Hyaluronic acid (HA) is a large non-sulfated glycosaminoglycan that is the main component of the extracellular matrix (ECM). Because of its strong and diversified functions applied in broad fields, HA has been widely studied and reported previously. The molecular properties of HA and its derivatives, including a wide range of molecular weights but distinct effects on cells, moisture retention and anti-aging, and CD44 targeting, promised its role as a popular participant in tissue engineering, wound healing, cancer treatment, ophthalmology, and cosmetics. In recent years, HA and its derivatives have played an increasingly important role in the aforementioned biomedical fields in the formulation of coatings, nanoparticles, and hydrogels. This article highlights recent efforts in converting HA to smart formulation, such as multifunctional coatings, targeted nanoparticles, or injectable hydrogels, which are used in advanced biomedical application.
Magnesium (Mg) alloy, an important biodegradable material widely investigated on cardiovascular stent, is restricted for further application due to some limited functions, such as the excessively rapid degradation rate, poor hemocompatibility, and delayed re‐endothelialization. To overcome these shortcomings, surface modification with biomolecules has attracted much attention. In this study, the multifunctional coatings of citric acid (CA) and Arg‐Gly‐Asp (RGD) via layer‐by‐layer self‐assembly are immobilized onto the polydopamine (PDA) deposited surface which is passivated with hydrofluoric acid (HF) solution before. The basic characterization results suggest that PDA/(CA‐RGD)2 coating exhibits a rich‐in‐amine and hydrophilic surface. The corrosion current density of PDA/(CA‐RGD)2 exposed to simulated body fluid is reduced by 95.65% from 1.586 × 10−4 to 6.894 × 10−6 A cm−2 under the protection of the dense MgF2 layer and multifunctional coatings. Besides, inhibition on platelet adhesion, hemolysis rates, and fibrinogen adsorption also prove the enhanced hemocompatibility of the PDA/(CA‐RGD)2 coatings. Meanwhile, the human umbilical vein endothelial cells (HUVECs) and smooth muscle cells (SMCs) culture results jointly prove the excellent endothelialization performance of functionalized samples. In conclusion, the above mentioned results reveal that the functionalized surface of PDA/(CA‐RGD)2 displays better overall performance, indicating a preferable application for cardiovascular stents.
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