What question did this study set out to answer?

The central aim is to evaluate the latest advancements in treatment strategies for pancreatic ductal adenocarcinoma (PDAC) and their implications for patient outcomes.

June 4, 2026Open Access

From Standard of Care to mRNA Cancer Vaccines and Spatial Architecture-Based Precision Therapy in PDAC: Challenges and Expectations

Key Points

The central aim is to evaluate the latest advancements in treatment strategies for pancreatic ductal adenocarcinoma (PDAC) and their implications for patient outcomes.
Review of current evidence on neoadjuvant therapy, surgical resection, and adjuvant treatments for PDAC.
Analysis of ongoing randomized clinical trials evaluating mRNA vaccines and ctDNA-based testing.
Discussion of technologies including single-cell multiomics and spatial proteomics for tumor analysis.
Neoadjuvant treatment and modern chemotherapy have shown improved oncological outcomes but high recurrence rates persist.
mRNA cancer vaccines and ctDNA-based prediction show promise for improving recurrence-free and overall survival.
Integration of advanced technologies like AI in analyzing the tumor microenvironment is expected to revolutionize treatment strategies.

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is the most complex and aggressive disease with the worst rates of unresectable or metastatic disease at diagnosis, resistance to systemic therapy, and case fatality rate (CFR) among leading cancers. In non-metastatic disease, neoadjuvant treatment with modern chemotherapeutic regimens followed by surgical resection and/or adjuvant mFOLFIRINOX has significantly improved oncological outcomes. However, recurrence rates remain alarmingly high, while immune checkpoint inhibitors (ICIs) or molecularly targeted therapy have not yet demonstrated clinical benefits. Comprehensive genomic profiling through NGS-based approved assays such as TruSight Oncology 500 (TSO500) could guide targeted therapy. Rapidly evolving mRNA cancer vaccines and circulating tumor DNA (ctDNA)-based prediction of minimal residual disease (MRD) and recurrence risk hold great promise towards the realization of rational combination therapy to improve recurrence-free survival (RFS) and overall survival (OS). More recently, single-cell multiomics (SC MO), spatial proteomics and transcriptomics (SPT), artificial intelligence (AI), and systems biology have revolutionized cancer research, enabling holistic tumor microenvironment (TME) analysis. In this comprehensive review, we describe the latest advances and unmet needs in the standard of care of PDAC. Moreover, we discuss the expectations of ongoing randomized clinical trials of adjuvant mRNA vaccine-based therapy and ctDNA MRD testing as prognostic biomarkers, towards personalized treatment to improve RFS and OS in a medium-term perspective. With a longer perspective, we explore how harnessing SC MO, SPT, AI, and systems biology can reveal the 3D spatial organization of interacting cancer, immune, and stromal cells. Multi-dimensional TME-, TSO500- and ctDNA-based framework of dynamic biomarkers are of paramount importance to achieve an optimal patient-specific perioperative multimodal treatment combining precision immunotherapy, targeted drugs, and modern chemotherapy, translated into future practice-changing clinical trials, that could eliminate MRD towards recurrence prevention.

From Standard of Care to mRNA Cancer Vaccines and Spatial Architecture-Based Precision Therapy in PDAC: Challenges and Expectations

Key Points

Abstract

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