Cool Future Tech: Heart Pacemaker Powered By The Heart Itself

A mini-medical machine could mean a new power scheme for cardiac pacemakers. Rather than use batteries, engineering researchers at the University of Michigan say they can use vibrations from heartbeats themselves. Their new device is designed to harvest energy from the reverberation of heartbeats through the chest and convert those to electricity to run a pacemaker or an implanted defibrillator. By taking the place of the batteries that power them today, the new energy harvester could save patients from repeated surgeries - the only way today to replace the batteries, which last five to 10 years.

A mini-medical machine could mean a new power scheme for cardiac pacemakers. Rather than use batteries, engineering researchers at the University of Michigan say they can use vibrations from heartbeats themselves.

Their new device is designed to harvest energy from the reverberation of heartbeats through the chest and convert those to electricity to run a pacemaker or an implanted defibrillator. By taking the place of the batteries that power them today, the new energy harvester could save patients from repeated surgeries - the only way today to replace the batteries, which last five to 10 years.

They have blueprints and run simulations demonstrating that the concept would work, now they just need to build one. It involves a hundredth-of-an-inch thin slice of a special piezoelectric ceramic material would essentially catch heartbeat vibrations and briefly expand in response. Piezoelectric materials' claim to fame is that they can convert mechanical stress (which causes them to expand) into an electric voltage.

"The idea is to use ambient vibrations that are typically wasted and convert them to electrical energy," said Amin Karami, a research fellow in the U-M Department of Aerospace Engineering. "If you put your hand on top of your heart, you can feel these vibrations all over your torso."

Karami and his colleague Daniel Inman, chair of Aerospace Engineering at U-M, have engineered the ceramic layer to a shape that can harvest vibrations across a broad range of frequencies. They also incorporated magnets, whose additional force field can drastically boost the electric signal that results from the vibrations.

The new device could generate 10 microwatts of power, which is about eight times the amount a pacemaker needs to operate, Karami said. It always generates more energy than the pacemaker requires, and it performs at heart rates from 7 to 700 beats per minute. That's well below and above the normal range.

Karami and Inman originally designed the harvester for light unmanned airplanes, where it could generate power from wing vibrations.

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