Background: In the phase III IMpassion130 trial, combining atezolizumab with first-line nanoparticle albumin-boundpaclitaxel for advanced triple-negative breast cancer (aTNBC) showed a statistically significant progression-free survival (PFS) benefit in the intention-to-treat (ITT) and programmed death-ligand 1 (PD-L1)-positive populations, and a clinically meaningful overall survival (OS) effect in PD-L1-positive aTNBC. The phase III KEYNOTE-355 trial adding pembrolizumab to chemotherapy for aTNBC showed similar PFS effects. IMpassion131 evaluated first-line atezolizumabepaclitaxel in aTNBC. Patients and methods: Eligible patients [no prior systemic therapy or 12 months since (neo)adjuvant chemotherapy] were randomised 2:1 to atezolizumab 840 mg or placebo (days 1, 15), both with paclitaxel 90 mg/m 2 (days 1, 8, 15), every 28 days until disease progression or unacceptable toxicity. Stratification factors were tumour PD-L1 status, prior taxane, liver metastases and geographical region. The primary endpoint was investigator-assessed PFS, tested hierarchically first in the PD-L1-positive [immune cell expression 1%, VENTANA PD-L1 (SP142) assay] population, and then in the ITT population. OS was a secondary endpoint. Results: Of 651 randomised patients, 45% had PD-L1-positive aTNBC. At the primary PFS analysis, adding atezolizumab to paclitaxel did not improve investigator-assessed PFS in the PD-L1-positive population [hazard ratio (HR) 0.82, 95% confidence interval (CI) 0.60-1.12; P ¼ 0.20; median PFS 6.0 months with atezolizumabepaclitaxel versus 5.7 months with placeboepaclitaxel]. In the PD-L1-positive population, atezolizumabepaclitaxel was associated with more favourable unconfirmed best overall response rate (63% versus 55% with placeboepaclitaxel) and median duration of response (7.2 versus 5.5 months, respectively). Final OS results showed no difference between arms (HR 1.11, 95% CI 0.76-1.64; median 22.1 months with atezolizumabepaclitaxel versus 28.3 months with placeboe paclitaxel in the PD-L1-positive population). Results in the ITT population were consistent with the PD-L1-positive population. The safety profile was consistent with known effects of each study drug. Conclusion: Combining atezolizumab with paclitaxel did not improve PFS or OS versus paclitaxel alone. ClinicalTrials.gov: NCT03125902.
Based on our experience and a review of the literature, we concluded that the natural history and the prognosis of the Ewing's family of tumors in adults are not different from that found in children. A greater tumor bulk in adults may explain the less favorable prognosis previously reported by others. Outcome could be adequately monitored by a simple prognostic index.
BackgroundDeficiency in dihydropyrimidine dehydrogenase (DPD) enzyme is the main cause of severe and lethal fluoropyrimidine-related toxicity. Various approaches have been developed for DPD-deficiency screening, including DPYD genotyping and phenotyping. The goal of this prospective observational study was to perform exhaustive exome DPYD sequencing and to examine relationships between DPYD variants and toxicity in advanced breast cancer patients receiving capecitabine.MethodsTwo-hundred forty-three patients were analysed (88.5% capecitabine monotherapy). Grade 3 and grade 4 capecitabine-related digestive and/or neurologic and/or hemato-toxicities were observed in 10.3% and 2.1% of patients, respectively. DPYD exome, along with flanking intronic regions 3’UTR and 5’UTR, were sequenced on MiSeq Illumina. DPD phenotype was assessed by pre-treatment plasma uracil (U) and dihydrouracil (UH2) measurement.ResultsAmong the 48 SNPs identified, 19 were located in coding regions, including 3 novel variations, each observed in a single patient (among which, F100L and A26T, both pathogenic in silico). Combined analysis of deleterious variants *2A, I560S (*13) and D949V showed significant association with grade 3–4 toxicity (sensitivity 16.7%, positive predictive value (PPV) 71.4%, relative risk (RR) 6.7, p<0.001) but not with grade 4 toxicity. Considering additional deleterious coding variants D342G, S492L, R592W and F100L increased the sensitivity to 26.7% for grade 3–4 toxicity (PPV 72.7%, RR 7.6, p<0.001), and was significantly associated with grade 4 toxicity (sensitivity 60%, PPV 27.3%, RR 31.4, p = 0.001), suggesting the clinical relevance of extended targeted DPYD genotyping. As compared to extended genotype, combining genotyping (7 variants) and phenotyping (U>16 ng/ml) did not substantially increase the sensitivity, while impairing PPV and RR.ConclusionsExploring an extended set of deleterious DPYD variants improves the performance of DPYD genotyping for predicting both grade 3–4 and grade 4 toxicities (digestive and/or neurologic and/or hematotoxicities) related to capecitabine, as compared to conventional genotyping restricted to consensual variants *2A, *13 and D949V.
