Mike Duclos sets up two disinfecting “robots,” machines that vaporize hydrogen peroxide to fill sealed rooms and disinfect all surfaces at Johns Hopkins Hospital in Baltimore. The machines help prevent superbug infections.

BALTIMORE — Even as epidemiologists worry about a shrinking arsenal of antibiotics to fight potentially deadly drug-resistant bacteria, researchers at Johns Hopkins Hospital are betting on another weapon to prevent infections: robots.

It sounds more futuristic than it looks: The hospital uses “robot” devices resembling portable air-conditioning units to saturate the air in sealed rooms with hydrogen peroxide, disinfecting all surfaces before converting the potent mist into water vapor. The technology has been used at the hospital more than 4,000 times over the past five years, with promising results.

Research published in Oxford University's Clinical Infectious Diseases journal explains that patients admitted to rooms disinfected by the robots were nearly two-thirds less likely to pick up drug-resistant bacteria while in the hospital. The finding builds on a growing understanding of the ways the so-called “superbug” bacteria spread through hospital environments and how to prevent infections.

Overuse of antibiotics has caused some strains of bacteria to develop immunity to common treatments, prompting doctors to turn to more powerful antibiotics or older ones that bacteria haven't faced in decades. Meanwhile, public health experts are using other methods to prevent the bacteria from spreading and to stop infections, particularly those acquired in hospitals and other health care settings.

The focus has been on health care workers themselves, ensuring they don't carry bacteria into operating rooms and intensive-care units. But the Hopkins study, like other types of technology being tested at hospitals around the country, targets bacteria that survive on surfaces, waiting to be transferred to sterile dressings, instruments and, ultimately, patients.

“If you had talked to me maybe seven or eight years ago, we would have discounted the role of the environment as important in transmission,” said Dr. Trish Perl, senior epidemiologist for Johns Hopkins Health System and one of the authors of the study. “The whole concept of the role of the environment as important in how these organisms are transmitted to patients and from patient to patient has really emerged.”

Hopkins researchers spent 2½ years testing the robot technology in 2007-2009. The hospital bought several $40,000 pairs of the disinfecting robots from Bioquell and hired the United Kingdom-based company to operate them. The robots are in use in about 20 U.S. hospitals and more around the world, with about 1,000 patient rooms cleaned every month, said Mike Duclos, a Bioquell technician who helped perform the Hopkins study.

In each set, one robot fills a hospital room or unit with hydrogen peroxide mist; once the air has been saturated with the concentrated chemical, a second robot releases a catalyst that reacts with the hydrogen peroxide to turn it into water.

Bioquell crews seal up heating and cooling vents, doorways and cracks to keep the chemical in and to ensure it can saturate the room, a process that can take from an hour and a half to three hours, depending on the humidity that day. Because the mist is produced on a microscopic level, it doesn't leave any visible moisture behind and is safe to use on electronics.

The researchers tested the technology's effectiveness by collecting data on more than 8,800 patients at the hospital. In some cases, the robots were used to disinfect the room after normal cleaning was performed.

Researchers found that one-third as many patients acquired Staphylococcus aureus bacteria, also known as MRSA, in rooms that the robots had disinfected as in rooms they had not. When testing for a different type of bacteria, vancomycin-resistant enterococci, nearly seven times as many patients acquired the bacteria in rooms that had not been treated by the robots.

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