An agentic framework for autonomous scientific discovery in cancer pathology
Summary
Artificial intelligence has advanced cancer pathology, but many systems still depend on hand-crafted features, are hard to explain and rely on fragmented workflows. We introduce SPARK (System of Pathology Agents for Research and Knowledge), a foundational agentic artificial intelligence approach that uses language as a universal interface to autonomously generate biologically driven concepts for tumor analysis. SPARK turns biological ideas into analytical tools and works directly with comp
Content
# An agentic framework for autonomous scientific discovery in cancer pathology
*Published: 2026 Apr 29*
Artificial intelligence has advanced cancer pathology, but many systems still
depend on hand-crafted features, are hard to explain and rely on fragmented
workflows. We introduce SPARK (System of Pathology Agents for Research and
Knowledge), a foundational agentic artificial intelligence approach that uses
language as a universal interface to autonomously generate biologically driven
concepts for tumor analysis. SPARK turns biological ideas into analytical tools
and works directly with complex pathology data without extra model training. We
evaluated SPARK across 18 patient cohorts spanning five cancer types (lung
adenocarcinoma, lung squamous cell carcinoma, colorectal cancer, breast cancer
and oropharyngeal squamous cell carcinoma) and more than 5,400 patients with
available histopathology images and clinical/follow-up information, in both
prognostic and predictive settings and on a well characterized spatial biology
breast cancer dataset (patient nā=ā625). We found that SPARK produced clinically
and biologically relevant concepts correlated with prognosis, known pathological
variables and predictive biomarkers, including patterns of tumor progression and
temporal change inferred from static images. A dedicated module allows for human
interaction with SPARK. Further prospective validation is needed to evaluate the
clinical utility of the tools created by SPARK. All code, parameters and results
are openly released to help researchers and clinicians improve diagnostic
precision and deepen tumor biology insights.
DOI: 10.1038/s41591-026-04357-y