Medication you can wear

Drug equipped polymer fibres

Drug-releasing textiles could, for instance, be used to treat skin wounds. Empa researchers are currently developing polymer fibres that can be equipped with drugs. The smart fibres recognize the need for therapy all by themselves and dose the active ingredients with precision and accuracy.

Smart wound patches, inrtelligent patches can now be provided with a sensor : Dr. Claudio Toncelli, Team Head of Optofluidics at Empa in St. Gall, has developed a liquid sensor who early of a bad wound healing. integrated into the wound healing dressing, it flashes as soon as the wound has reached a critical value of glucose . With UV radoation and UV light and a portable measuring metre the fluorescent can be measured. The content of sugar becomes a decisive bio-marker to cure demanding wounds such as burns or skin dammages surveying and healing a long time laying in bed with the aim to develop a multisensor patch for industrial production and coveing multitask functions as bio-markers. Picture Empa

For the «Self Care Materials» project, fibres are produced from biodegradable polymers using various processes. «The targeted use of the fiber determines which manufacturing process is best,» explains Empa researcher and project coordinator René Rossi. Delicate, light membranes with a large surface are formed during so-called electrospinning. If robust fibres are required, e.g. for protective clothing, it is better to draw the melted ingredients. In the end, all processes produce novel fibres, the nano-architecture of which is made up of several layers and components. «The properties of these new materials are currently being investigated with test substances,» says Rossi. In the finished product, for example, antibiotics or painkillers are to be integrated into the fibres.

In order to ensure that the dosage of the active substances is precisely as needed, the researchers have devised a tricky control mechanism: Some polymers are degradable by the body under certain conditions. This property can be used specifically. Rossi: «In response to a stimulus from the body, the fibres should release their drugs into the environment at a calculated degradation rate.» Such an irritation can be the altered pH value of a skin wound, which indicates that the tissue damage must be treated. As a so-called self-care material, the fibres in the form of a plaster or garment thus support the diagnosis and treatment of diseases.

«The use of self-care fibres is conceivable for an enormous number of applications,» says Rossi. In addition to chemical signals from the body, however, stimuli can also be used that are deliberately set from the outside to control the release of medication by the fibres. Textiles or dressings that release a remedy under slight pressure or a stimulus of light can contribute to the quality of life of patients and at the same time relieve the burden on health care staff.

The system can also be used for preventive measures. The idea behind it: Where active substances can be released, substances are also able to penetrate the fiber in the opposite direction. ”Thus, the fibres can act as sensors and, for instance, measure the sugar level in the blood,» explains Rossi. In the case of premature babies, the sugar balance is particularly likely to be out of balance. With the help of such sensors, blood sugar can be monitored painlessly through the tender skin without the babies having to suffer from a prickly blood sample.

For the CCMX project, the team of Empa and EPFL scientists is conducting joint research into the further development of smart medical fibres until 2020. 20 companies have so far been won as industrial partners, including Syngenta and – as the latest addition – Nanosurf from Liestal. The industry association Swiss Textiles and the research initiative of the Swiss textile manufacturers Subitex are also involved in the project.

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