key: cord-0763684-xry5gf3d
authors: Cheng, Keping; He, Miao; Shu, Qin; Wu, Ming; Chen, Cuifang; Xue, Yulei
title: Analysis of the Risk Factors for Nosocomial Bacterial Infection in Patients with COVID-19 in a Tertiary Hospital
date: 2020-11-13
journal: Risk Manag Healthc Policy
DOI: 10.2147/rmhp.s277963
sha: 3392c28c5c6acb057401d81e3abf7676a74ae4eb
doc_id: 763684
cord_uid: xry5gf3d

BACKGROUND: Infection surveillance and risk factor analysis are among the most important prerequisites for the prevention and treatment of nosocomial bacteria infections, which are the demands for both infected and non-infected patients. PURPOSE: To explore the risk factors for nosocomial bacterial infection of patients with COVID-19, and further to provide a theoretical basis for scientific prevention and control of nosocomial bacterial infection. METHODS: Between 10 January 2020 and 9 March 2020, we collected data of 212 patients with COVID-19 and then explored the influence of age, gender, length of stay, use of ventilator, urinary catheterization, central venous catheterization, white blood cell (WBC) count and procalcitonin on the nosocomial bacterial infection of patients with COVID-19 by a retrospective study. RESULTS: There were 212 confirmed cases of COVID-19, of which 31 cases had nosocomial bacterial infections, with an incidence of 14.62%. The most common types of nosocomial bacterial infections were lower respiratory tract (12 cases, 38.71%), which was the most frequent site, followed by urinary tract (10 cases, 32.26%), blood stream (7 cases, 22.58%), upper respiratory tract (1 case, 3.23%) and gastrointestinal tract infection (1 case, 3.23%). The incidence of nosocomial bacterial infection was significantly correlated with age, arteriovenous catheterization, urinary catheterization, WBC count and procalcitonin. Moreover, multivariate analysis confirmed that WBC (OR 8.38, 95% CI 1.07 to 65.55), procalcitonin (OR 4.92, 95% CI 1.39 to 17.33) and urinary catheterization (OR 25.38, 95% CI 5.09 to 126.53) were independent risk factors for the nosocomial bacterial infection of patients with COVID-19. CONCLUSION: Understanding the risk factors for nosocomial bacterial infection of patients with COVID-19 and strengthening the monitoring of various susceptible factors are helpful to control the occurrence of nosocomial bacterial infection in the COVID-19 isolation wards.

Hospital acquired infections, commonly known as nosocomial infections, are defined as medical related issues that are not associated with the patient's original diagnosis on admission into the hospital. 1 Since late December 2019, an epidemic caused by novel coronavirus (2019-nCoV) infection has occurred unexpectedly in Wuhan (the capital of Hubei province), China. 2 The novel coronavirus pneumonia was named Coronavirus Disease (COVID-19) on 11 February 2020 by the World Health Organization (WHO). 3 It turns out that COVID-19, caused by novel coronavirus (SARS-CoV-2). is the fastest spreading, most extensive, and most challenging public health emergency China has encountered since the foundation of the People's Republic of China, 4 therefore 31 provinces and municipalities nationwide adopted containment measures promptly, treating COVID-19 as a Class A infectious disease and activating a Level One public health emergency response in all localities. A large number of transmissions, both in nosocomial and community settings, occurred through human-to-human contact with individuals showing no or mild symptoms of COVID-19. 5, 6 Nowadays, COVID-19 is not only a matter in China, for it has become a threat to the health of people worldwide. Thereby, SARS-CoV-2 infection in the latent period of patients brings great challenges to medical work. A growing number of recent studies verified that the spread of various infectious diseases can be decreased by reducing the risk of hospital infection and exposure, thus reducing the risk of cross infection in hospitals. 7, 8 Thus, infection surveillance and risk factor analysis are among the most important prerequisites for the prevention and treatment of nosocomial bacterial infection, which are the demands for both infected and non-infected patients. Herein, we aimed to explore the exposure of risk factors and its impact on the incidence of nosocomial bacterial infection in the patients through analyzing the surveillance data of those with suspected and confirmed COVID-19 in a designated tertiary hospital, which may contribute to the prevention and control of nosocomial bacterial infection in patients with COVID-19.

