The 2022 Annual Review Issue of The Journal of Pathology, Recent Advances in Pathology, contains 15 invited reviews on research areas of growing importance in pathology. This year, the articles include those that focus on digital pathology, employing modern imaging techniques and software to enable improved diagnostic and research applications to study human diseases. This subject area includes the ability to identify specific genetic alterations through the morphological changes they induce, as well as integrating digital and computational pathology with \'omics technologies. Other reviews in this issue include an updated evaluation of mutational patterns (mutation signatures) in cancer, the applications of lineage tracing in human tissues, and single cell sequencing technologies to uncover tumour evolution and tumour heterogeneity. The tissue microenvironment is covered in reviews specifically dealing with proteolytic control of epidermal differentiation, cancer-associated fibroblasts, field cancerisation, and host factors that determine tumour immunity. All of the reviews contained in this issue are the work of invited experts selected to discuss the considerable recent progress in their respective fields and are freely available online (https://onlinelibrary.wiley.com/journal/10969896). © 2022 The Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.

The human lung is a relatively quiescent organ in the normal healthy state but contains stem/progenitor cells that contribute to normal tissue maintenance and either repair or remodeling in response to injury and disease. Maintenance or repair lead to proper restoration of functional lung tissue and maintenance of physiological functions, with remodeling resulting in altered structure and function that is typically associated with disease. Knowledge of cell types contributing to lung tissue maintenance and repair/remodeling have largely relied on mouse models of injury-repair and lineage tracing of local progenitors. Therefore, many of the functional alterations underlying remodeling in human lung disease have remained poorly defined. However, the advent of advanced genomics approaches to define the molecular phenotype of lung cells at single-cell resolution has paved the way for rapid advances in our understanding of cell types present within the normal human lung and changes that accompany disease. Here we summarize recent advances in our understanding of disease-related changes in the molecular phenotype of human lung epithelium that have emerged from single-cell transcriptomic studies. We focus attention on emerging concepts of epithelial transitional states that characterize the pathological remodeling that accompanies chronic lung diseases, including idiopathic pulmonary fibrosis, chronic obstructive pulmonary disease, cystic fibrosis, and asthma. Concepts arising from these studies are actively evolving and require corroborative studies to improve our understanding of disease mechanisms. Whenever possible, we highlight opportunities for providing a unified nomenclature in this rapidly advancing field of research. © 2022 The Pathological Society of Great Britain and Ireland.