Because of their good performance,including biocompatibility and mechanical proper-ties,polyurethanes(PUs)are widely used in medical devices.However,undesired compatibility troubles,including thrombus,inflammation,and...Because of their good performance,including biocompatibility and mechanical proper-ties,polyurethanes(PUs)are widely used in medical devices.However,undesired compatibility troubles,including thrombus,inflammation,and hyperplasia,still limit the applications of PUs.In this study,copper-mediated polyurethane(PU-Cu)materials with enzyme-like catalysis were prepared.The PU-Cu materials effectively catalysed the nitric oxide(NO)released from endogenous NO donors because of the glutathione peroxidase(GPx)-like function of copper ion.The PU‐Cu materials were respectively evaluated via platelet adhesion and endothelial cell(EC),smooth muscle cell(SMC),and macrophage(MA)cultures.Scanning electron microscopy results showed that PU-Cu materials significantly inhibited platelet adhesion and activation.Meanwhile,PU-Cu materials not only promote the proliferation of EC but also inhibit SMC growth.Moreover,MA culture results intuitively stated the anti-inflammatory ability of PU-Cu.In addition,experimental samples were implanted into the subcutaneous tissue of Sprague Dawley rats.The anti-inflammatory function of PU-Cu was further confirmed by haematoxylin-eosin staining results.With regard to their excellent biological performance,PU-Cu materials are proposed for biocompatibility improvement of blood-contacting mate-rials,which should in turn provide new ideas for advanced medical devices.展开更多
基金National Natural Science Foundation of China,Grant/Award Numbers:NSFC Project 32071328,NSFC Project 81801853Sichuan Science and Technology Programme,Grant/Award Number:2019YFH049+5 种基金International Cooperation Project by Science and Technology Department of Sichuan Province,Grant/Award Number:2020YFH0103Talent Promotion Project of Heze Branch of Shandong Academy of SciencesThis work was financially supported by Natural Science Foundation of China(NSFC Project 32071328&81801853)Sichuan Science and Technology Programme(2019YFH049)International Cooperation Project by Science and Technology Department of Sichuan Province(2020YFH0103)Talent Promotion Project of Heze Branch of Shandong Academy of Sciences.
文摘Because of their good performance,including biocompatibility and mechanical proper-ties,polyurethanes(PUs)are widely used in medical devices.However,undesired compatibility troubles,including thrombus,inflammation,and hyperplasia,still limit the applications of PUs.In this study,copper-mediated polyurethane(PU-Cu)materials with enzyme-like catalysis were prepared.The PU-Cu materials effectively catalysed the nitric oxide(NO)released from endogenous NO donors because of the glutathione peroxidase(GPx)-like function of copper ion.The PU‐Cu materials were respectively evaluated via platelet adhesion and endothelial cell(EC),smooth muscle cell(SMC),and macrophage(MA)cultures.Scanning electron microscopy results showed that PU-Cu materials significantly inhibited platelet adhesion and activation.Meanwhile,PU-Cu materials not only promote the proliferation of EC but also inhibit SMC growth.Moreover,MA culture results intuitively stated the anti-inflammatory ability of PU-Cu.In addition,experimental samples were implanted into the subcutaneous tissue of Sprague Dawley rats.The anti-inflammatory function of PU-Cu was further confirmed by haematoxylin-eosin staining results.With regard to their excellent biological performance,PU-Cu materials are proposed for biocompatibility improvement of blood-contacting mate-rials,which should in turn provide new ideas for advanced medical devices.
