Javier Martin-Broto1,2, Nadia Hindi1,2, Antonio Lopez-Pousa3, Javier Peinado-Serrano2,4,5, Rosa Alvarez6, Ana Alvarez-Gonzalez7, Antoine Italiano8, Paul Sargos9, Josefina Cruz-Jurado10, Josep Isern-Verdum11, Maria Carmen Dolado12, Inmaculada Rincon-Pérez5, Paloma Sanchez-Bustos2, Antonio Gutierrez13, Cleofe Romagosa14, Carlo Morosi15, Giovanni Grignani16, Marco Gatti17, Pablo Luna18, Ignacio Alastuey19, Andres Redondo20,21, Belen Belinchon22, Jordi Martinez-Serra13, Marie-Pierre Sunyach23, Jean-Michel Coindre24,25, Angelo P Dei Tos26, Jesus Romero27, Alessandro Gronchi28, Jean-Yves Blay29,30, David S Moura2. 1. Department of Medical Oncology, University Hospital Virgen del Rocío, Sevilla, Spain. 2. TERABIS Group, IBiS (Instituto de Biomedicina de Sevilla), Sevilla, Spain. 3. Department of Medical Oncology, Santa Creu i Sant Pau Hospital, Barcelona, Spain. 4. CIBERONC (Centro de Investigación Biomédica en Red de Cáncer), Instituto de Salud Carlos III, Madrid, Spain. 5. Department of Radiation Oncology, University Hospital Virgen del Rocío, Sevilla, Spain. 6. Department of Medical Oncology, Gregorio Marañon University Hospital, Madrid, Spain. 7. Radiotherapy Department, Gregorio Marañon University Hospital, Madrid, Spain. 8. Department of Medical Oncology, Institut Bergonié, Bordeaux, France. 9. Department of Radiotherapy, Institut Bergonié, Bordeaux, France. 10. Department of Medical Oncology, University Hospital of the Canary Islands, Tenerife, Spain. 11. Radiation Department, Santa Creu i Sant Pau Hospital, Barcelona, Spain. 12. Department of Radiation Oncology, University Hospital of the Canary Islands, Tenerife, Spain. 13. Department of Hematology, University Hospital Son Espases, Mallorca, Spain. 14. Department of Pathology, Vall d'Hebron University Hospital, Barcelona, Spain. 15. Department of Radiology, Fondazione IRCCS Istituto Nazionale dei Tumori, Milan, Italy. 16. Division of Medical Oncology, Candiolo Cancer Institute, FPO-IRCCS, Candiolo, Italy. 17. Division of Radiotherapy, Candiolo Cancer Institute, FPO-IRCCS, Candiolo, Italy. 18. Department of Medical Oncology, University Hospital Son Espases, Mallorca, Spain. 19. Radiotherapy Department, University Hospital Son Espases, Mallorca, Spain. 20. Medical Oncology Department, University Hospital La Paz, Madrid, Spain. 21. Health Research Institute of La Paz Hospital (IdiPAZ), Madrid, Spain. 22. Department of Radiotherapy, University Hospital La Paz, Madrid, Spain. 23. Department of Radiotherapy, Centre Léon Bérard, Lyon, France. 24. Department of Biopathology, Institut Bergonié, Bordeaux, France. 25. Department of Biopathology, Bordeaux University, Talence, France. 26. Department of Medicine, University of Padua School of Medicine, Padua, Italy. 27. Department of Radiation Oncology, University Hospital Puerta de Hierro, Madrid, Spain. 28. Department of Surgery, Fondazione IRCCS, Istituto Nazionale dei Tumori, Milan, Italy. 29. Medical Oncology Department, Centre Léon Bérard, Lyon, France. 30. Département of Medicine, Université Claude Bernard Lyon I, Lyon, France.
Abstract
Importance: Active therapeutic combinations, such as trabectedin and radiotherapy, offer potentially higher dimensional response in second-line treatment of advanced soft-tissue sarcomas. Dimensional response can be relevant both for symptom relief and for survival. Objective: To assess the combined use of trabectedin and radiotherapy in treating patients with progressing metastatic soft-tissue sarcomas. Design, Setting, and Participants: Phase 1 of this nonrandomized clinical trial followed the classic 3 + 3 design, with planned radiotherapy at a fixed dose of 30 Gy (3 Gy/d for 10 days) and infusion of trabectedin at 1.3 mg/m2 as the starting dose, 1.5 mg/m2 as dose level +1, and 1.1 mg/m2 as dose level -1. Phase 2 followed the Simon optimal 2-stage design. Allowing for type I and II errors of 10%, treatment success was defined as an overall response rate of 35%. This study was conducted in 9 sarcoma referral centers in Spain, France, and Italy from April 13, 2015, to November 20, 2018. Adult patients with progressing metastatic soft-tissue sarcoma and having undergone at least 1 previous line of systemic therapy were enrolled. In phase 2, patients fitting inclusion criteria and receiving at least 1 cycle of trabectedin and the radiotherapy regimen constituted the per-protocol population; those receiving at least 1 cycle of trabectedin, the safety population. Interventions: Trabectedin was administered every 3 weeks in a 24-hour infusion. Radiotherapy was required to start within 1 hour after completion of the first trabectedin infusion (cycle 1, day 2). Main Outcomes and Measures: The dose-limiting toxic effects of trabectedin (phase 1) and the overall response rate (phase 2) with use of trabectedin plus irradiation in metastatic soft-tissue sarcomas. Results: Eighteen patients (11 of whom were male) were enrolled in phase 1, and 27 other patients (14 of whom were female) were enrolled in phase 2. The median ages of those enrolled in phases 1 and 2 were 42 (range, 23-74) years and 51 (range, 27-73) years, respectively. In phase 1, dose-limiting toxic effects included grade 4 neutropenia lasting more than 5 days in 1 patient at the starting dose level and a grade 4 alanine aminotransferase level increase in 1 of 6 patients at the +1 dose level. In phase 2, among 25 patients with evaluable data, the overall response rate was 72% (95% CI, 53%-91%) for local assessment and 60% (95% CI, 39%-81%) for central assessment. Conclusions and Relevance: The findings of this study suggest that the recommended dose of trabectedin for use in combination with this irradiation regimen is 1.5 mg/m2. The trial met its primary end point, with a high overall response rate that indicates the potential of this combination therapy for achieving substantial tumor shrinkage beyond first-line systemic therapy in patients with metastatic, progressing soft-tissue sarcomas. Trial Registration: ClinicalTrials.gov Identifier: NCT02275286.
