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OhioHealth and IBM announce a collaboration to aid in the prevention of infections using a network of wireless sensors and real-time Big Data analytics that measure handwashing practices. OhioHealth will use the technology to provide hospital administrators with real-time data that can be used to reduce healthcare-associated infections (HAIs) like methicillin-resistant Staphylococcus aureus (MRSA) and Clostridium difficile, which affect 1 in every 20 patients in U.S. healthcare facilities. Already, the pilot project in Columbus has achieved more than 90 percent compliance with handwashing standards a 20 percent jump over its previous practices and well above the 50 percent national compliance level.
The newly installed IBM technology at one of its Columbus hospitals provides OhioHealth's hospital staff with new information and observations that were not available before. Analyzing handwashing data gives stakeholders deep insights into the compliance levels of different departments, shifts, job roles, as well as variations based on other social behavioral factors. The real-time information is used to alert hospital personnel when proper hygiene habits are not being followed so that corrective action can be taken to reduce germ exposure to patients.
"OhioHealth is always looking for smarter ways to protect the health of our patients," said Michael Krouse, senior vice president and CIO of OhioHealth.Â "Superbugs like MRSA can live for hours on surfaces, and we want to do everything we can to protect our patients from these kinds of serious infections.Â Working with IBM, we will gain additional insights that will help us consistently achieve total compliance with handwashing standards and fight back against these bugs."
The IBM customized technology was recently deployed at an OhioHealth hospital in Columbus.Â The system is installed at all handwashing stations and measures the handwashing compliance of hospital staff through radio frequency identification (RFID) technology that is integrated with a mesh network of wireless sensors that collect data that is then analyzed by IBM's system.Â The system has improved the quality and accuracy of tracking data and delivers compliance information to hospital administrators 100 times faster than the hospital's previous surveillance methods.
"Hospitals everywhere are grappling with ways to prevent infections, and we believe OhioHealth's forward-thinking approach will raise the bar for the entire industry," says Dr. Sergio Bermudez, an IBM research scientist. "Innovative organizations like OhioHealth are leveraging the power of technology to provide smarter care for their patients to improve quality while reducing cost."
The joint effort of OhioHealth, IBM Research and IBM Global Business Services represents a milestone in how healthcare facilities can more efficiently track their progress in hand hygiene promotion, plan for improvements and set new goals.
The solution developed by IBM Research and OhioHealth combines two technologies to measure and analyze hand hygiene:
- Handwashing Sensors: Developed by IBM Research, Low-power Mote Technologies (LMT) with built-in RFID capabilities measure and control physical systems, such as hand-washing stations. The LMT sensors are located at hand-washing stations in patient rooms and hallways, and are connected through a wireless mesh network. They capture time-stamped information on use of each hand washing station. They also detect when hospital staff enter or exist patient rooms and, thanks to their RFID technology, they are able to identify healthcare workers.
- Data Analytics: Measurement and Managements Technologies (MMT) were created by IBM researchers to collect, manage and process real-time data.Â The handwashing data is streamed via cloud technology to the MMT where it is analyzed and stored to be used for on-demand reports, presentations and compliance studies.Â The analytics use the raw data streamed by the motes to determine whether or not handwashing events took place.Â The on-demand data can be used to estimate compliance levels, trends and correlations for different departments, shifts and job roles.