Trabectedin for patients with advanced soft tissue sarcoma: A non-interventional, retrospective, multicenter study of the italian sarcoma group

E. Palmerini; R. Sanfilippo; G. Grignani; A. Buonadonna; A. Romanini; G. Badalamenti; V. Ferraresi; B. Vincenzi; A. Comandone; A. Pizzolorusso; A. Brunello; F. Gelsomino; T. De Pas; T. Ibrahim; F. Grosso; F. Zanelli; M.A. Pantaleo; L. Milesi; L. Ciuffreda; V. Ferrari; E. Marchesi; I. Quattrini; A. Righi; E. Setola; E. Carretta; P. Picci; S. Ferrari

doi:10.3390/cancers13051053

Trabectedin for patients with advanced soft tissue sarcoma: A non-interventional, retrospective, multicenter study of the italian sarcoma group

E. Palmerini, R. Sanfilippo, G. Grignani, A. Buonadonna, A. Romanini, G. Badalamenti, V. Ferraresi, B. Vincenzi, A. Comandone, A. Pizzolorusso, A. Brunello, F. Gelsomino, T. De Pas, T. Ibrahim, F. Grosso, F. Zanelli, M.A. Pantaleo, L. Milesi, L. Ciuffreda, V. FerrariE. Marchesi, I. Quattrini, A. Righi, E. Setola, E. Carretta, P. Picci, S. Ferrari

Research output: Contribution to journal › Article › peer-review

Abstract

The Italian Sarcoma Group performed this retrospective analysis of patients with advanced soft tissue sarcoma, pretreated with ≥1 anthracycline-based treatment, and treated with trabectedin every three weeks. Primary endpoint was to describe real-life use of trabectedin across Italy. Secondary endpoints included objective response rate (ORR) and safety. Overall, 512 patients from 20 Italian centers were evaluated. Leiomyosarcoma (37.7%)/liposarcoma (30.3%) were the most prevalent histological types (abbreviated as L-sarcoma). Patients received a median of four trabectedin cycles (range: 1–40), mostly as a second-line treatment (~60% of patients). The ORR was 13.7% superior (p < 0.0001) in patients with L-sarcoma compared with patients with non-L-sarcoma (16.6% vs. 9.0%). Median progression-free survival (PFS) was 5.1 months, whereas median overall survival (OS) was 21.6 months. Significantly better PFS and OS were observed in patients with L-sarcoma, those with objective responses and/or disease stabilization, treated in an early line and treated with reduced dose. Bone marrow toxicity (61.4%) and transaminase increases (21.9%) were the most common grade 3/4 adverse events. The results of this real-life study suggest that trabectedin is an active treatment, which is mostly given as a second-line treatment to patients with a good performance status and high-grade, metastatic L-sarcoma (clinical trial information: NCT02793050). © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Original language	English
Pages (from-to)	1-15
Number of pages	15
Journal	Cancers
Volume	13
Issue number	5
DOIs	https://doi.org/10.3390/cancers13051053
Publication status	Published - 2021

Keywords

Observational
Real-life
Soft tissue sarcoma
Trabectedin
dacarbazine
docetaxel
doxorubicin
gemcitabine
ifosfamide
pazopanib
trabectedin
adult
advanced cancer
aged
Article
bone marrow toxicity
cancer combination chemotherapy
cancer survival
clinical effectiveness
controlled study
dose response
drug dose reduction
drug efficacy
drug safety
female
follow up
human
hypertransaminasemia
leiomyosarcoma
liposarcoma
major clinical study
male
monotherapy
multicenter study (topic)
observational study
progression free survival
recommended drug dose
retrospective study
soft tissue sarcoma
survival time
treatment duration
treatment outcome
treatment planning

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10.3390/cancers13051053

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85101694605&doi=10.3390%2fcancers13051053&partnerID=40&md5=bff3352e4ac8cc695b6c6011948bfb9a

Cite this

Palmerini, E., Sanfilippo, R., Grignani, G., Buonadonna, A., Romanini, A., Badalamenti, G., Ferraresi, V., Vincenzi, B., Comandone, A., Pizzolorusso, A., Brunello, A., Gelsomino, F., De Pas, T., Ibrahim, T., Grosso, F., Zanelli, F., Pantaleo, M. A., Milesi, L., Ciuffreda, L., ... Ferrari, S. (2021). Trabectedin for patients with advanced soft tissue sarcoma: A non-interventional, retrospective, multicenter study of the italian sarcoma group. Cancers, 13(5), 1-15. https://doi.org/10.3390/cancers13051053

