Introduction: The 21-gene Breast Recurrence Score® (RS) in the randomized NSABP B-20, SWOG S8814, and TAILORx studies predicted chemotherapy (CT) benefit for pts with N0 and N+ disease. Endocrine therapy was not inferior to chemoendocrine therapy in 6,711 randomized TAILORx pts with RS 11-25 and N0 disease. We characterized BCSM for the TAILORx-defined RS groups (0-10, 11-15, 16-20, 21-25, and 26-100) in the large population-based SEER study of pts treated based on RS results. Methods: RS results were provided electronically to SEER registries per their linkage methods (Petkov npj Breast Cancer 2016). Eligible pts were diagnosed Jan 2004 - Dec 2014 with N0 and N+(N1mic, 1-3 positive nodes[N1]), HR+, HER2-negative BC, and had no prior malignancy or multiple tumors, with follow-up information through Dec 2015. BCSM estimates by reported CT use yes vs. no/unknown were computed, and must be interpreted cautiously given lack of randomization. Results: There were 80,605 pts with RS results; 70,087 with N0 disease, 4,336 with N1mic, and 6,182 with N1. Median follow-up was 49 months, with 20,151 pts followed >76 months. 1,020 pts had experienced breast cancer death. There was a significant positive association between higher RS results and increased BCSM (p<0.001) without and with adjustment for nodal status, age, tumor size, and grade. Reported CT use increased with increasing RS result (Table). 9-y BCSM was <4% without CT for pts with RS 0-25 and N0 disease and for pts with RS 0-20 and N1 disease. For RS 26-100, 9-y BCSM was lower with CT use than without (Table). Similar results were seen in the 4,336 pts with N1mic disease. Pts treated with CT for every RS group, as expected, tended to have higher risk features (age, tumor size and grade), and multivariable models and adjustment by propensity scores will be presented to allow for more definitive conclusions. Table N0; CT Use No (N=55726)N0; CT Use Yes (N=14361)N1; CT Use No (N=3810)N1; CT Use Yes (N=2372)RS 0-10n139823891005283 9-y BCSM1.4% (1.0%, 2.1%)2.1% (0.7%, 5.9%)2.2% (1.0%, 4.8%)1.4% (0.4%, 4.6%)RS 11-15n1675810661193453 9-y BCSM2.0% (1.5%, 2.6%)2.7% (1.3%, 5.4%)1.5% (0.8%, 3.1%)4.4% (1.4%, 13.6%)RS 16-20n144842719992587 9-y BCSM2.2% (1.7%, 2.8%)1.9% (1.1%, 3.0%)3.8% (1.6%, 8.5%)4.2% (1.6%, 10.9%)RS 21-25n67043544397431 9-y BCSM3.9% (3.0%, 5.0%)3.4% (2.6%, 4.6%)7.1% (4.1%, 12.1%)5.7% (2.9%, 11.2%)RS 26-100n37986643223618 9-y BCSM8.8% (7.4%, 10.4%)7.0% (5.9%, 8.4%)15.2% (8.7%, 25.9%)10.8% (7.2%, 16.2%) Conclusion: In both N0 and N+ disease (up to 3 positive nodes), low RS results identify more than 70% of BC patients with excellent long-term outcomes and no apparent CT benefit, and high RS results (26-100) identifies an important minority of patients where CT reduces BCSM. Real-world evidence from SEER reconfirms that the 21-gene assay is prognostic and strongly suggests it is predictive of CT benefit, irrespective of nodal status. Citation Format: Hortobagyi GN, Shak S, Sledge, Jr. GW, Winer EP, Albain KS, Mamounas EP, Jakubowski DM, Petkov VI, Wolmark N. Breast cancer-specific mortality (BCSM) in patients (pts) with node-negative (N0) and node-positive (N+) breast cancer (BC) guided by the 21-gene assay: A SEER-genomic population-based study [abstract]. In: Proceedings of the 2018 San Antonio Breast Cancer Symposium; 2018 Dec 4-8; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2019;79(4 Suppl):Abstract nr P3-11-02.
