Abstract

3035 Background: Circulating tumor DNA (ctDNA) has emerged as a potential biomarker to monitor treatment response in solid tumors. Our group previously showed that changes in ctDNA levels were predictive of radiographic response and survival in NSCLC patients receiving immunotherapy. Here we evaluated whether ctDNA dynamics could similarly be used to assess response in a PARP inhibitor-based therapy. Methods: A total of 122 patients with NSCLC, TNBC, PDAC or SCLC received cediranib (C) 30mg daily and Olaparib (O) 200mg twice daily in a phase II study NCI9881. Using a multigene NGS assay, ctDNA was measured longitudinally at baseline (T0), after 3 to 7 days of C monotherapy (T1), after 1 week of C+O combination (T2), after 4 weeks of C+O (T3), and every 4 weeks (T4+) thereafter. The first radiographic assessment was done after 8 weeks of C+O and every 8-12 weeks thereafter. CtDNA was quantified by determining the allele fraction of cancer-associated somatic mutations in plasma. We defined an early ctDNA response (e-ctDNA-R) as a >10% decrease in mutant allele fraction from T0 to T2, and an early ctDNA progression (e-ctDNA-P) as a > 10% increase; otherwise, it was stable ctDNA (e-ctDNA-S). Results: In total, 493 samples were analyzed from 94 patients, and 40 unique patients had both T0 and T2 ctDNA measurements, as well as corresponding radiographic assessments. These included 10 NSCLC, 17 TNBC, 3 SCLC and 10 PDAC. Of these patients, 4, 21, and 15 patients had PR, SD, and PD as best overall radiographic response respectively. Twenty-three (57.5%) patients had either e-ctDNA-R (17, 42.5%) or e-ctDNA-S (6, 15.0%), 18 (78.3%) of whom subsequently had either radiographic partial response (PR) or stable disease (SD). Seventeen (42.5%) patients had e-ctDNA-P, 10 (58.8%) of whom then had PD. A fair agreement was observed between e-ctDNA-R/S or e-ctDNA-P and radiographic PR/SD or PD with Cohen’s k 0.38 (70% agreement). The correlation between early ctDNA changes and PFS/OS are summarized in the table. All 25 patients with PR/SD eventually progressed. Of these, 17 (68%) had >10% increase in ctDNA from the nadir prior to disease progression (median 94.6%, 95%CI 38.2%-389.1%). The time between ctDNA progression and ctDNA nadir was significantly shorter (median 21 days, 95%CI 21-28) than the time between radiographic/clinical progression and initial PR/SD (median 107 days, 95%CI 56-204, P=0.0015). Conclusions: Longitudinal ctDNA measurements could enable early assessment of treatment response, resistance, and disease progression in patients treated with PARP inhibitor-based therapy. However, in this study, tumor responses and ctDNA changes were generally not as robust as have been observed with other classes of therapy.[Table: see text]

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