Palmerini, E, Sanfilippo, R, Grignani, G , Buonadonna, A, Romanini, A, Badalamenti, G, Ferraresi, V, Vincenzi, B, Comandone, A, Pizzolorusso, A , Brunello, A , Gelsomino, F , De Pas, T , Ibrahim, T, Grosso, F, Zanelli, F , Pantaleo, MA, Milesi, L, Ciuffreda, L, Ferrari, V, Marchesi, E, Quattrini, I , Righi, A, Setola, E, Carretta, E, Picci, P & Ferrari, S 2021, 'Trabectedin for patients with advanced soft tissue sarcoma: A non-interventional, retrospective, multicenter study of the italian sarcoma group', Cancers, vol. 13, no. 5, pp. 1-15. https://doi.org/10.3390/cancers13051053

@article{536995f6af2a4a5cb55ea1e73dafdcf2,

title = "Trabectedin for patients with advanced soft tissue sarcoma: A non-interventional, retrospective, multicenter study of the italian sarcoma group",

abstract = "The Italian Sarcoma Group performed this retrospective analysis of patients with advanced soft tissue sarcoma, pretreated with ≥1 anthracycline-based treatment, and treated with trabectedin every three weeks. Primary endpoint was to describe real-life use of trabectedin across Italy. Secondary endpoints included objective response rate (ORR) and safety. Overall, 512 patients from 20 Italian centers were evaluated. Leiomyosarcoma (37.7%)/liposarcoma (30.3%) were the most prevalent histological types (abbreviated as L-sarcoma). Patients received a median of four trabectedin cycles (range: 1–40), mostly as a second-line treatment (~60% of patients). The ORR was 13.7% superior (p < 0.0001) in patients with L-sarcoma compared with patients with non-L-sarcoma (16.6% vs. 9.0%). Median progression-free survival (PFS) was 5.1 months, whereas median overall survival (OS) was 21.6 months. Significantly better PFS and OS were observed in patients with L-sarcoma, those with objective responses and/or disease stabilization, treated in an early line and treated with reduced dose. Bone marrow toxicity (61.4%) and transaminase increases (21.9%) were the most common grade 3/4 adverse events. The results of this real-life study suggest that trabectedin is an active treatment, which is mostly given as a second-line treatment to patients with a good performance status and high-grade, metastatic L-sarcoma (clinical trial information: NCT02793050). {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

keywords = "Observational, Real-life, Soft tissue sarcoma, Trabectedin, dacarbazine, docetaxel, doxorubicin, gemcitabine, ifosfamide, pazopanib, trabectedin, adult, advanced cancer, aged, Article, bone marrow toxicity, cancer combination chemotherapy, cancer survival, clinical effectiveness, controlled study, dose response, drug dose reduction, drug efficacy, drug safety, female, follow up, human, hypertransaminasemia, leiomyosarcoma, liposarcoma, major clinical study, male, monotherapy, multicenter study (topic), observational study, progression free survival, recommended drug dose, retrospective study, soft tissue sarcoma, survival time, treatment duration, treatment outcome, treatment planning",

author = "E. Palmerini and R. Sanfilippo and G. Grignani and A. Buonadonna and A. Romanini and G. Badalamenti and V. Ferraresi and B. Vincenzi and A. Comandone and A. Pizzolorusso and A. Brunello and F. Gelsomino and {De Pas}, T. and T. Ibrahim and F. Grosso and F. Zanelli and M.A. Pantaleo and L. Milesi and L. Ciuffreda and V. Ferrari and E. Marchesi and I. Quattrini and A. Righi and E. Setola and E. Carretta and P. Picci and S. Ferrari",

