Robust and antiswelling hollow hydrogel tube with antibacterial and antithrombotic ability for emergency vascular replacement
Infection and thrombosis are the two major complications in almost any indwelling
intravascular catheters, leading to adverse consequences. Here, we report a robust and
antiswelling hollow hydrogel tube that is prepared by copolymerizing a hydrogen-bonding
(H-bonding) monomer and a zinc methacrylate (ZMA) monomer in the absence of any
chemical cross-linker. The strong H-bonding interactions from the side chain of N-
acryloylsemicarbazide (NASC) endow the hydrogel with high mechanical strength and …
intravascular catheters, leading to adverse consequences. Here, we report a robust and
antiswelling hollow hydrogel tube that is prepared by copolymerizing a hydrogen-bonding
(H-bonding) monomer and a zinc methacrylate (ZMA) monomer in the absence of any
chemical cross-linker. The strong H-bonding interactions from the side chain of N-
acryloylsemicarbazide (NASC) endow the hydrogel with high mechanical strength and …
Infection and thrombosis are the two major complications in almost any indwelling intravascular catheters, leading to adverse consequences. Here, we report a robust and antiswelling hollow hydrogel tube that is prepared by copolymerizing a hydrogen-bonding (H-bonding) monomer and a zinc methacrylate (ZMA) monomer in the absence of any chemical cross-linker. The strong H-bonding interactions from the side chain of N-acryloylsemicarbazide (NASC) endow the hydrogel with high mechanical strength and swelling stability. Introduction of ZMA affords a superhydrophilic surface, and the release of a zinc ion (Zn2+) from the hydrogel can kill nearly 100% both of Staphylococcus aureus and Escherichia coli, indicating its excellent antibacterial ability. Importantly, the P(NASC-co-ZMA) hydrogel exhibits better antithrombosis ability due to the resistant adhesion of fibrinogen protein and platelets, as well binding calcium ions (Ca2+) from the blood. The hydrogel tube is used to connect the ex vivo arteriovenous shunt circuit or implanted into the left carotid artery in the rabbit model, showing a better patency rate. All of these results suggest that this hydrogel tube may mitigate infection and thrombosis complications, thus holding potential as an artificial blood vessel for emergency vascular replacement.
ACS Publications
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