See Appendix for individual names.Background: Pertuzumab combined with trastuzumab and docetaxel is the standard first-line therapy for HER2-positive metastatic breast cancer, based on results from the phase III CLEOPATRA trial. PERUSE was designed to assess the safety and efficacy of investigator-selected taxane with pertuzumab and trastuzumab in this setting. Patients and methods:In the ongoing multicentre single-arm phase IIIb PERUSE study, patients with inoperable HER2-positive advanced breast cancer (locally recurrent/metastatic) (LR/MBC) and no prior systemic therapy for LR/MBC (except endocrine therapy) received docetaxel, paclitaxel or nab-paclitaxel with trastuzumab [8 mg/kg loading dose, then 6 mg/kg every 3 weeks (q3w)] and pertuzumab (840 mg loading dose, then 420 mg q3w) until disease progression or unacceptable toxicity. The primary end point was safety. Secondary end points included overall response rate (ORR) and progression-free survival (PFS). Results:Overall, 1436 patients received at least one treatment dose (initially docetaxel in 775 patients, paclitaxel in 589, nabpaclitaxel in 65; 7 discontinued before starting taxane). Median age was 54 years; 29% had received prior trastuzumab. Median treatment duration was 16 months for pertuzumab and trastuzumab and 4 months for taxane. Compared with docetaxel-containing therapy, paclitaxel-containing therapy was associated with more neuropathy (all-grade peripheral neuropathy 31% versus 16%) but less febrile neutropenia (1% versus 11%) and mucositis (14% versus 25%). At this preliminary analysis (52 months' median follow-up), median PFS was 20.6 [95% confidence interval (CI) 18.9-22.7] months overall (19.6, 23.0 and 18.1 months with docetaxel, paclitaxel and nab-paclitaxel, respectively). ORR was 80% (95% CI 78%-82%) overall (docetaxel 79%, paclitaxel 83%, nab-paclitaxel 77%).Conclusions: Preliminary findings from PERUSE suggest that the safety and efficacy of first-line pertuzumab, trastuzumab and taxane for HER2-positive LR/MBC are consistent with results from CLEOPATRA. Paclitaxel appears to be a valid alternative taxane backbone to docetaxel, offering similar PFS and ORR with a predictable safety profile.ClinicalTrials.gov: NCT01572038.
Background State-of-the art therapy for recurrent ovarian cancer (ROC) suitable for platinum-based re-treatment includes bevacizumab-containing combinations (eg, carboplatin/paclitaxel, carboplatin/gemcitabine) or the most active non-bevacizumab regimen: carboplatin/pegylated liposomal doxorubicin (PLD). This head-to-head trial compared a standard bevacizumab-containing regimen versus carboplatin/PLD combined with bevacizumab. Methods In this multicentre, open-label, randomised, phase 3 trial, eligible patients had histologically confirmed epithelial ovarian, primary peritoneal, or fallopian tube carcinoma with first disease recurrence >6 months after first-line platinum-based chemotherapy, and were aged ≥18 years with Eastern Cooperative Oncology Group performance status 0-2. Patients were stratified by platinum-free interval, residual tumour, prior anti-angiogenic therapy, and study group language, and centrally randomised 1:1 using randomly permuted blocks of size two, four, or six to six intravenous cycles of carboplatin (AUC 4, day 1) plus gemcitabine (1000 mg/m 2 , days 1 and 8) every 3 weeks or six cycles of carboplatin (AUC 5, day 1) plus PLD (30 mg/m 2 , day 1) every 4 weeks, both given with bevacizumab (15 mg/kg every 3 weeks or 10 mg/kg every 2 weeks) until disease progression or toxicity. The primary endpoint was investigator-assessed progression-free survival (PFS). Efficacy data were analysed in the intention-to-treat population (all randomised patients). Safety was analysed in all patients who received at least one dose of study drug. This completed study is registered with ClinicalTrials.gov number NCT01837251.
