Quang Vinh Phan scite author profile

Hyaluronic acid (HA) is a glycosaminoglycan with diverse biomedical applications including viscosupplementation of synovial fluid for the treatment osteoarthritis. Current HA viscosupplements such as Synvisc, Orthovisc, and Hyalgan have shown positive effects of reducing pain and improving joint function. The therapeutic efficacy, however, is highly transient, and these viscous fluids suffer from poor injectability. HA nanoparticles were found to modify the rheological properties of a model of the HA viscosupplement Orthovisc. Nanoparticles were successfully synthesized from 17 and 1500 kDa HA. Nanoparticle suspensions of HA were studied at different concentrations and in blends with the model viscosupplement. Nanoparticles made from 1500 kDa HA reduced the viscosupplement viscosity and elasticity to a much greater degree than nanoparticles made from 17 kDa HA. The difference in the nanoparticle effect on viscoelasticity suggested that nanoparticles made from 17 kDa HA may have dangling surface polymers that facilitated interactions with HA in solution. This hypothesis was supported by the greater compressibility of 17 kDa nanoparticles as determined by ultrasonic vibrational spectroscopy. Rheological investigations showed that the viscoelasticity of viscosupplements could be discretely titrated by modulating the concentration and type of HA nanoparticle additive (hard sphere or hairy). Thus, the injectability of viscosupplements may be enhanced while maintaining high elasticity.

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Site-specific chromosomal gene insertion: Flp recombinase versus Cas9 nuclease

Phan

Contzen

Seemann

et al. 2017

Sci Rep

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Site-specific recombination systems like those based on the Flp recombinase proved themselves as efficient tools for cell line engineering. The recent emergence of designer nucleases, especially RNA guided endonucleases like Cas9, has considerably broadened the available toolbox for applications like targeted transgene insertions. Here we established a recombinase-mediated cassette exchange (RMCE) protocol for the fast and effective, drug-free isolation of recombinant cells. Distinct fluorescent protein patterns identified the recombination status of individual cells. In derivatives of a CHO master cell line the expression of the introduced transgene of interest could be dramatically increased almost 20-fold by subsequent deletion of the fluorescent protein gene that provided the initial isolation principle. The same master cell line was employed in a comparative analysis using CRISPR/Cas9 for transgene integration in identical loci. Even though the overall targeting efficacy was comparable, multi-loci targeting was considerably more effective for Cas9-mediated transgene insertion when compared to RMCE. While Cas9 is inherently more flexible, our results also alert to the risk of aberrant recombination events around the cut site. Together, this study points at the individual strengths in performance of both systems and provides guidance for their appropriate use.

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Hyaluronic acid colloidal gels as self‐assembling elastic biomaterials

2013

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Hyaluronic acid (HA) is a naturally occurring biodegradable polymer with a variety of applications in medicine. The use of HA as a filler or scaffold for regenerating tissues often requires improving the elastic properties of HA. This is conventionally accomplished via chemical crosslinking, which might require the generation of toxic free radicals. Although the mechanical properties of the resulting gel material can be tuned, these types of materials are static and susceptible to mechanical failure. The aim of this study was to develop a colloidal system for scaffold fabrication that is held together by physical interactions between HA nanoparticles. HA nanoparticles composed of 17 kDa HA suspended in water at different concentrations (15%, 30%, and 45% w/v, respectively) formed a stable three-dimensional (3D) colloidal gel as a result of physical entanglement of free polymer chains on the surfaces of nanoparticles. The swelling ratio, shear moduli (G), compressive failure properties, and viscosity of colloidal gels were concentration dependent. The colloidal gels also were found to exhibit dynamic and recoverable properties, thus suggesting that these "self-associating colloids" offer characteristics distinct arising from crosslinked polymers or high concentration colloids.

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Quang Vinh Phan

Hyaluronic Acid Nanoparticles Titrate the Viscoelastic Properties of Viscosupplements

Site-specific chromosomal gene insertion: Flp recombinase versus Cas9 nuclease

Hyaluronic acid colloidal gels as self‐assembling elastic biomaterials

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