https://tanigawalab.org/tags/optimal-transport/Optimal TransportHugo Blox Builder (https://hugoblox.com)enWed, 19 Nov 2025 00:00:00 +0000https://tanigawalab.org/media/logo_hu_6ec5cb994dd998e6.pnghttps://tanigawalab.org/tags/optimal-transport/https://tanigawalab.org/publications/preprint/sc4d/Wed, 19 Nov 2025 00:00:00 +0000https://tanigawalab.org/publications/preprint/sc4d/<p>sc4D treats disease progression as a spatial and temporal modeling problem. The framework combines local-neighborhood analysis around pathology, autoencoder-based embeddings, and optimal transport to infer cell-state and transcriptome trajectories from single-cell transcriptomics data.</p> <p>In an Alzheimer&rsquo;s disease mouse-model application, the study reanalyzes longitudinal spatial single-cell data to model glial responses around amyloid-beta plaques and tau pathology. The analysis identifies coordinated microglia and astrocyte activation near plaques and uses in silico perturbations to prioritize candidate regulators and interventions, including CAMTA1 activation and Donepezil, for shifting inflammatory glial states.</p>