Bing-Heng Lee scite author profile

Advanced antibacterial surfaces are designed based on covalently attached antibacterial agents, avoiding potential side effects associated with overdosed or eluted agents. The technique is widely applicable regardless of the underlying substrate material. In addition, antibacterial surfaces are effective against the early stages of bacterial adhesion and can significantly reduce the formation of biofilm, without compromising biocompatibility. Here, this concept was realized by employing a benzoyl-functionalized parylene coating. The antibacterial agent chlorhexidine was used as a proof of concept. Chlorhexidine was immobilized by reaction with photoactivated benzoyl-functionalized surfaces, including titanium alloy, stainless steel, polyether ether ketone, polymethyl methacrylate, and polystyrene. A low concentration of chlorhexidine (1.4 AE 0.08 nmol cm À2 ) covalently bound to surfaces rendered them sufficiently resistant to an Enterobacter cloacae inoculum and its adherent biofilm. Compared to unmodified surfaces, up to a 30-fold reduction in bacterial attachment was achieved with this coating technology. The immobilization of chlorhexidine was verified with infrared reflection absorption spectroscopy (IRRAS) and X-ray photoelectron spectroscopy (XPS), and a leaching test was performed to confirm that the chlorhexidine molecules were not dislodged. Cell compatibility was examined by culturing fibroblasts and osteoblasts on the modified surfaces, revealing greater than 93% cell viability.This coating technology may be broadly applicable for a wide range of other antibacterial agents and allow the design of new biomaterials.

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Impact of long-term parental exposure to Tamiflu metabolites on the development medaka offspring (Oryzias latipes)

Chen

Lin

et al. 2020

Environmental Pollution

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Evenly Distributed Thin-Film Ag Coating on Stainless Plate by Tricomponent Ag/Silicate/PU with Antimicrobial and Biocompatible Properties

Huang

Chen

Lee

et al. 2014

ACS Appl. Mater. Interfaces

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A tricomponent nanohybrid dispersion in water comprising silver nanoparticles (AgNP), nanometer-thick silicate platelets (NSP), and water-based polyurethane (PU) was developed for surface coating on orthopedic metal plates. The previously developed AgNP-on-NSP nanohybrid was homogeneously blended into a selected waterborne PU dispersion at varied weight ratios from 1/0.1 to 1/10 (w/w). PU was used to adhere the Ag nanohybrid to the metal surface. The resultant dispersions were analyzed and found to contain AgNP 2-18 nm in diameter and characterized by using UV absorption and TEM micrograph. The subsequent coating of AgNP/NSP-PU dispersion generated a film of 1.5 μm thickness on the metal plate surface, further characterized by an energy dispersive spectroscope (EDS) to show the homogeneous distribution of Ag, Si, and C elements on the metal plates. The surface antimicrobial efficacy was proven for the coating composition of AgNP/NSP to PU ranging from 1/1 to 1/5 by weight ratio but irrelevant to the thickness of the coated materials. The metal plate coated with the high Ag content at 1/1 (w/w) ratio was shown to have very low cytotoxicity toward the contacted mammal fibroblasts. Overall, the optimized tricomponent Ag/silicate/PU in water dispersion from 1/2 to 1/3 (w/w) could generate a stable film on a metal surface exhibiting both antimicrobial and biocompatible properties. The facile coating technique of the AgNP/NSP in waterborne PU is proven to be viable for fabricating infection- and cytotoxicity-free medical devices.

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Osteogenic Surface Modification Based on Functionalized Poly-P-Xylylene Coating

et al. 2015

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The biotechnology to immobilize biomolecules on material surfaces has been developed vigorously due to its high potentials in medical applications. In this study, a simple and effective method was designed to immobilize biomolecules via amine-N-hydroxysuccinimide (NHS) ester conjugation reaction using functionalized poly-p-xylylene coating on material surfaces. The NHS ester functionalized coating is synthesized via chemical vapor deposition, a facile and solvent-less method, creating a surface which is ready to perform a one-step conjugation reaction. Bone morphogenetic protein 2 (BMP-2) is immobilized onto material surfaces by this coating method, forming an osteogenic environment. The immobilization process is controlled at a low temperature which does not damage proteins. This modified surface induces differentiation of preosteoblast into osteoblast, manifested by alkaline phosphatase (ALP) activity assay, Alizarin Red S (ARS) staining and the expression of osteogenic gene markers, Alpl and Bglap3. With this coating technology, immobilization of growth factors onto material surface can be achieved more simply and more effectively.

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Identification of genes differentially expressed during the growth of Bambusa oldhamii

Yeh

Lee

Liao

et al. 2013

Plant Physiology and Biochemistry

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Bing-Heng Lee

Compatibility balanced antibacterial modification based on vapor-deposited parylene coatings for biomaterials

Impact of long-term parental exposure to Tamiflu metabolites on the development medaka offspring (Oryzias latipes)

Evenly Distributed Thin-Film Ag Coating on Stainless Plate by Tricomponent Ag/Silicate/PU with Antimicrobial and Biocompatible Properties

Osteogenic Surface Modification Based on Functionalized Poly-P-Xylylene Coating

Identification of genes differentially expressed during the growth of Bambusa oldhamii

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