Jun 152011
 

Electricity controls much of the human body: consider the electrical firing of neurons and the current transmitted by the heart. Yet historically the electrodes that have been used in medicine to monitor and regulate essential activity have been biologically incompatible because they are stiff, big and water-sensitive.

Now scientists are setting new standards with their designs for flexible, stretchable and waterproof circuits and electrodes that mimic the properties of human tissues. These new methods can also monitor and control biological electrical activity more naturally and easily. John A. Rogers, a materials scientist at the University of Illinois at Urbana-Champaign, has developed a technique that thinly slices silicon wafers or LEDs with a chemical etcher. Then, to make them stretchy as well as flexible, he bends them into wavelike shapes and attaches them to rubber platforms. Finally, Rogers waterproofs them by encapsulating them in a polymer. The resulting electrodes “can wrap onto the surface of a tissue almost like a sheet of Saran Wrap,” he says.

He recently used this technique to develop a tool for treating atrial fibrillation, a cardiac arrhythmia that afflicts two million Americans.  The research was published in March in Nature Materials (a journal of Nature Publishing Group, which owns Scientific American). To identify the location of an arrhythmia, surgeons typically insert a catheter containing a single electrode into a vein and coax it up to the heart. There it tracks electrical activity in a process that can take up to an hour. Finally, with a separate catheter, they fix the arrhythmia by burning the malfunctioning tissue.

“That mapping and zapping procedure is time-consuming, has limited accuracy and requires a lot of skill in the surgeon,” Rogers says. He has developed a simpler solution: a balloon catheter covered in stretchy electrodes that can be inserted into a vein in the leg or chest, moved up inside the heart and inflated. There it simultaneously takes dozens of electrical readings and also monitors blood flow, tissue contact and body temperature. In Rogers’s latest models, the balloon can also perform the curative ablation itself.

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