Biologically Targeted Photo‐Crosslinkable Nanopatch to Prevent Postsurgical Peritoneal Adhesion

Biologically Targeted Photo‐Crosslinkable Nanopatch to Prevent Postsurgical Peritoneal Adhesion

Abstract Peritoneal adhesion occurs in a majority of patients following abdominal surgery and can result in significant side effects and complications. Current strategies to minimize adhesions involve the use of nontargeted anatomical barriers that are either inefficient in protecting injured areas...

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Bibliographic Details
Main Authors: Yu Mi, Feifei Yang, Cameron Bloomquist, Youli Xia, Bo Sun, Yanfei Qi, Kyle Wagner, Stephanie A. Montgomery, Tian Zhang, Andrew Z. Wang
Format: Article
Language:English
Published: Wiley 2019-10-01
Series:Advanced Science
Subjects:
abdominal surgery
biological targeting
nanomaterials
peritoneal adhesion
photo‐crosslinking
Online Access:https://doi.org/10.1002/advs.201900809
Description
Summary:Abstract Peritoneal adhesion occurs in a majority of patients following abdominal surgery and can result in significant side effects and complications. Current strategies to minimize adhesions involve the use of nontargeted anatomical barriers that are either inefficient in protecting injured areas or lacking the adequate residence time to prevent adhesions. Herein, the development of a biologically targeted photo‐crosslinkable nanopatch (pCNP) is reported that can prevent postsurgical adhesion. It is demonstrated that pCNP can form a compact protective barrier over surfaces with exposed collagen IV. Using a rat parietal peritoneal excision adhesion model, it is showed that pCNP is highly effective and safe in preventing postsurgical adhesions. This work presents a novel approach to preventing peritoneal adhesion with nanomaterials.
ISSN:2198-3844

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