note = "Cited By :2 Export Date: 14 February 2022 Correspondence Address: Palmerini, E.; Chemotherapy Unit, 1 Via Pupilli, Italy; email: emanuela.marchesi@italiansarcomagroup.org Chemicals/CAS: dacarbazine, 4342-03-4; docetaxel, 114977-28-5; doxorubicin, 23214-92-8, 25316-40-9; gemcitabine, 103882-84-4; ifosfamide, 3778-73-2; pazopanib, 444731-52-6, 635702-64-6; trabectedin, 114899-77-3 Funding details: PharmaMar Funding text 1: This research was funded by PharmaMar, S.A., Madrid, Spain. References: Mastrangelo, G., Coindre, J.-M., Ducimeti{\`e}re, F., Tos, A.P.D., Fadda, E., Blay, J.-Y., Buja, A., Frasson, A., Incidence of soft tissue sarcoma and beyond (2012) Cancer, 118, pp. 5339-5348. , [CrossRef] [PubMed]; Casali, P., Abecassis, N., Aro, H., Bauer, S., Biagini, R., Bielack, S., Bonvalot, S., Brodowicz, T., Corrections to “Soft tissue and visceral sarcomas: ESMO–EURACAN Clinical Practice Guidelines for diagnosis, treatment and follow-up (2018) Ann. Oncol, 29, pp. iv268-iv269. , [CrossRef]; Samuels, B.L., Chawla, S., Patel, S., von Mehren, M., Hamm, J., Kaiser, P.E., Schuetze, S., Demetri, G.D., Clinical outcomes and safety with trabectedin therapy in patients with advanced soft tissue sarcomas following failure of prior chemotherapy: Results of a worldwide expanded access program study (2013) Ann. Oncol, 24, pp. 1703-1709. , [CrossRef] [PubMed]; Judson, I., Verweij, J., Gelderblom, H., Hartmann, J.T., Sch{\"o}ffski, P., Blay, J.-Y., Kerst, J.M., Hohenberger, P., Doxorubicin alone versus intensified doxorubicin plus ifosfamide for first-line treatment of advanced or metastatic soft-tissue sarcoma: A randomised controlled phase 3 trial (2014) Lancet Oncol, 15, pp. 415-423. , [CrossRef]; Blay, J.-Y., Sleijfer, S., Sch{\"o}ffski, P., Kawai, A., Brodowicz, T., Demetri, G.D., Maki, R.G., International expert opinion on patient-tailored management of soft tissue sarcomas (2014) Eur. J. Cancer, 50, pp. 679-689. , [CrossRef] [PubMed]; Larsen, A.K., Galmarini, C.M., D{\textquoteright}Incalci, M., Unique features of trabectedin mechanism of action (2016) Cancer Chemother. Pharmacol, 77, pp. 663-671. , [CrossRef]; D{\textquoteright}Incalci, M., Trabectedin mechanism of action: What{\textquoteright}s new? (2013) Futur. Oncol, 9, pp. 5-10. , [CrossRef] [PubMed]; D{\textquoteright}Incalci, M., Galmarini, C.M., A Review of Trabectedin (ET-743): A Unique Mechanism of Action (2010) Mol. Cancer Ther, 9, pp. 2157-2163. , [CrossRef]; Demetri, G.D., Chawla, S.P., Von Mehren, M., Ritch, P., Baker, L.H., Blay, J.Y., Hande, K.R., Schuetze, S., Efficacy and Safety of Trabectedin in Patients With Advanced or Metastatic Liposarcoma or Leiomyosarcoma After Failure of Prior Anthracyclines and Ifosfamide: Results of a Randomized Phase II Study of Two Different Schedules (2009) J. Clin. Oncol, 27, pp. 4188-4196. , [CrossRef]; Demetri, G.D., Von Mehren, M., Jones, R.L., Hensley, M.L., Schuetze, S.M., Staddon, A.P., Milhem, M., Tawbi, H., Efficacy and Safety of Trabectedin or Dacarbazine for Metastatic Liposarcoma or Leiomyosarcoma After Failure of Conventional Chemotherapy: Results of a Phase III Randomized Multicenter Clinical Trial (2016) J. Clin. Oncol, 34, pp. 786-793. , [CrossRef]; Patel, S., Von Mehren, M., Reed, D.R., Kaiser, P., Charlson, J., Ryan, C.W., Rushing, D., Seth, R., Overall survival and histology-specific subgroup analyses from a phase 3, randomized controlled study of trabectedin or dacarbazine in patients with advanced liposarcoma or leiomyosarcoma (2019) Cancer, 125, pp. 2610-2620. , [CrossRef]; Reichardt, P., Gr{\"u}nwald, V., Kasper, B., Schuler, M., Gelderblom, H., Efficacy of trabectedin in patients with some rare advanced soft tissue sarcoma subtypes other than liposarcoma and leiomyosarcoma (2015) J. Med. Drug Rev, 5, pp. 33-42; De Sanctis, R., Marrari, A., Marchetti, S., Mussi, C., Balzarini, L., Lutman, F.R., Daolio, P., Quagliuolo, V., Efficacy of trabectedin in advanced soft tissue sarcoma: Beyond lipo-and leiomyosarcoma (2015) Drug Des. Dev. Ther, 9, pp. 5785-5791. , [CrossRef]; Kawai, A., Araki, N., Sugiura, H., Ueda, T., Yonemoto, T., Takahashi, M., Morioka, H., Kunisada, T., Trabectedin monotherapy after standard chemotherapy versus best supportive care in patients with advanced, translocation-related sarcoma: A randomised, open-label, phase 2 study (2015) Lancet Oncol, 16, pp. 406-416. , [CrossRef]; Blay, J.