In the amazing fusion of ancient fermentation and cutting -edge technology, researchers turned the bacterial membrane of Cumpa Tea into a powerful new tool for repairing damaged tissues. The innovation developed by scientists from the University of Science and Technology of Seoul may completely change how doctors treat complex wounds and injuries.
“We from the prefabricated nano -cellulose hydrogel network, which we are trained by bacteria and yeast symbiosis, may be used as platform biology for organizational engineering in the body by loading all types of biomolecules and drugs, and directly biometric lines.”
The group uses the natural cellulose produced by the bacteria of Cumpa Tea and the SCOBY (Scoby) to create a biological interconnection of biological interconnection that can use special digital biology. The biological world can directly carry live cells and healing compounds directly into damaged tissues.
This method is different from its adaptability to irregular wounds. Surgeons use handheld biological startup devices. Regardless of their shapes or depth, surgeons can directly “draw” new organizations. The structure of biology also provides the ideal environment for cell growth and forming new tissues.
Researchers enhanced cellulose materials with shell polycan and kaolin particles, forming a stable gel suitable for 3D biological printing. Their digital biopsy uses two anti -rotating screws evenly mixing the ingredients, so as to generate uniform biological interconnection that can be applied by acupuncture.
This technology can provide a cost -effective solution for treating large or irregular wounds without laboratory organization regeneration. NOH explained: “This technology allows mixing drugs and hydrogels, and immediately applied to injured areas of different shapes at the scene.”
The results of the research were published in the “International Biological Magazine Magazine”, marking an important step in the field of regeneration medicine. The team is now conducting long -term research and internal experiments to further develop this promising technology.
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