NCT02379845, and is ongoing for long-term follow-up, but recruitment is complete. FINDINGS: Between March 3, 2015, and Nov 21, 2017, 180 eligible patients were enrolled and randomly assigned and 179 started treatment: 89 in the NBTXR3 plus radiotherapy group and 90 in the radiotherapy alone group. Two patients in the NBTXR3 group and one patient in the radiotherapy group were excluded from the efficacy analysis because they were subsequently discovered to be ineligible; thus, a total of 176 patients were analysed for the primary endpoint in the intention-to-treat full analysis set (87 in the NBTXR3 group and 89 in the radiotherapy alone group). A pathological complete response was noted in 14 (16%) of 87 patients in the NBTXR3 group and seven (8%) of 89 in the radiotherapy alone group (p=0·044). In both treatment groups, the most common grade 3-4 treatment-emergent adverse event was postoperative wound complication (eight [9%] of 89 patients in the NBTXR3 group and eight [9%] of 90 in the radiotherapy alone group). The most common grade 3-4 adverse events related to NBTXR3 administration were injection site pain (four [4%] of 89) and hypotension (four [4%]) and the most common grade 3-4 radiotherapy-related adverse event was radiation skin injury in both groups (five [6%] of 89 in the NBTXR3 group and four [4%] of 90 in the radiotherapy alone group). The most common treatment-emergent grade 3-4 adverse event related to NBTXR3 was hypotension (six [7%] of 89 patients). Serious adverse events were observed in 35 (39%) of 89 patients in the NBTXR3 group and 27 (30%) of 90 patients in the radiotherapy alone group. No treatment-related deaths occurred. INTERPRETATION: This trial validates the mode of action of this new class of radioenhancer, which potentially opens a large field of clinical applications in soft-tissue sarcoma and possibly other cancers. FUNDING: Nanobiotix SA.
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