Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by Crossref.
Mazdeyasna, Hasti
Nori, Priya
Patel, Payal
Doll, Michelle
Godbout, Emily
Lee, Kimberly
Noda, Andrew J.
Bearman, Gonzalo
and
Stevens, Michael P.
2020.
Antimicrobial Stewardship at the Core of COVID-19 Response Efforts: Implications for Sustaining and Building Programs.
Current Infectious Disease Reports,
Vol. 22,
Issue. 9,
2020.
Impact of COVID-19 on Traditional Healthcare Associated Infection Prevention Efforts – CORRIGENDUM.
Infection Control & Hospital Epidemiology,
Vol. 41,
Issue. 10,
p.
1249.
Kampmeier, Stefanie
Tönnies, Hauke
Correa-Martinez, Carlos L.
Mellmann, Alexander
and
Schwierzeck, Vera
2020.
A nosocomial cluster of vancomycin resistant enterococci among COVID-19 patients in an intensive care unit.
Antimicrobial Resistance & Infection Control,
Vol. 9,
Issue. 1,
Monnet, Dominique L
and
Harbarth, Stephan
2020.
Will coronavirus disease (COVID-19) have an impact on antimicrobial resistance?.
Eurosurveillance,
Vol. 25,
Issue. 45,
Bhattacharya, Sanjay
2020.
Positive aspects of the COVID-19 pandemic.
Journal of The Academy of Clinical Microbiologists,
Vol. 22,
Issue. 1,
p.
2.
Nori, Priya
Cowman, Kelsie
Chen, Victor
Bartash, Rachel
Szymczak, Wendy
Madaline, Theresa
Punjabi Katiyar, Chitra
Jain, Ruchika
Aldrich, Margaret
Weston, Gregory
Gialanella, Philip
Corpuz, Marilou
Gendlina, Inessa
and
Guo, Yi
2021.
Bacterial and fungal coinfections in COVID-19 patients hospitalized during the New York City pandemic surge.
Infection Control & Hospital Epidemiology,
Vol. 42,
Issue. 1,
p.
84.
Unterfrauner, Ines
Hruby, Laura A.
Jans, Peter
Steinwender, Ludwig
Farshad, Mazda
and
Uçkay, Ilker
2021.
Impact of a total lockdown for pandemic SARS-CoV-2 (Covid-19) on deep surgical site infections and other complications after orthopedic surgery: a retrospective analysis.
Antimicrobial Resistance & Infection Control,
Vol. 10,
Issue. 1,
Geng, JinSong
Yu, XiaoLan
Bao, HaiNi
Feng, Zhe
Yuan, XiaoYu
Zhang, JiaYing
Chen, XiaoWei
Chen, YaLan
Li, ChengLong
and
Yu, Hao
2021.
Chronic Diseases as a Predictor for Severity and Mortality of COVID-19: A Systematic Review With Cumulative Meta-Analysis.
Frontiers in Medicine,
Vol. 8,
Issue. ,
Miltgen, Guillaume
Garrigos, Thomas
Cholley, Pascal
Deleume, Marine
Allou, Nicolas
Allyn, Jérôme
Wilkinson, David A.
Lugagne, Nathalie
Belmonte, Olivier
Bertrand, Xavier
Hocquet, Didier
and
Mavingui, Patrick
2021.
Nosocomial cluster of carbapenemase-producing Enterobacter cloacae in an intensive care unit dedicated COVID-19.
Antimicrobial Resistance & Infection Control,
Vol. 10,
Issue. 1,
Sun Jin, Louisa
and
Fisher, Dale
2021.
MDRO transmission in acute hospitals during the COVID-19 pandemic.
Current Opinion in Infectious Diseases,
Vol. 34,
Issue. 4,
p.
365.
Estifanos, Abiy Seifu
Kazmi, Kescha
and
Morris, Shaun K.
2021.
Could COVID-19 Reverse the Modest Gains Made in Newborn Health in Ethiopia?.
Maternal and Child Health Journal,
Vol. 25,
Issue. 6,
p.
849.
