A Biomimetic Mussel‐Inspired ε‐Poly‐l ‐lysine Hydrogel with Robust Tissue‐Anchor and Anti‐Infection Capacity
Abstract
In situ hydrogels have attracted considerable attention in tissue engineering because of their minimal invasiveness and ability to match the irregular tissue defects. However, hydrous physiological environments and the high level of moisture in hydrogels severely hamper binding to the target tissue and easily cause wound infection, thereby limiting the effectiveness in wound care management. Thus, forming an intimate assembly of the hydrogel to...
Paper Details
Title
A Biomimetic Mussel‐Inspired ε‐Poly‐l ‐lysine Hydrogel with Robust Tissue‐Anchor and Anti‐Infection Capacity
Published Date
Jan 13, 2017
Volume
27
Issue
8
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