-Y., Italiano, A., Ray-Coquard, I., Le Cesne, A., Duffaud, F., Rios, M., Collard, O., Isambert, N., Long-term outcome and effect of maintenance therapy in patients with advanced sarcoma treated with trabectedin: An analysis of 181 patients of the French ATU compassionate use program (2013) BMC Cancer, 13, p. 64. , [CrossRef]; Le Cesne, A., Ray-Coquard, I., Duffaud, F., Chevreau, C., Penel, N., Nguyen, B.B., Piperno-Neumann, S., Chaigneau, L., Trabectedin in patients with advanced soft tissue sarcoma: A retrospective national analysis of the French Sarcoma Group (2015) Eur. J. Cancer, 51, pp. 742-750. , [CrossRef] [PubMed]; Buonadonna, A., Benson, C., Casanova, J., Kasper, B., Pousa, A.L., Mazzeo, F., Brodowicz, T., Penel, N., A noninterventional, multicenter, prospective phase IV study of trabectedin in patients with advanced soft tissue sarcoma (2017) Anti-Cancer Drugs, 28, pp. 1157-1165. , [CrossRef]; Eisenhauer, E.A., Therasse, P., Bogaerts, J., Schwartz, L.H., Sargent, D., Ford, R., Dancey, J., Mooney, M., New response evaluation criteria in solid tumours: Revised RECIST guideline (version 1.1) (2009) Eur. J. Cancer, 45, pp. 228-247. , [CrossRef] [PubMed]; Sanfilippo, R., Dileo, P., Blay, J.-Y., Constantinidou, A., Le Cesne, A., Benson, C., Vizzini, L., Tos, A.P.D., Trabectedin in advanced synovial sarcomas (2015) Anti-Cancer Drugs, 26, pp. 678-681. , [CrossRef]; Tos, A.P.D., Liposarcomas: Diagnostic pitfalls and new insights (2013) Histol. Histopathol, 64, pp. 38-52. , [CrossRef]; Van Glabbeke, M., Van Oosterom, A., Oosterhuis, J., Mouridsen, H., Crowther, D., Somers, R., Verweij, J., Tursz, T., Prognostic Factors for the Outcome of Chemotherapy in Advanced Soft Tissue Sarcoma: An Analysis of 2,185 Patients Treated With Anthracycline-Containing First-Line Regimens—A European Organization for Research and Treatment of Cancer Soft Tissue and Bone Sarcoma Group Study (1999) J. Clin. Oncol, 17, p. 150. , [CrossRef]; Cesne, A.L., Judson, I., Maki, R., Grosso, F., Schuetze, S., Mehren, M.V., Chawla, S.P., Tanovic, A., Trabectedin is a feasible treatment for soft tissue sarcoma patients regardless of patient age: A retrospective pooled analysis of five phase II trials (2013) Br. J. Cancer, 109, pp. 1717-1724. , [CrossRef] [PubMed]; Bui-Nguyen, B., Butrynski, J.E., Penel, N., Blay, J.Y., Isambert, N., Milhem, M., Kerst, J.M., Marr{\'e}aud, S., A phase IIb multicentre study comparing the efficacy of trabectedin to doxorubicin in patients with advanced or metastatic untreated soft tissue sarcoma: The TRUSTS trial (2015) Eur. J. Cancer, 51, pp. 1312-1320. , [CrossRef]; Le Cesne, A., Yovine, A., Blay, J.-Y., Delaloge, S., Maki, R.G., Misset, J.-L., Frontelo, P., Demetri, G.D., A retrospective pooled analysis of trabectedin safety in 1,132 patients with solid tumors treated in phase II clinical trials (2011) Investig. New Drugs, 30, pp. 1193-1202. , [CrossRef]; Cordeiro, M., Casanova, J.M., Rodrigues, J., Freitas, J., Fonseca, R., De Oliveira, R.C., Tavares, P.F., Long-Term Response after 94 Cycles of Trabectedin in a Patient with Metastatic Leiomyosarcoma of the Lower Extremity (2020) Case Rep. Oncol, 13, pp. 113-119. , [CrossRef] [PubMed]; Le Cesne, A., Blay, J.-Y., Domont, J., Tresch-Bruneel, E., Chevreau, C., Bertucci, F., Delcambre, C., Bay, J.-O., Interruption versus continuation of trabectedin in patients with soft-tissue sarcoma (T-DIS): A randomised phase 2 trial (2015) Lancet Oncol, 16, pp. 312-319. , [CrossRef]",