Background: Adjuvant trastuzumab (H) reduces cancer recurrence and improves survival in patients (pts) with HER2-amplified or overexpressing (IHC 3+ staining intensity) IBC. Two of the landmark trials that demonstrated the efficacy of H-based eligibility on HER2 testing performed at local site laboratories were found to contain a cohort of pts without amplification or IHC overexpression on tissue submitted for central testing. These HER2-low cohorts appeared to benefit from the addition of H, and efforts at external HER2 testing validation and laboratory explorations did not negate these findings. NSABP B-47 was performed to determine if these findings would be confirmed in a large prospective randomized trial. The primary aim was to determine whether the addition of H to chemotherapy (CT) regimens of AC→WP or TC (choice per investigator discretion) would improve invasive disease-free survival (IDFS). Methods: From 2/8/2011 to 2/10/2015, 3270 women were enrolled with 1630 pts randomly assigned to Arm 1 [TC: docetaxel 75mg/m2, cyclophosphamide 600 mg/m2 every 3 weeks x 6 cycles; or AC→WP: doxorubicin 60 mg/m2 and cyclophosphamide 600 mg/m2 every 2 or 3 weeks x 4 cycles followed by paclitaxel 80 mg/m2 every week x 12], and 1640 pts to Arm 2 [same CT regimens + 12 months of H]. Pts were stratified by IHC score (1+ vs 2+), number of positive nodes (0-3, 4-9, ≥10), hormone receptor status (ER or PgR positive vs both negative), and CT (TC vs AC→WP). Overall 58.5% were ≥50 years, 57% had tumors with IHC 1+, 17.3% were ER- and PgR-, 19.9% were node negative, and 27.4% had ≥4 positive nodes. TC was the intended CT regimen for 44.2%. Results: As of 7/31/2017, the median follow-up time was 46.1 months. We observed 264 IDFS events, which triggered the definitive analysis for the primary endpoint. The addition of H to CT showed a 5-year IDFS of 89.6% compared to 89.2% for CT alone (HR 0.98; 95%CI 0.77-1.26; P=0.90). The findings did not differ by level of HER2 IHC expression, level of lymph node involvement, or hormone receptor status. 5-year point estimates for RFI were 92.0% for CT+H compared to 92.2% for CT alone (HR 0.995; 95%CI 0.75-1.32; P=0.97). 5-year estimates for DRFI were 92.7% for CT+H and 93.5% for CT alone (HR 1.10; 95%CI 0.81-1.49; P=0.55). The addition of H did not change OS significantly with 5-year point estimates of 94.8% in CT+H vs 96.2% in CT alone (HR 1.33; 95%CI 0.91-1.94; P=0.14). 4.3% of women in the CT arm experienced Grade 4 or 5 toxicities compared to 5.0% in CT+H. Conclusion: The addition of H to CT did not demonstrate a reduction in IDFS, RFI, or DRFI in women with non-overexpressing but IHC measurable HER2 IBC. This prospective study did not confirm the retrospective findings in NSABP B-31 or N9831. The threshold of HER2 expression or genetic amplification for H benefit remains unchanged. Support: NCI U10-180868, -180822, -44066, UG1-189867, and Genentech, Inc. Citation Format: Fehrenbacher L, Cecchini RS, Geyer CE, Rastogi P, Costantino JP, Atkins JN, Polikoff J, Boileau J-F, Provencher L, Stokoe C, Moore TD, Robidoux A, Borges V, Albain KS, Swain SM, Paik S, Mamounas EP, Wolmark N. NSABP B-47 (NRG oncology): Phase III randomized trial comparing adjuvant chemotherapy with adriamycin (A) and cyclophosphamide (C) → weekly paclitaxel (WP), or docetaxel (T) and C with or without a year of trastuzumab (H) in women with node-positive or high-risk node-negative invasive breast cancer (IBC) expressing HER2 staining intensity of IHC 1+ or 2+ with negative FISH (HER2-Low IBC) [abstract]. In: Proceedings of the 2017 San Antonio Breast Cancer Symposium; 2017 Dec 5-9; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2018;78(4 Suppl):Abstract nr GS1-02.
