Sustainable biomedical textiles forfuture
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Sustainable biomedical textiles for the future

11:16 AM, 1st July 2017
Sustainable biomedical textiles for the future
A human muscle cell is growing on a fleece made from micrometer-thin polymer fibers. In this way, the synthetic membrane can be biologically camouflaged, which means that it looks like a normal blood vessel to the immune system.

The textile and clothing industry has a long history in Switzerland. In order to remain competitive in the international market, the industry relies on innovations. The "SUBITEX – Sustainable Biomedicine Textiles" research initiative was set up by EMPA and Swiss Textiles, the Swiss textile industry association, for this very purpose. The industry is working together to promote innovations in the field of biomedical textiles, and to bring them to the market more rapidly.

Textiles are especially suitable for use on and in the human body. The body itself consists of many fibres too, including muscle, tendon and nerve fibre. Textiles can also be used to make copies of entire organs or parts of them. One current example of this is a major project involving EMPA, called "Zurich Heart": under the aegis of the Zurich University Medicine initiative, in collaboration with the University Hospital, the University and ETH (Swiss Federal Institute of Technology) Zurich, EMPA researchers are developing an artificial heart pump. This will include a fleece textile with a layer of heart muscle cells, which will not be detected by the blood as a foreign body.

"We need to say goodbye to the idea that the development of textiles revolves around cotton T-shirts,” said Rene Rossi, Subitex project manager and head of EMPA's Biomimetic Membranes and Textiles lab. Instead, according to Rossi, their research is focused on a very wide range of ceramic, metal, wood and synthetic fibre.

"A textile is not just a cloth either, but rather a two-dimensional entity derived from a one-dimensional material: a fibre," he added. The entities derived from this are flexible, malleable, stretchable, and light knitted, woven, or crocheted fabrics.

Many Swiss textile companies have also recognised this, successfully transforming themselves into specialist manufacturers of highly technical and high-quality products.

For this, EMPA has developed optical fibre that are used in hospitals to measure the vital functions of premature babies, or as biosensors with pH-sensitive fibre to monitor wounds. Other examples of applications include textile pressure sensors that can be installed in wheelchairs, for instance, in order to show incorrect pressure loads; textile plasters that release medication in a targeted way; and a wettable chest strap that can be reliably used for long-term monitoring of electrocardiograms for cardiovascular patients.

A research initiative with 15 industrial partners

In order to promote further innovations and make even better use of the vast all-round potential of textiles, EMPA and the Swiss industrial association, Swiss Textiles, established the "SUBITEX" research initiative two years ago. The development and use of innovative materials, fibre, fabrics and processes should assure Swiss textile companies a long-term competitive advantage in the global market. As part of this initiative, ten projects co-financed by the Commission for Technology and Innovation (KTI) have already been launched. Fifteen textile companies have now joined the initiative, including Flawa AG, Cilander, E Schellenberg Textildruck AG, Mammut Sports Group, Schoeller Textil AG, Serge Ferrari Tersuisse AG and TISCA Tischhauser & Co AG.

So that it can pass on, even more, textile expertise to Subitex partners, Empa has invested part of the financial contributions from Subitex in the "Self-care materials" research program of the Competence Center for Materials Science and Technology (CCMX) of the ETH domain. The CCMX program is a mix of basic and industrial research and is extremely lucrative, because the Swiss National Fund (SNF) contributes the same amount to the program as that contributed by the industry.

For this purpose, EMPA's electrospinning and microfluidics systems develop fibre systems from smart polymers. These systems respond to external influences such as temperature, pH value, humidity or pressure. Today's systems use small, passive capsules that can only release substances by decomposing. What makes self-care materials special is that their innovative fibre systems release substances in a targeted way over a specific period of time when they are "activated". Very small fibre made from smart polymers can be used not only in biomedical textiles and fabrics but also in packaging films for the food industry.

© EMPA News

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