Science and Technology
publicado em 28/09/2012 às 11h05:00
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Technology can create medical implants which dissolve in the body

New and biodegradable electronic circuit can be programmed to dissolve in days, weeks or even years

 
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Foto: Fiorenzo Omenetto/Tufts University
Nova tecnologia é biodegradável, compatível com organismos vivos e não deixa rastros
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Nova tecnologia é biodegradável, compatível com organismos vivos e não deixa rastros

Tiny, fully biocompatible electronic devices that are able to dissolve harmlessly into their surroundings after functioning for a precise amount of time have been created by a research team led by biomedical engineers at Tufts University in collaboration with researchers at the University of Illinois at Urbana-Champaign.

Dubbed "transient electronics," the new class of silk-silicon devices promises a generation of medical implants that never need surgical removal, as well as environmental monitors and consumer electronics that can become compost rather than trash.

"These devices are the polar opposite of conventional electronics whose integrated circuits are designed for long-term physical and electronic stability," says Fiorenzo Omenetto, professor of biomedical engineering at Tufts School of Engineering and a senior and corresponding author on the paper "A Physically Transient Form of Silicon Electronics" published in the September 28, 2012, issue of Science.

"Transient electronics offer robust performance comparable to current devices but they will fully resorb into their environment at a prescribed time ranging from minutes to years, depending on the application," Omenetto explains. "Imagine the environmental benefits if cell phones, for example, could just dissolve instead of languishing in landfills for years."

The futuristic devices incorporate the stuff of conventional integrated circuits -- silicon and magnesium -- but in an ultrathin form that is then encapsulated in silk protein.

"While silicon may appear to be impermeable, eventually it dissolves in water," says Omenetto. The challenge, he notes, is to make the electrical components dissolve in minutes rather than eons.

Researchers led by UIUC's John Rogers -- the other senior and corresponding author -- are pioneers in the engineering of ultrathin flexible electronic components. Only a few tens of nanometers thick, these tiny circuits, from transistors to interconnects, readily dissolve in a small amount of water, or body fluid, and are harmlessly resorbed, or assimilated. Controlling materials at these scales makes it possible to fine-tune how long it takes the devices to dissolve.

Device dissolution is further controlled by sheets of silk protein in which the electronics are supported and encapsulated. Extracted from silkworm cocoons, silk protein is one of the strongest, most robust materials known. It' s also fully biodegradable and biofriendly and is already used for some medical applications. Omenetto and his Tufts colleagues have discovered how to adjust the properties of silk so that it degrades at a wide range of intervals.

The researchers successfully demonstrated the new platform by testing a thermal device designed to monitor and prevent post-surgical infection (demonstrated in a rat model) and also created a 64 pixel digital camera.

Source: Isaude.net
   Palavras-chave:   Electronic circuit    Medical implants    Tufts University    Fiorenzo Omenetto   
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