Background: Four large randomized phase III trials have reported significant improvements in disease-free (DFS) and overall survival for H administered with adjuvant polychemotherapy for HER2-positive high-risk BC. With the success of HER2-targeting, limiting chemotherapy is both reasonable and feasible, particularly for smaller, node-negative tumors. However data are limited. Methods: APT is a single arm three-stage, multicenter, phase II study of TH. Patients (pts) with HER2-positive BC (IHC 3 + and/or FISH amplified at > 2.0) with negative nodes (a single axillary lymph node micrometastasis was allowed) and tumor size < 3 cm were eligible. Pts received T (80 mg/m2) with H (4 mg/kg load ®2 mg/kg) x 12 weekly (w), followed by H x 39 w (2 mg/kg weekly or 6 mg/kg q 3 w). The primary endpoint was DFS. DFS events included invasive local, regional or distant recurrence, contralateral invasive breast cancer and death from any cause. The study had 95% power to distinguish between 3-year failure rates of 9.2% vs. 5% using a Poisson model based on the total patient-years of follow-up (PYFU). Planned interim analyses were designed to stop early for futility at 225 and 800 PYFU, and the regimen would be deemed worthy of further study with <40 failures after 1600 PYFU. All pts who began protocol therapy were included in the analyses. Results: 410 pts were enrolled from September 2007 to September 2010 and 406 began protocol therapy. The median age was 55 (range 24-85 years). Sixty-three percent had ER+ tumors. Three percent of tumors were T1mi; T1a; 20% T1b; 41% T1c, and 9% T2 ≤ 3cm. Six pts had a nodal micrometastasis. 356 pts (88%) completed all 52 wks of therapy, with 24 and 6 pts discontinuing due to protocol-specified or other toxicities, respectively. 358 (89%) completed all 12 weeks of combined TH therapy. The most common grade 3/4 toxicities included: neuropathy (4%), neutropenia (4%), transaminitis (3%), leukopenia (2%), fatigue (2%), and hypersensitivity reactions (2%). Reversible symptomatic CHF (grade 3 left ventricular systolic dysfunction) occurred in 2 patients (0.5%). Because of the limited number of events, the Data Safety Monitoring Board approved release of study results with 1316 PYFU and a median follow-up of 3.2 years. A total of 8 DFS events have been observed: 2 pts with metastatic disease, 2 with ipsilateral axillary recurrences, 3 with new contralateral BC (all HER2-), and 1 patient who died after diagnosis of primary ovarian cancer. Conclusion: This represents the first report of TH as adjuvant therapy for node-negative HER2-positive BC. The regimen appears well tolerated and few recurrences have been observed in the study population to date. An updated analysis of efficacy, including estimates of 3-year DFS, will be presented in December when a total of 1520 PYFU in this cohort is anticipated. Based on these early data, the TH regimen may be an acceptable treatment approach for low risk HER2-positive breast cancer. Citation Information: Cancer Res 2013;73(24 Suppl): Abstract nr S1-04.
Background: New strategies to enhance endocrine therapy (ET) efficacy and/or overcome resistance by targeting key survival pathways are needed. Preclinical data indicate that unwanted effects of ET include reactivation of the Notch pathway, critical for breast tumor initiating (stem) cells. Notch inhibition with gamma secretase inhibitors (GSI) enhances tamoxifen (tam) efficacy in xenografts, but impact of GSI+ET in human breast cancer (BC) is unknown. Our objective was to add short exposure of the GSI MK-0752 to ongoing tam or letrozole (let) in the presurgical window to assess feasibility, safety and biomarker/pathway impact in a 20-patient (pt) pilot study (ClinTrials.gov NCT00756717). We previously evaluated several biomarkers in the first cohort, which showed promise with Notch and proliferation inhibition. We present new results adding the final cohort, plus additional biomarkers and microarray analyses. Methods: Pts with early stage ER+ BC received 25 days (d) of ET. MK-0752 was added d15 (350 mg PO 3d on, 4d off, 3d on) with definitive surgery d25. Core biopsies were done at baseline, d14 and d25, with qRT-PCR for Notch-related and other genes critical to stem cell renewal/proliferation. Gene expression levels after GSI (d25) vs ET alone (d14) were analyzed and d25 changes in all pts combined for each gene were compared. Microarray expression estimates and modeling were performed using dCHip and Red-R, implementing gene-wise comparisons using Limma. Probes were defined as significantly regulated by paired t tests if p ≤ 0.001 for the comparisons of baseline to tam/let and tam/let to tam/let+GSI. Data were exploratory so all probe data were included in the modeling, and no corrections for multiple comparisons were used. Differentially expressed genes were submitted to DAVID for pathway analysis. Results: Of 22 pts accrued, 20 (11 tam, 9 let) were evaluable, meeting accrual goals (2 withdrew before MK-0752); 19 completed therapy to date. Toxicity was minimal. Significant (p<.05) changes in mRNA levels after GSI+ET vs end of ET in 17 pts (3 in progress) were down-regulation of Notch4 in 13; Ki67, 13; Notch1, 12; RUNX1 (stem cell transcription factor), 13; ADAM19 (disintegrin/metalloproteinase), 12; MMP7 (Wnt target), 11; CCND1 (cyclin D1), 10; and up-regulation of NOXA (pro-apoptotic BH3-only gene), 13. Microarray analyses (10 completed, remainder underway) found significant numbers of GSI-regulated genes that were independent of tam/let. Of 4036 genes increased by GSI, 2777 were unchanged by tam/let; of 3978 genes decreased by GSI, 1017 were not impacted by tam/let. For example, of genes regulated by GSI alone, there was modulation of important cancer pathways: Wnt5a, FGFs, FGFR, IGF-1R were decreased; Fas and caspases were increased. These changes in gene expression are being compared with ET resistance profiles. Conclusions: Short exposure of MK-0752 added to ET was feasible, well tolerated, and resulted in significant biomarker response in all tumors. MK-0752 favorably modulated proliferation, apoptosis, stem cell and metastasis-related targets, and impacted critical cancer pathways. This suggests potential roles for MK-0752 in optimizing endocrine therapy and overcoming endocrine resistance. Citation Information: Cancer Res 2011;71(24 Suppl):Abstract nr S1-5.