Importance: Active therapeutic combinations, such as trabectedin and radiotherapy, offer potentially higher dimensional response in second-line treatment of advanced soft-tissue sarcomas. Dimensional response can be relevant both for symptom relief and for survival. Objective: To assess the combined use of trabectedin and radiotherapy in treating patients with progressing metastatic soft-tissue sarcomas. Design, Setting, and Participants: Phase 1 of this nonrandomized clinical trial followed the classic 3 + 3 design, with planned radiotherapy at a fixed dose of 30 Gy (3 Gy/d for 10 days) and infusion of trabectedin at 1.3 mg/m2 as the starting dose, 1.5 mg/m2 as dose level +1, and 1.1 mg/m2 as dose level -1. Phase 2 followed the Simon optimal 2-stage design. Allowing for type I and II errors of 10%, treatment success was defined as an overall response rate of 35%. This study was conducted in 9 sarcoma referral centers in Spain, France, and Italy from April 13, 2015, to November 20, 2018. Adult patients with progressing metastatic soft-tissue sarcoma and having undergone at least 1 previous line of systemic therapy were enrolled. In phase 2, patients fitting inclusion criteria and receiving at least 1 cycle of trabectedin and the radiotherapy regimen constituted the per-protocol population; those receiving at least 1 cycle of trabectedin, the safety population. Interventions: Trabectedin was administered every 3 weeks in a 24-hour infusion. Radiotherapy was required to start within 1 hour after completion of the first trabectedin infusion (cycle 1, day 2). Main Outcomes and Measures: The dose-limiting toxic effects of trabectedin (phase 1) and the overall response rate (phase 2) with use of trabectedin plus irradiation in metastatic soft-tissue sarcomas. Results: Eighteen patients (11 of whom were male) were enrolled in phase 1, and 27 other patients (14 of whom were female) were enrolled in phase 2. The median ages of those enrolled in phases 1 and 2 were 42 (range, 23-74) years and 51 (range, 27-73) years, respectively. In phase 1, dose-limiting toxic effects included grade 4 neutropenia lasting more than 5 days in 1 patient at the starting dose level and a grade 4 alanine aminotransferase level increase in 1 of 6 patients at the +1 dose level. In phase 2, among 25 patients with evaluable data, the overall response rate was 72% (95% CI, 53%-91%) for local assessment and 60% (95% CI, 39%-81%) for central assessment. Conclusions and Relevance: The findings of this study suggest that the recommended dose of trabectedin for use in combination with this irradiation regimen is 1.5 mg/m2. The trial met its primary end point, with a high overall response rate that indicates the potential of this combination therapy for achieving substantial tumor shrinkage beyond first-line systemic therapy in patients with metastatic, progressing soft-tissue sarcomas. Trial Registration: ClinicalTrials.gov Identifier: NCT02275286.
Authors: Nadia Hindi; Irene Carrasco García; Alberto Sánchez-Camacho; Antonio Gutierrez; Javier Peinado; Inmaculada Rincón; Johanna Benedetti; Pilar Sancho; Paloma Santos; Paloma Sánchez-Bustos; David Marcilla; Victor Encinas; Sara Chacon; Cristobal Muñoz-Casares; David Moura; Javier Martin-Broto Journal: Cancers (Basel) Date: 2020-12-12 Impact factor: 6.639
Authors: David S Moura; Maria Peña-Chilet; Juan Antonio Cordero Varela; Ramiro Alvarez-Alegret; Carolina Agra-Pujol; Francisco Izquierdo; Rafael Ramos; Luis Ortega-Medina; Francisco Martin-Davila; Carolina Castilla-Ramirez; Carmen Nieves Hernandez-Leon; Cleofe Romagosa; Maria Angeles Vaz Salgado; Javier Lavernia; Silvia Bagué; Empar Mayodormo-Aranda; Luis Vicioso; Jose Emilio Hernández Barceló; Jordi Rubio-Casadevall; Ana de Juan; Maria Concepcion Fiaño-Valverde; Nadia Hindi; Maria Lopez-Alvarez; Serena Lacerenza; Joaquin Dopazo; Antonio Gutierrez; Rosa Alvarez; Claudia Valverde; Javier Martinez-Trufero; Javier Martín-Broto Journal: Mol Oncol Date: 2021-06-30 Impact factor: 6.603