year = "2021",

doi = "10.3390/cancers13051053",

language = "English",

volume = "13",

pages = "1--15",

journal = "Cancers",

issn = "2072-6694",

publisher = "MDPI AG",

number = "5",

}

TY - JOUR

T1 - Trabectedin for patients with advanced soft tissue sarcoma: A non-interventional, retrospective, multicenter study of the italian sarcoma group

AU - Palmerini, E.

AU - Sanfilippo, R.

AU - Grignani, G.

AU - Buonadonna, A.

AU - Romanini, A.

AU - Badalamenti, G.

AU - Ferraresi, V.

AU - Vincenzi, B.

AU - Comandone, A.

AU - Pizzolorusso, A.

AU - Brunello, A.

AU - Gelsomino, F.

AU - De Pas, T.

AU - Ibrahim, T.

AU - Grosso, F.

AU - Zanelli, F.

AU - Pantaleo, M.A.

AU - Milesi, L.

AU - Ciuffreda, L.

AU - Ferrari, V.

AU - Marchesi, E.

AU - Quattrini, I.

AU - Righi, A.

AU - Setola, E.

AU - Carretta, E.

AU - Picci, P.

AU - Ferrari, S.

N1 - Cited By :2 Export Date: 14 February 2022 Correspondence Address: Palmerini, E.; Chemotherapy Unit, 1 Via Pupilli, Italy; email: emanuela.marchesi@italiansarcomagroup.org Chemicals/CAS: dacarbazine, 4342-03-4; docetaxel, 114977-28-5; doxorubicin, 23214-92-8, 25316-40-9; gemcitabine, 103882-84-4; ifosfamide, 3778-73-2; pazopanib, 444731-52-6, 635702-64-6; trabectedin, 114899-77-3 Funding details: PharmaMar Funding text 1: This research was funded by PharmaMar, S.A., Madrid, Spain. References: Mastrangelo, G., Coindre, J.-M., Ducimetière, F., Tos, A.P.D., Fadda, E., Blay, J.-Y., Buja, A., Frasson, A., Incidence of soft tissue sarcoma and beyond (2012) Cancer, 118, pp. 5339-5348. , [CrossRef] [PubMed]; Casali, P., Abecassis, N., Aro, H., Bauer, S., Biagini, R., Bielack, S., Bonvalot, S., Brodowicz, T., Corrections to “Soft tissue and visceral sarcomas: ESMO–EURACAN Clinical Practice Guidelines for diagnosis, treatment and follow-up (2018) Ann. Oncol, 29, pp. iv268-iv269. , [CrossRef]; Samuels, B.L., Chawla, S., Patel, S., von Mehren, M., Hamm, J., Kaiser, P.E., Schuetze, S., Demetri, G.D., Clinical outcomes and safety with trabectedin therapy in patients with advanced soft tissue sarcomas following failure of prior chemotherapy: Results of a worldwide expanded access program study (2013) Ann. Oncol, 24, pp. 1703-1709. , [CrossRef] [PubMed]; Judson, I., Verweij, J., Gelderblom, H., Hartmann, J.T., Schöffski, P., Blay, J.-Y., Kerst, J.M., Hohenberger, P., Doxorubicin alone versus intensified doxorubicin plus ifosfamide for first-line treatment of advanced or metastatic soft-tissue sarcoma: A randomised controlled phase 3 trial (2014) Lancet Oncol, 15, pp. 415-423. , [CrossRef]; Blay, J.