Moore, Lori D.
Robbins, Greg
Quinn, Jeff
and
Arbogast, James W.
2021.
The impact of COVID-19 pandemic on hand hygiene performance in hospitals.
American Journal of Infection Control,
Vol. 49,
Issue. 1,
p.
30.
Ghali, Hela
Ben Cheikh, Asma
Bhiri, Sana
Khefacha, Selwa
Latiri, Houyem Said
and
Ben Rejeb, Mohamed
2021.
Trends of Healthcare-associated Infections in a Tuinisian University Hospital and Impact of COVID-19 Pandemic.
INQUIRY: The Journal of Health Care Organization, Provision, and Financing,
Vol. 58,
Issue. ,
Shu, Lei
Bivolarova, Mariya P.
Melikov, Arsen K.
Kurnitski, J.
and
Thalfeldt, M.
2021.
Localized Ventilation Method for Providing Clean Air to Hospitalized Patients.
E3S Web of Conferences,
Vol. 246,
Issue. ,
p.
02003.
Selby, Laura M.
Rupp, Mark E.
and
Cawcutt, Kelly A.
2021.
Prevention of Central-Line Associated Bloodstream Infections.
Infectious Disease Clinics of North America,
Vol. 35,
Issue. 4,
p.
841.
Alsuhaibani, Mohammed
Kobayashi, Takaaki
McPherson, Chad
Holley, Stephanie
Marra, Alexandre R.
Trannel, Alexandra
Dains, Angelique
Abosi, Oluchi J.
Jenn, Kyle E.
Meacham, Holly
Sheeler, Lorinda
Etienne, William
Kukla, Mary E.
Wellington, Melanie
Edmond, Michael B.
Diekema, Daniel J.
and
Salinas, Jorge L.
2022.
Impact of COVID-19 on an infection prevention and control program, Iowa 2020-2021.
American Journal of Infection Control,
Vol. 50,
Issue. 3,
p.
277.
Larason, Thomas
Grantham, Steven
Zarobila, Clarence
Zong, Yuqin
Schuit, Michael
Holland, Brian
Wood, Stewart
Krause, Melissa
and
Miller, C. Cameron
2022.
Traveling tunable laser projector for UV-blue disinfection dose determinations.
Applied Optics,
Vol. 61,
Issue. 19,
p.
5559.
Tang, Hung-Jen
Lai, Chih-Cheng
and
Chao, Chien-Ming
2022.
Changing Epidemiology of Respiratory Tract Infection during COVID-19 Pandemic.
Antibiotics,
Vol. 11,
Issue. 3,
p.
315.
Deiana, Giovanna
Arghittu, Antonella
Gentili, Davide
Dettori, Marco
Palmieri, Alessandra
Masia, Maria Dolores
Azara, Antonio
and
Castiglia, Paolo
2022.
Impact of the COVID-19 Pandemic on the Prevalence of HAIs and the Use of Antibiotics in an Italian University Hospital.
Healthcare,
Vol. 10,
Issue. 9,
p.
1597.
Assi, Mariam A.
Doll, Michelle
Pryor, Rachel
Cooper, Kaila
Bearman, Gonzalo
and
Stevens, Michael P.
2022.
Impact of coronavirus disease 2019 (COVID-19) on healthcare-associated infections: An update and perspective.
Infection Control & Hospital Epidemiology,
Vol. 43,
Issue. 6,
p.
813.
The coronavirus disease 2019 (COVID-19) pandemic has had an enormous impact on healthcare systems globally. Infection prevention resources at the local level, especially in areas of high SARS-CoV-2 activity, have now been diverted to outbreak management. Although these efforts have understandably taken immediate priority, the impacts on traditional healthcare-associated infection (HAI) surveillance and prevention efforts remain concerning.
