https://www.selleckchem.com/products/bgb-283-bgb283.html 0% v 10.9%, OR=12.43, P<.001). Participants were more likely to experience poor taste of food at any point in the study if they were being treated with denosumab (35.0% v 10.9%, OR=4.40, P=.020) or docetaxel (41.7% v 12.7%, OR=4.91, P=.022). Participants were more likely to experience ≥10% weight loss if experiencing poor taste of food (38.4% v 8.6%, OR=6.63, P=.010) or poor appetite (60.0% v 6.6%, OR=21.38, P<.001). Clinicians should query patients for changes in taste and smell of food, especially if they are experiencing weight loss. Clinicians should query patients for changes in taste and smell of food, especially if they are experiencing weight loss. Necrotizing enterocolitis (NEC) is a devastating gastrointestinal disease. Amniotic fluid stem cells (AFSC) improve NEC injury but human translation remains difficult. We aimed to evaluate the use of extracellular vesicles (EV) derived from human AFSC. Human AFSC (hAFSC) were cultured according to the protocol (Celprogen Inc., California, U.S.A.). Conditioned medium was obtained, ultra-centrifuged, and EV were suspended in phosphate-buffered saline (PBS). C57BL/6 pups were grouped into (1) breast-fed (Control, n = 11); (2) NEC + placebo (NEC + PBS; n = 10); and (3) NEC + treatment (NEC + EV; n = 11). NEC was induced post-natal days P5-9 by (A) gavage feeding hyperosmolar formula; (B) hypoxia for 10min; and (C) lipopolysaccharide. Intra-peritoneal injections of PBS or hAFSC-EV were given on P6-7. All animals were sacrificed on P9 and terminal ileum harvested. hAFSC-EV administration reduced intestinal injury (p = 0.0048), NEC incidence (score ≥ 2), and intestinal inflammation (IL-6 p < 0.0001; TNF-α p < 0.0001). Intestinal stem cell expression (Lgr5 +) and cellular proliferation (Ki67) were enhanced above control levels following hAFSC-EV administration (Lgr5 p = 0.0003; Ki67 p < 0.0001). hAFSC-EV administration reduced intestinal NEC injury and inflammation