The intestinal mucosa is vulnerable to an ischemia-reperfusion (I/R) attendant on some bowel diseases and surgery; thus, the restoration of the mucosal integrity is critical to achieving functional recovery of the intestine injured by I/R. In this histochemical study, we investigated the alteration of the central lacteals--which are essential for the transport of fat, tissue fluid, and immune cells in the intestinal mucosa--in the murine jejunum after I/R. The intestine inflicted with I/R demonstrated mucosal injury involving the inflammatory response, with interstitial edema, disruption of the villous tissue, and subsequent tissue regeneration of the villi. The regenerative villous tissue revealed lymphatic regrowth showing proliferative activity from the residual mucosal lymphatics behind the regenerated blood vasculature. During the regenerative phase, the blood vascular pericytes expressed an intense immunoreaction for VEGF-A, an inducer for monocyte/macrophage recruitment as well as angiogenesis. Also, the F4/80-immunopositive macrophages significantly increased in number in the regenerating villous stroma. Furthermore, the macrophages recruited around the regrowing lacteals expressed the immunoreactivity for VEGF-C, which is a highly specific lymphangiogenic factor. The present study is first to delineate alterations in the central lacteals in the small intestine following I/R, thereby suggesting that the recruitment of the macrophages induced by upregulation of VEGF-A in the pericytes of regenerative blood vessels might promote reconstruction of the central lacteals through their release of VEGF-C.