UPV/EHU researchers have developed a biomedical device consisting of byproducts from the food industry and which displays excellent properties for use in regenerative medicine. The novel device comprises soy protein and chitin, which form a matrix with a porous, interconnected microarchitecture similar to that of certain body tissues. The work has been published in the June issue of Green Chemistry.
Added to the growing need to develop new therapies for biomedical applications is the social requirement to be environmentally friendly. In this respect, the group of researchers has shown that natural byproducts from the food industry, normally discarded in industrial processes, could be an excellent source of biomaterials for producing biomedical devices.
"It is important to point out that to date, no one has exploited the potential in regenerative medicine displayed by soy protein and chitin blended in a microporous matrix," the researchers write. "As the first milestone in this respect, this novel device incorporates two natural components obtained from the food industry, thus contributing toward the widely called-for social requirement to upgrade waste from production on an industrial level.
The device has also displayed some physico-chemical and mechanical properties suitable for applications in regenerative medicine. What is more, it has also been found to be totally biocompatible, not only in in vitro cell lines, but also in an in vivo murine model. Finally, we have confirmed that this device is capable of hosting a large number of viable stem cells inside it, thus increasing its level of bioactive compound secretion and displaying its potential as a very effective vehicle in cell therapy."
This biotechnological approach may have a potentially successful application in the matrix-based regenerative medicine industry. These devices capable of hosting stem cells are destined to be the revolution, not only in biomedical research but also in everyday clinical practice. "Clinical scenarios as complex as chronic injuries or bone problems need a multifocal approach which combines bioactive matrices with biological agents having regenerative effects," they concluded.
Citation: Sustainable biomedical device for use in regenerative medicine (2020, July 1) retrieved 1 July 2020 from https://ift.tt/2NKznyp
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