This nanozyme@DNA hydrogel architecture may have a great potential for the utilization of nanozymes as well as the application of nanozymes for biomedical analysis in complex physiological samples.doi:10.1007/s12274-016-1354-9Xiaoli ZhuCenter for Molecular Recognition and Biosensing, School of Life ...
Hydrogel microparticles (HMPs) are promising for biomedical applications, ranging from the therapeutic delivery of cells and drugs to the production of scaffolds for tissue repair and bioinks for 3D printing. Biologics (cells and drugs) can be encapsulat
All of these advantages have made silk hydrogels increasingly attractive. In addition, silk hydrogels have wide prospects for application in the field of biomedical materials. 2015 American Institute of Chemical Engineers Biotechnol. Prog ., 31:630–640, 2015 展开 ...
The cyclodextrin (CD) based host–guest inclusion complexation between cyclodextrins (CDs) and guest moieties has inspired the fabrication of novel supramolecular hydrogels for biomedical applications. From a topology of view, this article reviews the recent developments of two kinds of CD-based supramol...
Bioactive Hydrogel Platforms for Spatiotemporal Delivery of Baculoviruses in Biomedical Applicationsbaculovirusgene deliveryhydrogelsnanodeliveryregenerative medicineBaculoviruses offer a multitude of advantages over other gene carriers due to their non﹑athogenicity and inability to replicate in mammalian cells, ...
and they were found to play an important role in drug delivery, mesenchymal stem cell (MSC) carrier, and other tissue engineering.99,100However, the poor biodegradability and potential toxic effect of such two hydrogels on cells still impeded their development and application in biomedical field....
with magnetic nanocomposites showed that the products can be a good candidate for biomedical application due to their in vitro biocompatibility and non-... A Mohammadi,M Barikani,M Barmar - 《Journal of Materials Science》 被引量: 61发表: 2013年 Clay minerals for nanocomposites and biotechnology...
Extensive employment of these products in a number of industrial and environmental areas of application is considered to be of prime importance. As expected, natural hydrogels were gradually replaced by synthetic types due to their higher water absorption capacity, long service life, and wide ...
Poly(2-hydroxyethyl methacrylate) (PHEMA) was the first hydrogel for biomedical applications in 1960s [1]. To date these gels have been largely employed in biomedical applications [13], [14] and as separation or adsorption matrixes for various metal ions [15], [16]. However, many of their...
Transcutaneous electrical nerve stimulation: mechanisms, clinical application and evidence. Rev. Pain 1, 7–11 (2007). Article Google Scholar Akhtar, A., Sombeck, J., Boyce, B. & Bretl, T. Controlling sensation intensity for electrotactile stimulation in human-machine interfaces. Sci. Robot....