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Injectable Hydrogel Capable of In Situ Covalent Crosslinking for Permanent Embolization

Ruosen Xie, Yu‐Chung Chen, Yi Zhao, Nisakorn Yodsanit, Yuyuan Wang, Naoaki Yamamoto, Dai Yamanouchi, Shaoqin Gong

2021ACS Applied Materials & Interfaces25 citationsDOI

Abstract

Vascular embolization provides an effective approach for the treatment of hemorrhage, aneurysms, and other vascular abnormalities. However, current embolic materials, such as metallic coils and liquid embolic agents, are limited by their inability to provide safe, consistent, and controlled embolization. Here, we report an injectable hydrogel that can remain at the injection site and subsequently undergo in situ covalent crosslinking, leading to the formation of a dual-crosslinking network (DCN) hydrogel for endovascular embolization. The DCN hydrogel is simple to prepare, easy to deploy via needles and catheters, and mechanically stable at the target injection site, thereby avoiding embolization of nontarget vessels. It possesses efficient hemostatic activity and good biocompatibility. The DCN hydrogel is also clearly visible under X-ray imaging, thereby allowing for targeted embolization. In vivo tests in a rabbit artery model demonstrates that the DCN hydrogel is effective in achieving immediate embolization of the target artery with long-term occlusion by inducing luminal fibrosis. Collectively, the DCN hydrogel provides a viable, biocompatible, and cost-effective alternative to existing embolic materials with clinical translation potential for endovascular embolization.

Topics & Concepts

EmbolizationBiocompatibilityMaterials scienceBiomedical engineeringSelf-healing hydrogelsBiocompatible materialIn vivoRadiologyMedicinePolymer chemistryBiologyMetallurgyBiotechnologyIntracranial Aneurysms: Treatment and ComplicationsElectrospun Nanofibers in Biomedical ApplicationsVascular Malformations Diagnosis and Treatment
Injectable Hydrogel Capable of In Situ Covalent Crosslinking for Permanent Embolization | Litcius