-Y., Sleijfer, S., Schöffski, P., Kawai, A., Brodowicz, T., Demetri, G.D., Maki, R.G., International expert opinion on patient-tailored management of soft tissue sarcomas (2014) Eur. J. Cancer, 50, pp. 679-689. , [CrossRef] [PubMed]; Larsen, A.K., Galmarini, C.M., D’Incalci, M., Unique features of trabectedin mechanism of action (2016) Cancer Chemother. Pharmacol, 77, pp. 663-671. , [CrossRef]; D’Incalci, M., Trabectedin mechanism of action: What’s new? (2013) Futur. Oncol, 9, pp. 5-10. , [CrossRef] [PubMed]; D’Incalci, M., Galmarini, C.M., A Review of Trabectedin (ET-743): A Unique Mechanism of Action (2010) Mol. Cancer Ther, 9, pp. 2157-2163. , [CrossRef]; Demetri, G.D., Chawla, S.P., Von Mehren, M., Ritch, P., Baker, L.H., Blay, J.Y., Hande, K.R., Schuetze, S., Efficacy and Safety of Trabectedin in Patients With Advanced or Metastatic Liposarcoma or Leiomyosarcoma After Failure of Prior Anthracyclines and Ifosfamide: Results of a Randomized Phase II Study of Two Different Schedules (2009) J. Clin. Oncol, 27, pp. 4188-4196. , [CrossRef]; Demetri, G.D., Von Mehren, M., Jones, R.L., Hensley, M.L., Schuetze, S.M., Staddon, A.P., Milhem, M., Tawbi, H., Efficacy and Safety of Trabectedin or Dacarbazine for Metastatic Liposarcoma or Leiomyosarcoma After Failure of Conventional Chemotherapy: Results of a Phase III Randomized Multicenter Clinical Trial (2016) J. Clin. Oncol, 34, pp. 786-793. , [CrossRef]; Patel, S., Von Mehren, M., Reed, D.R., Kaiser, P., Charlson, J., Ryan, C.W., Rushing, D., Seth, R., Overall survival and histology-specific subgroup analyses from a phase 3, randomized controlled study of trabectedin or dacarbazine in patients with advanced liposarcoma or leiomyosarcoma (2019) Cancer, 125, pp. 2610-2620. , [CrossRef]; Reichardt, P., Grünwald, V., Kasper, B., Schuler, M., Gelderblom, H., Efficacy of trabectedin in patients with some rare advanced soft tissue sarcoma subtypes other than liposarcoma and leiomyosarcoma (2015) J. Med. Drug Rev, 5, pp. 33-42; De Sanctis, R., Marrari, A., Marchetti, S., Mussi, C., Balzarini, L., Lutman, F.R., Daolio, P., Quagliuolo, V., Efficacy of trabectedin in advanced soft tissue sarcoma: Beyond lipo-and leiomyosarcoma (2015) Drug Des. Dev. Ther, 9, pp. 5785-5791. , [CrossRef]; Kawai, A., Araki, N., Sugiura, H., Ueda, T., Yonemoto, T., Takahashi, M., Morioka, H., Kunisada, T., Trabectedin monotherapy after standard chemotherapy versus best supportive care in patients with advanced, translocation-related sarcoma: A randomised, open-label, phase 2 study (2015) Lancet Oncol, 16, pp. 406-416. , [CrossRef]; Blay, J.-Y., Italiano, A., Ray-Coquard, I., Le Cesne, A., Duffaud, F., Rios, M., Collard, O., Isambert, N., Long-term outcome and effect of maintenance therapy in patients with advanced sarcoma treated with trabectedin: An analysis of 181 patients of the French ATU compassionate use program (2013) BMC Cancer, 13, p. 64. , [CrossRef]; Le Cesne, A., Ray-Coquard, I., Duffaud, F., Chevreau, C., Penel, N., Nguyen, B.B., Piperno-Neumann, S., Chaigneau, L., Trabectedin in patients with advanced soft tissue sarcoma: A retrospective national analysis of the French Sarcoma Group (2015) Eur. J. Cancer, 