Background: ESR1 mutations are known drivers of resistance to first line aromatase inhibitors (AI)-based therapy in hormone receptor-positive (HR+) HER2- metastatic breast cancer (mBC) patients (pts), but their clinical actionability remains unknown. The randomized phase 3 PADA-1 trial aimed at evaluating the clinical benefit associated with a switch to fulvestrant-palbociclib upon the detection of a rising ESR1 mutation in blood (bESR1mut) in HR+ HER2- mBC pts treated by first line AI-palbociclib.. Methods: PADA-1 (NCT03079011), a multicenter, randomized, open-label, phase 3 trial, enrolled HR+ HER2- mBC pts with no prior therapy for mBC in the absence of AI-resistance. In the first step, pts were treated with AI-palbociclib as first line therapy and underwent centralized bESR1mut screening every two months. Rising bESR1mut+ pts with no clinical/imaging concomitant disease progression were included in the second step, in which they were randomized between continuing the same therapy (standard arm) or switching to fulvestrant-palbociclib (experimental arm). The third step consisted in an optional crossover to fulvestrant-palbociclib following tumor progression for patients randomized in the standard arm. PADA-1 co-primary endpoints were PFS in the second step, and global safety.. Results: Between 03/2017 and 01/2019, 1,017 pts have been included in the first step. After a median time of 15.6 months in the first step, 172 pts with rising bESR1mut and no synchronous disease progression were randomized to continuing AI-palbociclib (N=84 pts) or to fulvestrant-palbociclib (N=88 pts). Among the 172 randomized pts, N=136 PFS events have been observed in the second step after a median follow-up of 26 months. The median PFS was 5.7 months (95%CI[3.9;7.5]) in the AI-palbociclib arm and 11.9 months (95%CI[9.1;13.6]) in the fulvestrant-palbociclib arm (HR=0.63; 95%CI|0.45-0.88], p=0.007). Among the 70 patients who subsequently developed a disease progression in the AI-palbociclib arm, 47 were included in the optional crossover cohort. With a median follow-up of 14.7 months and 37 events, the median second-PFS observed in the cross-over cohort was 3.5 months (95%CI [2.7-5.1]). Treatment safety and validation of the ESR1mut assay are reported separately (poster session #1). Conclusion: PADA-1 reached its primary objective. This first-of-its-kind liquid biopsy-based trial demonstrates that targeting bESR1mut-associated resistance through a change in the endocrine partner of palbociclib is feasible and allows a doubling in the subsequent median progression free survival.. Funding: Pfizer Citation Format: François-Clément Bidard, Anne-Claire Hardy-Bessard, Thomas Bachelot, Jean-Yves Pierga, Jean-Luc Canon, Florian Clatot, Fabrice Andre, Thibault De La Motte Rouge, Barbara Pistilli, Florence Dalenc, Nadine Dohollou, Olivier Arsene, Thierry Petit, Cécilia Riedl, François Morvan, Adina Marti, Emma Lachaier, Mihaela Achille, Michel Gozy, Anne Escande, Dominique Mille, Fanny Trouboul, Laurent Arnould, Ivan Bieche, Anne Pradines, Jerome Lemonnier, Frederique Berger, Suzette Delaloge. Fulvestrant-palbociclib vs continuing aromatase inhibitor-palbociclib upon detection of circulating ESR1 mutation in HR+ HER2- metastatic breast cancer patients: Results of PADA-1, a UCBG-GINECO randomized phase 3 trial [abstract]. In: Proceedings of the 2021 San Antonio Breast Cancer Symposium; 2021 Dec 7-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2022;82(4 Suppl):Abstract nr GS3-05.
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