The study was conducted to analyze the risk factors for nosocomial bacterial infection in a designated tertiary hospital for cases of COVID-19 in Huangshi, China. Prior to the study, written informed consent was obtained from all individual participants and from parents/legal guardians of children under the age of 18, and the study protocol was consented to by the Medical Ethics Committee of Huangshi Traditional Chinese Medicine Hospital (HSZYPJ-2020-016-01) and complied with the requirements of the Declaration of Helsinki.

According to the diagnostic standard of nosocomial infection formulated by the China's Ministry of Health in 2001, 9 the infected cases were confirmed by the infection preventionists in those with urinary catheterization, arteriovenous intubation, endotracheal intubation, use of ventilator and other treatment measures. Community acquired infection prior to patient's original diagnosis on admission into the hospital were excluded.

From 10 January 2020 to 9 March 2020, detailed information from the patients involved in the present study was collected using the software of Zhejiang Xinglin Company's Hospital Infections Monitoring and Analysis System. Age, gender, hospitalization time, use of ventilator, arteriovenous intubation, urinary catheterization, white blood cell (WBC) count, and procalcitonin prior to the bacteremic episode were documented to analyse the risk factors for nosocomial bacterial infection.

All data were analyzed by the SPSS statistic software, version 20.0 (SPSS Inc., Chicago, IL, USA). The quantitative data were described as mean ± standard deviation, and an independent t-test was performed to compare continuous variables between two groups. The counting data were described by percentages, and the chi square test or precise probability method was used to compare the difference between groups. Risk factors associated with nosocomial bacterial infections among patients with COVID-19 were analyzed using bivariate analysis. Factors with P-value ≤ 0.05 at bivariate analysis were considered for multivariate analysis. Measures of effect were reported using odds ratios (ORs) for both crude and adjusted analysis, followed by 95% confidence interval (CI) and P value. P < 0.05 was defined as statistically significant.

From 10 January 2020 to 9 March 2020, there were 212 confirmed patients with COVID-19, of which 108 were males and 104 were females, ranging from 16 to 89 years old with an average age of 53.1 ± 16.6 years. There were 31 patients confirmed by bacterial isolation, with the incidence of 14.62%. The most common types of nosocomial bacterial infections were lower respiratory tract (12 cases, 38.71%), which was the most frequent site, followed by urinary tract (10 cases, 32.26%), blood stream (7 cases intervention and serological equilibrium analysis of patients with COVID-19 were compared between nosocomial bacterial infection group and the control group. There were statistically significant differences of age, use of ventilator, arteriovenous intubation, urinary catheterization, WBC count and procalcitonin between the two groups (all P < 0.05) ( Table 1) .

As shown in Table 2 , the binary logistic regression showed that age, use of ventilator, arteriovenous intubation, urinary catheterization, WBC count and procalcitonin were the risk factors for the nosocomial bacterial infection of patients with COVID-19. Simultaneously, multiple logistic regression analysis revealed that urinary catheterization, WBC, and procalcitonin are the independent risk factors for the nosocomial bacterial infection of patients with COVID-19 after adjusting for the factors of age, use of ventilator and venous catheterization. The nosocomial bacterial infection rate in patients with urinary catheterization was 25.38 times more than that in those without urinary catheterization (95% CI 5.09 to 126.53). The nosocomial bacterial infection rate was 8.38 times for those with WBC (>10.0 x 10 9 /l or ≤4.0 x 10 9 /l) (95% CI 1.07 to 65.55) compared with those with WBC (4.0~10.0) x 10 9 /l. In addition, the nosocomial bacterial infection rate in patients with procalcitonin >0.1 ng/mL was 4.92 times more than that in those with procalcitonin ≤0.1 ng/mL (95% CI 1.39 to 17.33) ( Table 2 ).