A PubMed search utilizing the search terms “Impact of COVID-19 on healthcare associated infections” was performed on April 5, 2020, and yielded no directly applicable results. An informal Twitter poll was initiated on April 4, 2020, asking the infection prevention and hospital epidemiology community what percentage of their traditional infection prevention time had been diverted to COVID-19 response efforts. This query yielded 220 responses: 79.1% indicated spending >75% of their time on COVID-19 response efforts and another 13.2% indicated spending >50%–75% of their time on these efforts. Although these data are limited, they provide a snapshot of the potential resource diversion affecting the infection prevention community, and these percentages are consistent with our local experience.
The potential impacts of the diversion of traditional infection prevention resources to focus on the COVID-19 response are numerous (Fig. 1). With regard to more conventional infection prevention duties, surveillance efforts may be compromised leading to compromised case identification. Process measure data collection may also be compromised (eg, compliance with hand hygiene and chlorhexidine bathing, et cetera). Mitigation efforts are also likely to be affected. In the absence of real-time HAI surveillance and provider and unit feedback, an increase in subsequent HAIs is likely.
Fig. 1. Potential impact of COVID-19 on healthcare-associated infection prevention efforts.
Another concern is the diversion of traditional personal protective equipment (PPE) resources given significant supply-chain shortages. These shortages resulted in the United States Centers for Disease Control and Prevention (CDC) recommending that hospitals experiencing gown shortages stop using isolation gowns for endemic pathogens such as methicillin-resistant Staphylococcus aureus (MRSA), vancomycin-resistant Enterococci (VRE), and extended-spectrum β-lactamase (ESBL)–producing gram-negative rods. The CDC also noted that gown use could be suspended in nonendemic settings for lower-risk patient encounters.1 Such strategies may lead, especially if the local healthcare personnel infrastructure is also compromised, to more cross transmission and HAIs.
The impacts on antimicrobial stewardship programs (ASPs), many of which are integrated with infection prevention programs, may also be significant.Reference Stevens, Patel and Nori2 ASP efforts may be diverted to assist with COVID-19 response efforts, with a negative subsequent impact on activities such as post-antibiotic order review with provider feedback. An influx of critically ill patients may drive suboptimal antibiotic use with subsequent concern for the development of antibiotic resistance and C. difficile infection as well.
Another major concern is the potential impact of increased HAI rates on health systems in terms of public reporting and quality programs associated with reimbursement. Predictably, health systems will be negatively impacted by the global pandemic, and further penalties related to an increase in HAIs will further stress these systems. Although these measures are well-intentioned, consideration for relaxing penalties during the pandemic (and for a period afterward) should be considered. The Centers for Medicare and Medicaid Services (CMS) penalized ~800 hospitals for their HAI performance between October 2018 and September 2019, resulting in a 1% loss of reimbursement for Medicare patients.3 Fortunately, the CMS announced that reporting to the hospital-acquired condition (HAC) program is optional for the fourth quarter of 2019. Furthermore, data for the first 2 quarters of 2020 will not be counted for performance or repayment, and the related data do not need to be submitted to the CMS.4 Other non-CMS quality programs that utilize publicly reported HAI data to determine penalties should also consider adopting similar nonpenalty measures in the face of the current global health crisis.
Health systems should consider creative ways to support and bolster their infection prevention programs during the COVID-19 pandemic. These efforts should include investment in information technology and personnel. Although health systems may be willing to invest resources and money in these programs, few trained infection preventionists and hospital epidemiologists are available in the United States. Beyond the current pandemic, significant resources should be invested to improve and sustain infection prevention infrastructure at the local, regional and national levels. Additionally, new investment in training and expanding the infection prevention workforce will be critical.
The full impact of the COVID-19 pandemic on health systems and traditional HAIs remains to be determined. Significant infection prevention resource diversion is occurring to help manage the outbreak at the health-system level, which will predictably impact HAI surveillance and prevention efforts. The CMS has recognized the challenges facing the infection prevention community and have suspended penalties associated with the HAC program temporarily. Other quality programs should consider similar measures. Now more than ever, health systems should continue investing in their infection prevention programs (both infrastructure and personnel) beyond the current pandemic.
Acknowledgments
None.
Financial support
No financial support was provided relevant to this article.
Conflicts of interest
All authors report no conflicts of interest relevant to this article.