Publications by authors named "Mohsen Mashhadi Keshtiban"
Injectable in situ-forming scaffolds that induce both angiogenesis and osteogenesis have been proven to be promising for bone healing applications. Here, we report the synthesis of an injectable hydrogel containing cobalt-doped bioactive glass (BG)-loaded microspheres. Silk fibroin (SF)/gelatin microspheres containing BG particles were fabricated through microfluidics.
View Article and Find Full Text PDFOrgan-on-a-chip (OoC) is one of the most popular microfluidic chips and possesses various industrial, biomedical, and pharmaceutical applications. So far, many types of OoCs with different applications have been fabricated, most of which contain porous membranes useful as cell culture substrates. One of the challenging parts of OoC's chips is porous membrane fabrication, making it a complex and sensitive process, which is an issue in microfluidic design.
View Article and Find Full Text PDFArticle Synopsis
- The development of a new microfluidic device addresses challenges in producing microgels, particularly clogging due to changing viscosity of solutions.
- The device features dual coflow geometries and a shielding oil phase, which prevents simultaneous emulsification and gelation, ensuring smoother operations.
- Experimentation demonstrated that the device successfully creates uniform droplets and can generate alginate microgels effectively, supporting its usefulness in biological and pharmaceutical fields.