Background: Anastrozole inhibits the aromatase enzyme-induced estrogen synthesis, and fulvestrant down-regulates estrogen receptors in hormone receptor-positive breast cancer. We hypothesized that the simultaneous disruption of the ligand-receptor axis with concurrent use of these agents may be potentially additive or synergistic in first-line therapy of hormone receptor-positive metastatic breast cancer in postmenopausal women. Materials and Methods: A total of 707 patients were randomized to either 1 mg anastrozole P.O. daily (Arm 1) or to the combination of anastrozole and fulvestrant (Arm 2). Fulvestrant was given as an intramuscular injection as follows: loading dose of 500 mg on day 0, followed by 250 mg on days 14, 28 and 250 mg maintenance monthly thereafter. The primary endpoint was progression-free survival (PFS), with a power of 90% and one-sided alpha of 0.025 to detect an expected median PFS of 10 months in Arm 1 versus 13 months in Arm 2. Randomization was stratified by adjuvant tamoxifen use with the possibility of differential benefit of fulvestrant in the two strata. Patients were encouraged to crossover to fulvestrant after progression on the anastrozole alone arm (40% did), if they were not candidates for immediate chemotherapy. Analysis of survival was by 2-sided stratified log-rank tests and Cox regression using intent-to-treat. Two interim analyses were performed with the final analysis using a 2-sided p-value of 0.04. Results: There were 548 events (287 and 261 by arms, respectively) among 694 eligible patients (345 and 349, respectively). Overall, median PFS was 13.5 months for anastrozole and 15.0 months for the combination of fulvestrant and anastrozole (log-rank p=0.0145; HR=0.81 (95% CI 0.68−0.96). In a subset analysis of tamoxifen-naive women (60%, n=414), median PFS was 12.6 months and 17.0 months for Arms 1 and 2, respectively (log-rank p=0.0069; HR=0.74 (95% CI 0.60−0.92)), and 14.1 months and 13.5 months for Arms 1 and 2, respectively, in the 40% of tamoxifen-pretreated women (log-rank p = 0.56; HR=0.93 (95% CI 0.71−1.20)). A trend for improved overall survival (OS) in the combination arm was seen (median OS was 42 and 48.6 months based on 152 and 137 deaths respectively, log-rank p = 0.094; HR=0.82 (95% CI 0.65−1.03)). On the combination arm, three treatment-related deaths occurred: due to pulmonary embolism (2) or cerebrovascular ischemia (1); one Grade 4 thrombosis/embolism and one Grade 4 neutropenia and lymphopenia were reported. On the anastrozole arm, four patients experienced Grade 4 toxicities: thrombosis/embolism, arthralgia, thrombocytopenia, and dyspnea. In general, Grade 3 or higher toxicity was rare (12.7% vs. 14.5% for Arms 1 and 2, respectively) and did not differ significantly. Discussion: The combination of anastrozole and fulvestrant was associated with improved PFS compared to anastrozole alone as well as a trend in OS despite substantial crossover, thus offering a new standard in the first-line treatment of hormone receptor-positive breast cancer in postmenopausal women, specifically in tamoxifen-naive patients. ClinicalTrials.gov:NCT00075764. Funding: NIH/NCI CA32102, CA38926 and AstraZeneca. Citation Information: Cancer Res 2011;71(24 Suppl):Abstract nr S1-1.