51, pp. 742-750. , [CrossRef] [PubMed]; Buonadonna, A., Benson, C., Casanova, J., Kasper, B., Pousa, A.L., Mazzeo, F., Brodowicz, T., Penel, N., A noninterventional, multicenter, prospective phase IV study of trabectedin in patients with advanced soft tissue sarcoma (2017) Anti-Cancer Drugs, 28, pp. 1157-1165. , [CrossRef]; Eisenhauer, E.A., Therasse, P., Bogaerts, J., Schwartz, L.H., Sargent, D., Ford, R., Dancey, J., Mooney, M., New response evaluation criteria in solid tumours: Revised RECIST guideline (version 1.1) (2009) Eur. J. Cancer, 45, pp. 228-247. , [CrossRef] [PubMed]; Sanfilippo, R., Dileo, P., Blay, J.-Y., Constantinidou, A., Le Cesne, A., Benson, C., Vizzini, L., Tos, A.P.D., Trabectedin in advanced synovial sarcomas (2015) Anti-Cancer Drugs, 26, pp. 678-681. , [CrossRef]; Tos, A.P.D., Liposarcomas: Diagnostic pitfalls and new insights (2013) Histol. Histopathol, 64, pp. 38-52. , [CrossRef]; Van Glabbeke, M., Van Oosterom, A., Oosterhuis, J., Mouridsen, H., Crowther, D., Somers, R., Verweij, J., Tursz, T., Prognostic Factors for the Outcome of Chemotherapy in Advanced Soft Tissue Sarcoma: An Analysis of 2,185 Patients Treated With Anthracycline-Containing First-Line Regimens—A European Organization for Research and Treatment of Cancer Soft Tissue and Bone Sarcoma Group Study (1999) J. Clin. Oncol, 17, p. 150. , [CrossRef]; Cesne, A.L., Judson, I., Maki, R., Grosso, F., Schuetze, S., Mehren, M.V., Chawla, S.P., Tanovic, A., Trabectedin is a feasible treatment for soft tissue sarcoma patients regardless of patient age: A retrospective pooled analysis of five phase II trials (2013) Br. J. Cancer, 109, pp. 1717-1724. , [CrossRef] [PubMed]; Bui-Nguyen, B., Butrynski, J.E., Penel, N., Blay, J.Y., Isambert, N., Milhem, M., Kerst, J.M., Marréaud, S., A phase IIb multicentre study comparing the efficacy of trabectedin to doxorubicin in patients with advanced or metastatic untreated soft tissue sarcoma: The TRUSTS trial (2015) Eur. J. Cancer, 51, pp. 1312-1320. , [CrossRef]; Le Cesne, A., Yovine, A., Blay, J.-Y., Delaloge, S., Maki, R.G., Misset, J.-L., Frontelo, P., Demetri, G.D., A retrospective pooled analysis of trabectedin safety in 1,132 patients with solid tumors treated in phase II clinical trials (2011) Investig. New Drugs, 30, pp. 1193-1202. , [CrossRef]; Cordeiro, M., Casanova, J.M., Rodrigues, J., Freitas, J., Fonseca, R., De Oliveira, R.C., Tavares, P.F., Long-Term Response after 94 Cycles of Trabectedin in a Patient with Metastatic Leiomyosarcoma of the Lower Extremity (2020) Case Rep. Oncol, 13, pp. 113-119. , [CrossRef] [PubMed]; Le Cesne, A., Blay, J.-Y., Domont, J., Tresch-Bruneel, E., Chevreau, C., Bertucci, F., Delcambre, C., Bay, J.-O., Interruption versus continuation of trabectedin in patients with soft-tissue sarcoma (T-DIS): A randomised phase 2 trial (2015) Lancet Oncol, 16, pp. 312-319. , [CrossRef]