Nosocomial infections constitute one of the main causes of morbidity and mortality in hospitalized patients with significant rise in hospital costs, 10 especially those with COVID-19. 11 Up to now, accumulating literatures have documented that the incidence of nosocomial infections ranged from 3.6% to 12.0% in high-income countries and 5.7% to 19.1% in low-and middle-income countries. [12] [13] [14] There were 212 confirmed cases of COVID-19 in the current study, of which 31 cases had nosocomial bacterial infection, with an incidence of 14.62%. The result was similar to a report (12.5%) in a tertiary hospital in Beijing, China. 14 In a similar data study, it has been recently reported in a rapid review and meta-analysis of 40 studies that the proportion of nosocomial bacterial infection in the patients with COVID-19 was 44.0% in the early outbreak. 11 There are many possible reasons contributing to the different rate of nosocomial infection among hospitals including various sample sizes, types of population, hospital facilities and management level. Notably, at the beginning of the COVID-19 epidemic in Wuhan, medical resources were scarce, and various protective measures and management of hospitals were not in place, resulting in a high rate of nosocomial infections, especially the SARS-CoV-2. 11 The age of the confirmed patients with COVID-19 ranges from 16 to 89 years old with an average age of 53.1 ± 16.6 years, most of them are old and have a poor immune response to infection, which is similar to a previous study that, among 1482 patients hospitalized with COVID-19, 74.50% were aged ≥50 years, and 15 Retrospective analysis of 212 patients with COVID-19 found that the main area of nosocomial bacterial infection was the respiratory tract, especially the lower respiratory tract, and its constituent ratio was significantly higher than that of other parts, which was consistent with the relevant research results, both at home and abroad, that most of the infection cases were concentrated in the ICU. [16] [17] [18] It is suggested that the hospital should strengthen the targeted monitoring of key departments and key parts, and adopt effective prevent and control infection measures. Bacteria are the most common pathogens responsible for nosocomial infections. A series of studies indicated that surgery, device utilization, antimicrobial use and length of stay were the risk factors for nosocomial infection. [19] [20] [21] Studying the risk factors in the patients with COVID-19, bivariate analysis showed that there were six factors associated with nosocomial bacteria infection, including age, arteriovenous catheterization, urinary catheterization, use of ventilator, WBC and procalcitonin. During the hospitalization of elderly patients, many factors can interact and lead to the occurrence of nosocomial infection, 22 for most of the old hospitalized patients underlying chronic basic diseases make them a high-risk population, becoming prone to nosocomial bacteria infection. 23 Thereby, the elderly should be taken as the key object of nosocomial infection prevention and control.

Patients with nosocomial bacteria infections suffered a prolonged stay, during which they occupied scarce beddays and required additional diagnostic and therapeutic interventions. 24 In our current study, the total hospitalization time (≥20 days) for the patients with nosocomial bacteria infection was longer than those without, whereas that (≤10 days or 10~20 days) for the patients with nosocomial bacteria infection was shorter than those without, but there was no statistically significant difference between the two groups. The reason may be related to the smaller sample sizes and longer hospitalization time for the new confirmed cases of COVID-19.

Invasive diagnosis and treatment not only lead the outside microorganisms into the body, but also damage the body's natural defense barrier, subsequently making it easy for pathogens to invade the body. Accumulating results verified that the use of ventilator and arteriovenous catheterization was associated with an invasive medical device or invasive procedure, which are independent risk factors for nosocomial bacteria infection. 20, 25 The results of this study showed that the probability of nosocomial bacteria infection increased in patients using a ventilator. Intravenous catheterization can lead to colonization as well as a broad spectrum of infections ranging from catheter site infections to catheter-related blood stream infections. 26 Our present study demonstrated the proportion of bloodstream infections (22.58%) was much higher than the average for China (2.65%), 27 which might be related to the hospital's new policy encouraging blood cultures to enhance the detection rate of the microbiology test. Considering the increasing rates of nosocomial bacteria infection it is urgent to develop guidelines for the sterilization and disinfection of invasive devices and medical instruments used for surgeries. 28 Previous studies indicated that surgery, device utilization, antimicrobial use and length of stay were the risk factors for nosocomial bacteria infection. 1, 20, 21 Following the bivariate analysis, factors with P-value ≤0.05 at bivariate analysis were considered for multivariate analysis. After adjustment for age, use of ventilator and arteriovenous intubation, the logistics regression model with multiple factors showed that urinary catheterization, WBC count and procalcitonin could be considered as independent factors for nosocomial bacteria infection in the patients with COVID-19.