Background Multi-gene tumor assays have provided clinically useful prognostic information for pts with HR receptor and node-positive breast cancer. The 21-gene RS was shown to be prognostic for pts treated with tamoxifen alone, and exploratory studies suggested that it may be predictive of benefit from chemotherapy. In retrospective analyses from SWOG S8814, pts with low RS appeared to get no benefit from adjuvant CAF chemotherapy, while those with higher RS did. These retrospective data require validation, especially since more modern chemotherapy might be more effective than the regimen used in S8814. Specific Aims/Trial Design: In January 2011, SWOG activated a phase III randomized clinical trial (registration number NCT01272037) to test the efficacy of using modern chemotherapy regimens in node positive pts with low RS, whose prognosis is still moderately poor but may not benefit from adjuvant chemotherapy based on tumor biology predicted by the RS value. The trial is similar to the Tailor RX study, but focuses on a node-positive population with low and intermediate RS. Eligibility Criteria: Pts with 1 to 3 positive lymph nodes, HR-positive and HER2−negative invasive breast cancer with RS ≤ 25 are eligible for randomization. Pts will be informed of their RS. Target and Present Accrual: Approximately 9400 patients will be screened to randomize 4000, stratified by RS (0-13 vs. 14–25), menopausal status, and axillary surgery (sentinel node vs. complete dissection); 46 are presently registered. Statistical Methods: The trial is powered to find a significant interaction of treatment assignment and the continuous RS value and, subsequently, derive a cut point for using the assay to guide treatment decisions. Pts who consent to screening are required to consent to banking of the tumor tissue and blood for further studies. Patient Reported Outcomes will be collected pre, post-screening and post-randomization. The study also has a cost-effectiveness analysis. Funding: Supported in part by National Cancer Institute grants CA32102 & CA38926, and in part by the Susan G. Komen for the Cure® Research Program, and the Breast Cancer Research Foundation. Citation Information: Cancer Res 2011;71(24 Suppl):Abstract nr OT1-03-01.
Background: Breast tumor initiating cells (TIC) use Notch receptors/ligands with other pathways for self renewal, resulting in tumor proliferation and progression. We showed that Notch inhibition with gamma secretase inhibitors (GSI) potentiates the effects of tamoxifen (tam) in xenografts (Rizzo et al. Cancer Res 2008). It is unknown whether GSIs plus endocrine therapy result in modulation of Notch and other proliferation markers in human breast cancer. Our objective was to add short exposure of the GSI MK-0752 to ongoing tam or letrozole (letr) during the presurgical window to determine 1) feasibility, 2) safety/tolerance, and 3) impact on biomarkers. We report the initial cohort of this pilot study (ClinTrials. gov NCT00756717). Methods: Patients (pts) with early stage ERα + breast cancer were treated with 25 days of tam or letr. On day 15 MK-0752 was added to endocrine therapy (350 mg orally 3 days on, 4 days off, 3 days on), with definitive surgery day 25. Formalin fixed, paraffin embedded biopsies were obtained at baseline, day 14 and final surgery, with histologic confirmation of tumor content >50% and RNA extraction by standard methods. Q-PCR was done for Notch1, Notch3, Notch4, Deltex, Jagged1, c-myc, HEY1, HEY2, HES1, PS2, C-Myc, Cyclin A2, NOXA (pro-apoptotic protein), Ki67, Dicer-1, RPL13 (internal control). Ct averages for 3 replicates were used and mRNA levels were calculated by the 2ΔΔCt method. Baseline gene expression levels were used as comparators for days 14 and 25 levels in each pt. The first cohort of 10 pts was analyzed to determine if enough signals were present to justify expanding the cohort at this dose to 20 pts and possibly test a second cohort on an alternate MK-0752 dose/schedule. Results: The initial cohort of 10 pts completed all therapy (4 tam, 6 letr), all biopsies and definitive surgery on schedule. One other pt withdrew prior to starting MK-0752 due to hypertension. Toxicity was minimal: grade 1 periorbital edema/cough, nausea, and axillary paresthesias in 1 pt each; grade 1 facial rash, 2 pts; and grade 2 fatigue, 1 pt. There was no diarrhea or surgical complications. Significant changes occurred in molecular marker levels after MK-0752 plus tam/letr (day 25) vs. end of tam/letr alone (day 14) as follows: Ki67 mRNA decreased in 9/10 pts; Notch4 decreased, 10/10; NOXA increased, 6/10; and Notch1 decreased, 6/10. Other markers showed inter-individual variations and will be presented, along with results of the global gene expression profiling (in progress). Conclusions: The addition of a short exposure of the GSI MK-0752 to ongoing endocrine therapy was feasible, safe, and well tolerated in pts with ERα + early breast cancer prior to definitive surgery. It results in anti-proliferative and pro-apoptotic effects at the molecular level. Notch4, which plays a key role in breast TIC, was the most consistent molecular marker of response in this setting. This suggests a potential anti-TIC effect of this combination and a role in overcoming endocrine resistance. Accrual to the expanded cohort is underway. If findings are confirmed, the second study with alternate MK-0752 dose/schedule may commence. Funding: Swim Across America, Inc. (clinical trial costs); Merck (drug supply, profiling) Citation Information: Cancer Res 2010;70(24 Suppl):Abstract nr PD05-12.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.