• Placebo-controlled phase III trials (2015–2025) remained pivotal to oncology drug development. • Placebo usually preserved blinding while both arms received standard-of-care background therapy. • Four dominant settings emerged: add-on, adjuvant/observation, maintenance, and refractory disease. • Placebo reduced assessment bias for PFS/DFS/MFS and strengthened interpretation of incremental benefit. • As precision oncology expands, ethically justified placebo designs remain essential for valid evidence. Placebo-controlled phase III trials (2015–2025) remained pivotal to oncology drug development. Placebo usually preserved blinding while both arms received standard-of-care background therapy. Four dominant settings emerged: add-on, adjuvant/observation, maintenance, and refractory disease. Placebo reduced assessment bias for PFS/DFS/MFS and strengthened interpretation of incremental benefit. As precision oncology expands, ethically justified placebo designs remain essential for valid evidence. Over the past decade, placebo-controlled phase III trials have remained central to therapeutic development in oncology, despite the rapid expansion of effective systemic treatments. In modern practice, placebo rarely represents the absence of therapy; rather, it serves as a methodological tool that preserves blinding, isolates the incremental effect of investigational agents, and minimizes assessment bias. Between 2015 and 2025, placebo-controlled designs underpinned many landmark trials across solid tumors and hematologic malignancies. In add-on first-line studies, placebo combined with standard-of-care therapy enabled accurate attribution of benefit to immune checkpoint inhibitors and targeted agents, including CDK4/6 inhibitors in hormone receptor–positive breast cancer. In the adjuvant setting, where observation historically constituted standard management, placebo provided an ethically appropriate comparator, supporting practice-changing trials in resected lung cancer, melanoma, renal cell carcinoma, and early breast cancer. Maintenance strategies, particularly in ovarian cancer, pancreatic cancer with germline BRCA mutations, and acute myeloid leukemia, relied on placebo to reflect real-world surveillance and to validate prolonged disease control in molecularly selected populations. In refractory disease, placebo-controlled trials remained acceptable when no effective standard therapies existed, allowing the identification of new agents with survival benefit. Across these contexts, placebo use has been essential for reducing bias in time-to-event endpoints, validating surrogate measures, and ensuring regulatory rigor. Collectively, evidence from the last decade indicates that placebo-controlled trials have facilitated, rather than hindered, major advances in oncology and will continue to play a critical role as treatment strategies become increasingly complex and precision driven.
Petrelli et al. (Sun,) studied this question.