For Immediate Release: October 6, 2016
Society for Healthcare Epidemiology of America
Contact: Tamara Moore / tmoore@thereisgroup.com / 202-868-4008
Author contact: Johanna Harvey / Johanna.Harvey@uphs.upenn.edu / 215-349-8062

UV Light Disinfection Significantly Reduces Clostridium difficile Incidence

New research shows automated UV light device curbs CDI by 25 percent

NEW YORK (October 6, 2016) – Ultraviolet C light disinfection to clean unoccupied patient rooms significantly reduced C. difficile infections (CDI) in high-risk patients who later occupied those rooms, according to a study published today in Infection Control & Hospital Epidemiology, the journal of the Society for Healthcare Epidemiology of America. The no-touch device, used after patients with CDI were discharged from the hospital, also resulted in substantial healthcare savings, estimated between $350,000 and $1.5 million annually. 

“UV light disinfection is a fast, safe, and effective technology to reduce the risk of C. difficile infection associated with the hospital environment,” said David Pegues, MD, lead author of the study and a professor of Medicine in the Perelman School of Medicine at the University of Pennsylvania. “The success of this technology is dependent on Environmental Services employees as a critical partner in our ongoing efforts to eliminate hospital-acquired infections such as C. difficile and to improve patient safety.”

The study was conducted in three hematology-oncology units at the Hospital of the University of Pennsylvania during a one-year period (February 2014-January 2015). Results showed that adding UV disinfection to typical disinfection protocols reduced the incidence of CDI by 25 percent among new patients in these units, compared to the prior year. At the same time, CDI rates increased 16 percent in the non-study units during this period. The team found that using the ultraviolet robot after a room cleaning by members of the Environmental Services team not only reduced the number of infections, but did so without adversely impacting room turnaround time. According to this study, room cleaning took only five minutes longer on average compared to non-study units.

“These findings have real implications for both health systems and patients. The effectiveness and efficiency of UV-C robots make it a practical and cost effective technology that will benefit hospitals around the country and save people’s lives,” said Pegues.

The technique, known as ultraviolet wavelength C germicidal irradiation, uses short-wavelength ultraviolet light to kill microorganisms. CDI is one of the most common healthcare-acquired infections in the United States and is associated with serious complications. It is resistant to many surface disinfectants and can persist on surfaces, making it an ongoing risk for transmission to patients.

While the UV disinfection device proved to be effective at reducing CDI incidence, it showed no effect on other healthcare-associated infections, such as methicillin-resistant Staphylococcus aureus (MRSA).

###

David Pegues, Jennifer Han, Cheryl Gilmar, Brooke McDonnell, Steven Gaynes. “Impact of Ultraviolet Germicidal Irradiation for Terminal Room Disinfection on C. difficile Infection Incidence among Hematology Oncology Patients.” Web (October 6, 2016).

About ICHE
Published through a partnership between the Society for Healthcare Epidemiology of America and Cambridge University Press, Infection Control & Hospital Epidemiology provides original, peer reviewed scientific articles for anyone involved with an infection control or epidemiology program in a hospital or healthcare facility. ICHE is ranked 13th out of 158 journals in its discipline in the latest Web of Knowledge Journal Citation Reports from Thomson Reuters.

SHEA is a professional society representing physicians and other healthcare professionals around the world with expertise and passion in healthcare epidemiology, infection prevention, and antimicrobial stewardship. SHEA’s mission is to prevent and control healthcare-associated infections, improve the use of antibiotics in healthcare settings, and advance the field of healthcare epidemiology. SHEA improves patient care and healthcare worker safety in all healthcare settings through the critical contributions of healthcare epidemiology and improved antibiotic use. The society leads this specialty by promoting science and research, advocating for effective policies, providing high-quality education and training, and developing appropriate guidelines and guidance in practice. Visit SHEA online at www.shea-online.org, www.facebook.com/SHEApreventingHAIs and @SHEA_Epi

About Cambridge Journals
Cambridge University Press publishes over 350 peer-reviewed academic journals across a wide spread of subject areas, in print and online. Many of these journals are leading academic publications in their fields and together form one of the most valuable and comprehensive bodies of research available today.

For further information about Cambridge Journals, visit journals.cambridge.org

About Cambridge University Press
Cambridge University Press is part of the University of Cambridge. It furthers the University’s mission by disseminating knowledge in the pursuit of education, learning and research at the highest international levels of excellence.

Its extensive peer-reviewed publishing lists comprise 45,000 titles covering academic research, professional development, over 350 research journals, school-level education, English language teaching and bible publishing.

Playing a leading role in today’s international market place, Cambridge University Press has more than 50 offices around the globe, and it distributes its products to nearly every country in the world.

For further information about Cambridge University Press, visit cambridge.org