Single-cell genomic technologies enable the multimodal profiling of millions of cells across
temporal and spatial dimensions. However, experimental limitations hinder the …

Spatially resolved transcriptomics technologies provide high-throughput measurements of
gene expression in a tissue slice, but the sparsity of these data complicates analysis of …

Solid tumours are intricate and highly heterogeneous ecosystems, which grow in and invade
normal organs. Their progression is mediated by cancer cells' interaction with different cell …

Craniofacial development gives rise to the complex structures of the face and involves the
interplay of diverse cell types. Despite its importance, our understanding of human-specific …

Spatial omics technologies have revolutionized our studies on tissue architecture and
cellular interactions at single-cell resolution. While spatial multi-omics approaches offer …

Cardiovascular diseases constitute a significant threat to global health and the emergence
of spatial omics technologies has revolutionized cardiovascular research. This review …