Yansheng Xu scite author profile

While vitrified cryopreservation holds great promise, practical application has been limited to smaller systems (cells and thin tissues) due to diffusive heat and mass transfer limitations, which are typically manifested as devitrification and cracking failures during thaw. Here then we describe a new approach for rapidly and uniformly heating cryopreserved biospecimens with radiofrequency (RF) excited magnetic nanoparticles (mNPs). Importantly, heating rates can be increased several fold over conventional boundary heating techniques and are independent of sample size. Initial differential scanning calorimetry studies indicate that the addition of the mNPs has minimal impact on the freeze-thaw behavior of the cryoprotectant systems themselves. Then proof-of-principle experiments in aqueous and cryoprotectant solutions demonstrate the ability to heat at rates high enough to mitigate or eliminate devitrification (hundreds of °C/min) and scaled heat transfer modeling is used to illustrate the potential of this innovative approach. Finally, X-ray micro-computed-tomography (micro-CT) is investigated as a planning and quality control tool, where the density-based measurements are able to quantify changes in cryoprotectant concentration, mNP concentration, and the frozen state (i.e. crystallized versus vitrified).

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Mesoporous silica nanoparticles for enhancing the delivery efficiency of immunostimulatory DNA drugs

Tao

Zhu

et al. 2014

Dalton Trans.

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We developed a potential immunostimulatory double-stranded DNA (dsDNA) delivery system by the binding of dsDNA to amino-modified mesoporous silica nanoparticles (MSNs) to form MSN-NH2/dsDNA complexes. Serum stability, in vitro cytotoxicity, cell uptake, and type I interferon-α (IFN-α) induction of MSN-NH2/dsDNA complexes were evaluated. The results showed that MSN-NH2 nanoparticles had no cytotoxicity to Raw 264.7 cells, and MSN-NH2/dsDNA complexes enhanced the serum stability of dsDNA due to the protection by nanoparticles and exhibited a high efficiency of cell uptake due to a small particle size and excellent dispersity. Most importantly, MSN-NH2/dsDNA complexes significantly enhanced the level of IFN-α induction, triggered by cytosolic DNA sensor proteins. Therefore, binding of immunostimulatory DNA to MSNs would play a promising role for enhancing the delivery efficiency of immunostimulatory DNA drugs.

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Recent advancement of decellularization extracellular matrix for tissue engineering and biomedical application

Yang

Dang

2021

Artificial Organs

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With the development of tissue engineering and regeneration medicine, decellularized extracellular matrix (dECMs) has raised a lot of attention as they can provide a natural biochemical environment, availability, and lack of immunogenicity in host tissues. In addition, biologically active molecules, such as growth factors and cytokines can be maintained in the decellularized matrix. Therefore, extracellular matrix (ECM)-based scaffolds are considered as the most similar scaffold to the original tissue. ECMs have been widely used in the field

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Design of Multiway Power Divider by Using Stepped-Impedance Transformers

Bosisio

2012

IEEE Trans. Microwave Theory Techn.

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Yansheng Xu

RF heating of magnetic nanoparticles improves the thawing of cryopreserved biomaterials

Mesoporous silica nanoparticles for enhancing the delivery efficiency of immunostimulatory DNA drugs

Recent advancement of decellularization extracellular matrix for tissue engineering and biomedical application

Design of Multiway Power Divider by Using Stepped-Impedance Transformers

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