Tissue engineering of the vitreous body: recent progress and future trends

Purpose of reviewIn contrast to current clinically used tamponades including oils and gases, hydrogels offer a vitreous replacement that has the potential to present a niche for vitreous cells and elevate vitreous substitutes to the level of tissue engineering. This article, therefore, highlights and discusses recent hydrogel-based vitreous replacement strategies as well as the latest progress on vitreous cells, towards the development of a cellularized vitreous substitute.Recent findingsA variety of different crosslinked hydrogel systems have been recently investigated as preformed and in situ forming vitreous substitutes, based on biopolymers and/or synthetic polymers. In addition, a comprehensive understanding of the precise function and immunological significance of hyalocytes as vitreous macrophages has recently emerged using advanced imaging techniques and high-throughput transcriptional and protein analyses.SummaryTissue engineering offers transformative potential for vitreous replacement by combining advanced hydrogel systems with hyalocytes as vitreous cells to further replicate the versatile characteristics and functions of the native vitreous.