They explain that almost every fourth person who eventually dies of cancer has a hollow organ tumour, for example in the bile duct or in the oesophagus. Such a tumour cannot usually be removed surgically. It is only possible to open the hollow organ for a short time using a stent – a tube-shaped prosthesis. However, the tumour grows back and penetrates the hollow organ through the stent.
The new technology has been developed by Ioana Slabu from Aachen’s Institute of Applied Medical Technology and Benedict Bauer from the Institute of Technical Textiles.
When electromagnetic fields are applied to the stent, its nanoparticles lead to a controlled heating. Because the tumour reacts much more sensitively to heat than healthy tissue, it is destroyed and the hollow organ remains open, creating a self-cleaning effect.
“Not only can we drastically reduce treatment costs, but above all we can provide relief for millions of patients worldwide,” explains Slabu.
A manufacturing process and proof of concept for magnetic hyperthermia are already in place and the technology has a very high development potential because it can also be used for tumours in other parts of the body such as the prostate, stomach, intestine or urinary bladder, or for cardiovascular diseases.
Read the original article on Innovation in Textiles.