PY - 2021

Y1 - 2021

N2 - The Italian Sarcoma Group performed this retrospective analysis of patients with advanced soft tissue sarcoma, pretreated with ≥1 anthracycline-based treatment, and treated with trabectedin every three weeks. Primary endpoint was to describe real-life use of trabectedin across Italy. Secondary endpoints included objective response rate (ORR) and safety. Overall, 512 patients from 20 Italian centers were evaluated. Leiomyosarcoma (37.7%)/liposarcoma (30.3%) were the most prevalent histological types (abbreviated as L-sarcoma). Patients received a median of four trabectedin cycles (range: 1–40), mostly as a second-line treatment (~60% of patients). The ORR was 13.7% superior (p < 0.0001) in patients with L-sarcoma compared with patients with non-L-sarcoma (16.6% vs. 9.0%). Median progression-free survival (PFS) was 5.1 months, whereas median overall survival (OS) was 21.6 months. Significantly better PFS and OS were observed in patients with L-sarcoma, those with objective responses and/or disease stabilization, treated in an early line and treated with reduced dose. Bone marrow toxicity (61.4%) and transaminase increases (21.9%) were the most common grade 3/4 adverse events. The results of this real-life study suggest that trabectedin is an active treatment, which is mostly given as a second-line treatment to patients with a good performance status and high-grade, metastatic L-sarcoma (clinical trial information: NCT02793050). © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

AB - The Italian Sarcoma Group performed this retrospective analysis of patients with advanced soft tissue sarcoma, pretreated with ≥1 anthracycline-based treatment, and treated with trabectedin every three weeks. Primary endpoint was to describe real-life use of trabectedin across Italy. Secondary endpoints included objective response rate (ORR) and safety. Overall, 512 patients from 20 Italian centers were evaluated. Leiomyosarcoma (37.7%)/liposarcoma (30.3%) were the most prevalent histological types (abbreviated as L-sarcoma). Patients received a median of four trabectedin cycles (range: 1–40), mostly as a second-line treatment (~60% of patients). The ORR was 13.7% superior (p < 0.0001) in patients with L-sarcoma compared with patients with non-L-sarcoma (16.6% vs. 9.0%). Median progression-free survival (PFS) was 5.1 months, whereas median overall survival (OS) was 21.6 months. Significantly better PFS and OS were observed in patients with L-sarcoma, those with objective responses and/or disease stabilization, treated in an early line and treated with reduced dose. Bone marrow toxicity (61.4%) and transaminase increases (21.9%) were the most common grade 3/4 adverse events. The results of this real-life study suggest that trabectedin is an active treatment, which is mostly given as a second-line treatment to patients with a good performance status and high-grade, metastatic L-sarcoma (clinical trial information: NCT02793050). © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

KW - Observational

KW - Real-life

KW - Soft tissue sarcoma

KW - Trabectedin

KW - dacarbazine

KW - docetaxel

KW - doxorubicin

KW - gemcitabine

KW - ifosfamide

KW - pazopanib

KW - trabectedin

KW - adult

KW - advanced cancer

KW - aged

KW - Article

KW - bone marrow toxicity

KW - cancer combination chemotherapy

KW - cancer survival

KW - clinical effectiveness

KW - controlled study

KW - dose response

KW - drug dose reduction

KW - drug efficacy

KW - drug safety

KW - female

KW - follow up

KW - human

KW - hypertransaminasemia

KW - leiomyosarcoma

KW - liposarcoma

KW - major clinical study

KW - male

KW - monotherapy

KW - multicenter study (topic)

KW - observational study

KW - progression free survival

KW - recommended drug dose

KW - retrospective study

KW - soft tissue sarcoma

KW - survival time

KW - treatment duration

KW - treatment outcome

KW - treatment planning

U2 - 10.3390/cancers13051053

DO - 10.3390/cancers13051053

M3 - Article

SN - 2072-6694

VL - 13

SP - 1

EP - 15

JO - Cancers

JF - Cancers

IS - 5

ER -

Trabectedin for patients with advanced soft tissue sarcoma: A non-interventional, retrospective, multicenter study of the italian sarcoma group

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