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Spatial omics at the forefront: emerging technologies, analytical innovations, and clinical applications

Yunhe Liu, Yibo Dai, Linghua Wang

2025Cancer Cell55 citationsDOIOpen Access PDF

Abstract

Spatial omics transforms our understanding of cancer by revealing how tumor cells and the microenvironment are organized, interact, and evolve within tissues. Here, we synthesize advances in spatial technologies that map tumor ecosystems with unprecedented fidelity. We highlighted analytical breakthroughs-including multimodal integration and emerging spatial foundation models-that resolve functional niches and spatial communities, converting spatial patterns into mechanistic insights. We summarize how spatially organized features, from immune hubs to microbiota and neural interfaces, shape tumor evolution and clinical outcomes. We then outline how spatial approaches illuminate precancer biology, metastatic adaptation, and therapy response. Bridging discovery and translation, we provide a practical roadmap for incorporating spatial readouts into clinically oriented study design. We conclude by discussing persistent challenges in standardization and scalability and how high-plex spatial discoveries may be distilled into scalable, AI-enabled, clinically deployable assays, positioning spatial omics as a cornerstone of next-generation predictive and precision oncology.

Topics & Concepts

Computer scienceComputational biologySpatial analysisBridging (networking)OmicsStandardizationBiologyScalabilityData sciencePrecision medicineSystems biologyTumor microenvironmentCrosstalkSpatial ecologySpatial epidemiologyArtificial intelligenceCancer therapyBioinformaticsEpigenomeGenomicsImmune systemSingle-cell and spatial transcriptomicsCancer Genomics and DiagnosticsCancer Cells and Metastasis