Chrome 2001
Aetna Intelihealth InteliHealth Aetna Intelihealth Aetna Intelihealth
. .
Chrome 2001
Chrome 2001
Health News Health News
Implanted Devices Might Someday Run on Energy From Nearby Organs
January 21, 2014


TUESDAY, Jan. 21, 2014 (HealthDay News) -- In the future, lifesaving pacemakers, defibrillators and other implantable devices might be powered not by limited-lifespan batteries but by the limitless energy generated by the movement of a patient's own bodily organs, new animal research suggests.

The idea is to safely stitch electricity-converting materials directly onto the surface of the heart, lungs and diaphragm to draw upon the endless power that is naturally produced as each organ continuously contracts and relaxes.

The result would be a never-ending supply of juice that researchers say will eliminate the current need for invasive, risky and expensive battery-replacement surgery.

"Once a pacemaker's battery is depleted, you have to perform an operation to replace it," said study co-author John Rogers, a professor in the departments of bioengineering and materials science and engineering at the University of Illinois. "The same is true of many kinds of devices, and it's obviously not ideal.

"Over the years, people have been thinking a lot about many different possible ways we could harvest power from the body itself," Rogers added. "Some have looked at glucose [breakdown], others at the exploitation of tiny temperature changes in the body. We focused our effort on the energy generated by motion. And now, by working with living cows, sheep and pigs, we have been able to demonstrate that this can work."

Rogers and his colleagues discussed their findings in the Jan. 21 issue of the journal Proceedings of the National Academy of Sciences.

To explore motion-produced electricity, the study authors relied on the dynamics of "piezoelectricity." This refers to the ability of certain materials to build up an electrical charge when exposed to pressure.

In this case, the material at hand was lead zirconate titanate, or PZT, a so-called "nanoribbon" substance that is film-thin and completely flexible and bendable.

The research team placed strips of PZT on thin, flexible plastic. The end result, Rogers said, was plastic-wrap-like sheets with a total thickness equivalent to about one-third of a piece of paper.

The energy-harvesting sheets were then sutured onto the surfaces of the hearts, lungs and diaphragms of living cows, sheep and pigs, whose organs are about the same size as human organs.

Such PZT attachments did not appear to interfere in any way with the normal function of the targeted organs, Rogers and his colleagues said. And after linking the PZT sheets to both AC/DC conversion devices and micro-batteries, the researchers were able to capture and store enough electrical power to meet or exceed the requirements of standard implantable devices.

"This won't be available for practical use anytime soon," Rogers said. "We did show it works in the real world, but this was only in animal models. We have not yet operated any device for an extended period of time with the chest closed and the animals no longer anesthetized."

Rogers said more research is needed before the device can clear regulatory hurdles. One concern is how well the body reacts to a foreign material.

"I don't see any biocompatibility issues so far, and I am optimistic," Rogers said. "But we have to show long-term viability in animals before they ever go into humans. So far we have shown it lasts for ... half a day or so, but we will have to show that this method will generate sufficient electricity for at least a decade, because if not, there's no point."

Although the findings of the new study appear promising, scientists note that research involving animals often fails to produce similar results in humans.

For his part, Daniel Inman, chairman of the department of aerospace engineering at the University of Michigan, said his own work in the field has given him a firm belief that body-generated energy will eventually be a reality with broad practical applications.

"The technology is certainly viable," Inman said. "Yes, there are risks. For instance, with the pacemaker example, we clearly have to know for certain ... the device won't fatigue and fail any faster than a battery-powered device."

"And biocompatibility has to be a top priority," he said, "because we all know the body can reject things, and we have to work to address any such concerns."

"Having said that, there's no question that there's certainly a need and demand," Inman said. "As anyone who has to undergo an operation every seven or 10 years to have a dying battery replaced knows, surgery is a big deal. If you tell them this method would mean they don't have to do that anymore, that is something they definitely want."

More information

To learn more about pacemakers and other implantable devices, visit the U.S. National Library of Medicine.Copyright © 2014 HealthDay. All rights reserved.

SOURCES: John Rogers, Ph.D., professor, departments of bioengineering and materials science and engineering, University of Illinois, Urbana-Champaign; Daniel Inman, Ph.D., chairman and Clarence "Kelly" Johnson professor, department of aerospace engineerin...

More News
InteliHealth .
General Health News
Today's News
Today In Health History
This Week In Health
Addiction News
Allergy News
Alzheimer's News
Arthritis News
Asthma News
Babies News
Breast Cancer News
Bronchitis News
Cancer News
Cervical Cancer News
Children's Health News
Cholesterol News
Dental/Oral Health News
Depression News
Diabetes News
Ear, Nose And Throat News
Environmental Health News
Eye News
Fitness News
Genetics News
Headache News
Health Policy News
Heart Attack News
Heart Failure News
Heart Health News
Infectious Diseases News
Influenza News
Lung Cancer News
Medication News
Men's Health News
Mental Health News
Multiple Sclerosis News
Nutrition News
Parkinson's News
Pregnancy News
Prostate Cancer News
Senior Health News
Sexual/Reproductive Health News
Sexual dysfunction
Sleep News
STDs News
Stroke News
Tobacco Cessation News
Weight Management News
Women's Health News
    Print Printer-friendly format    
This website is certified by Health On the Net Foundation. Click to verify.