Multi-functional bandage helps wounds to heal


May 30, 2022

(Nanowerk News) Researchers at the Technical University of Munich (TUM) have developed a film that not only protects wounds similar to the way a bandage does, but also helps wounds to heal faster, repels bacteria, dampens inflammation, releases active pharmaceutical ingredients in a targeted manner and ultimately dissolves by itself. This is all made possible by its dedicated design and the use of mucins, molecules which occur naturally in mucous membranes. Conventional bandages may be very effective for treating smaller skin abrasions, but things get more difficult when it comes to soft-tissue injuries such as on the tongue or on sensitive surfaces like the intestines. What kind of material will adhere there without damaging the tissue or sticking to adjacent points? How can wounds be protected from external influences and bacteria? What kind of substance will allow cells underneath to close the wound, and then ultimately disappear without a trace? In spite of recent progress in developing materials addressing some of the specific requirements mentioned above, engineering a multifunctional all-in-one solution remains a challenge. A team led by Oliver Lieleg, Professor of Biomechanics at the Technical University of Munich (TUM), has developed a biopolymer film that combines a wide range of different functions at the same time. biomolecular film can be picked up with tweezers When dry, the novel biomolecular film can be picked up with tweezers can easily be placed onto a wound. (Image: Astrid Eckert / TUM) In a recently published study (Advanced Functional Materials, “Multifunctional “Janus-Type” Bilayer Films Combine Broad-Range Tissue Adhesion with Guided Drug Release”), the biomolecular “bandage” showed highly promising results and is ready to undergo further testing and tailoring.

A multi-functional bandage for sensitive surfaces

“When dry, the thin and flexible film can be picked up with tweezers and can easily be placed onto a wound. Upon contact with moist tissue, the bottom side of the film becomes squishy and sticky and adheres to the tissue by itself – without requiring additional fixation,” says Ceren Kimna, first author of the study. Lieleg and his team were able to show that these biomolecular bandages even adhere to smooth surfaces such as cartilage and moist tissue such as tongue without damaging the tissue surface. Covering a skin wound with this film even sped up the healing process. One particular goal of this study was to develop a material combination that completely dissolves by itself after several days without leaving any residues. The researchers were able to demonstrate this aspect in their experiments using high-resolution microscopy images of treated tissue samples.

Different properties on the top and bottom side of the film

The film consists of two layers, making it possible to design each side such that it can perform special tasks. The top side consists of a biodegradable polymer which renders the thin film stable, and it also contains mucins.
Oliver Lieleg, Professor of Biomechanics at the Technical University of Munich, with a model of a mucin. “Mucins are molecules which occur naturally on mucous membranes of our bodies. Here, we have used them for the first time in biomolecular films to support wound healing. They provide important properties to protect the wound during the healing process: They have anti-bacterial properties, dampen inflammation and prevent unwanted cells from colonizing the wound,” explains Professor Lieleg, who has been investigating these molecules for over a decade. The bottom side of the film contains hyaluronic acid, a material well-known for its ability to bind water and to promote the healing of wounds. Other molecules are chemically bound to those hyaluronic acid macromolecules and make sure that the film becomes sticky upon contact with moisture, allowing the film to adhere to a tissue spontaneously. When desired, active pharmaceutical ingredients such as antibiotics can also be integrated into the bottom layer. The two-layer structure makes it possible to release the active ingredients in only one specific direction: towards the wound. Schematic representation of the most important functional principles of a film for woundhealing Schematic representation of the most important functional principles of the newly developed film for woundhealing. (Image: Ceren Kimna / TUM )

Steps towards medical application

To date, the new material combination has been tested on various animal tissue samples. In addition, the team was able to demonstrate accelerated wound healing in animal tests, which is an important step on the way to clinical application. The suitability of the bandage for potential future use with human patients will be examined in additional studies. In the future, these bandages could be optimized for selected application cases and particular types of tissue. Since the films completely dissolve in the presence of moisture, they could also be used in surgery to temporarily protect internal wounds which are afterwards inaccessible, for example after closure of an incision with a suture.



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