Intratumor, intertumor and temporal heterogeneity shapes capricious therapeutic response and complicates personalized treatment. It reflects interacting genetic, epi-genetic, transcriptional, and microenvironmental variation. Patient derived organoids (PDOs) are three-dimensional, patient anchored cultures that preserve key tumor programs while enabling scalable perturbations and high dimensional readouts, making them well suited for mechanistic dissection of heterogeneity. PDO panels across the intratumoral axis resolve niche linked molecular and functional states within edge core organization, perivascular territories, differentiation hierarchies, and behavioral programs including metabolism, immune evasion, invasion, and proliferative control. At the intertumoral axis, PDO panels translate interpatient and interlesional diversity into reproducible spectra of pathway dependence and drug vulnerability and enable mechanism-based stratification. In parallel, along the temporal axis, longitudinal and drug challenged organoids reconstruct treatment shaped state transitions and re-sistance trajectories on experimentally tunable time scales. The current review summarized recent evidence on PDOs, and synthesized studies that integrate organoid culture with multiomics profiling, functional perturbation, and longitudinal sampling. It delineated key boundary conditions, including incomplete microenvironmental context, workflow variability, establishment bias, and limits in mapping ex vivo response to clinical outcomes. On this basis, this review proposes a cooperative multi model research ecology in which PDOs serve as central molecular workhorses linking heterogeneity maps to mechanism informed therapeutic strategies.
Xu et al. (Tue,) studied this question.