The strength of association between exposure and disease is quantified by the odds ratio in case control studies (or the relative risk for cohort studies), with a 95% confidence interval. Indwelling urinary catheters were placed in up to 25.00% of hospitalized patients and prolonged catheterization is the most important risk factor for the hospitalacquired urinary tract infection, 29 accounting for 26.90% of nosocomial bacteria infection during that period of neurological ICU. 30 In our present study, the nosocomial bacteria infection rate in patients with urinary catheterization was 25.38 times more than that in those without urinary catheterization (95% CI 5.09 to 126.53). Apart from the disconnection of the catheter and the urine-collection system, and the microbial contamination arising from insertion of the catheter through the two extraluminal and the intraluminal routes. 31, 32 Thereby, standardized interventions for the patients with COVID-19 is required to effectively prevent catheter-related urinary tract infection, thereby reducing the incidence of hospital-acquired bacteria infections.

Traditionally, WBC is an index for clinical monitoring of infection, which can directly resist the invasion of pathogenic microorganisms in the body. Of note, the nosocomial bacteria infection rate was 8.38 times for those with WBC (>10.0 x 10 9 /l or ≤4.0 x 10 9 /l) compared with those with WBC [(4.0~10.0) x 10 9 /l] (95% CI 1.07 to 65.55). However, the specificity of WBC in the diagnosis of infection is low due to its vulnerability to age, gender, stress, physiology, immune status and other factors, so it should be considered comprehensively in the diagnosis of nosocomial infection. More importantly, procalcitonin has been extensively investigated in differentiation between bacterial infection and systematic inflammatory response syndrome of noninfectious origin, 33 and it was recognized as an important indicator of bacterial infection owing to its clear correlation with positive blood culture. 34, 35 The nosocomial bacteria infection rate in patients with procalcitonin >0.1 ng/ mL was 4.92 times more than that in those with procalcitonin ≤0.1 ng/mL (95% CI 1.39 to 17.33). However, it is worth noting that procalcitonin was helpful in recognizing Gram-negative bloodstream infections, and the results should be carefully interpreted with the full knowledge of the patients' medical condition.

Apart from the self-defense capability of hospitalized patients themselves, the iatrogenic factors, including the application of hormones, cytotoxic drugs and radiation therapy as well as the abuse of antibacterial drugs, are prone to the development of nosocomial bacteria infections. Account for the considerable uncertainty brought by COVID-19, for which there is no specific drug treatment available at that time, only with individualized treatment. As a matter of fact, it was difficult to collect and classify the data of personalized treatment. Of note, some other risks, including pre-existing diseases, use of oxygen therapy from admission, and hemodialysis, may also enable nosocomial infection development, which should be a limitation of the present study. Nevertheless, development of a surveillance process to monitor this rate is an essential first step to identify local problems and priorities, and evaluate the effectiveness of bacteria infection control activity. Considering the diversity and complexity of risk factors for nosocomial bacteria infection in patients with COVID-19, medical staff should strengthen the personnel training, strictly manage the implementation of aseptic technology, reduce the invasive operation, and reasonably use antibiotics. Simultaneously, hospitals should pay special attention to the systematic monitoring and controlling of the risk factors of high-risk departments, especially for elderly patients with risk factors.

Understanding the risk factors for nosocomial bacteria infection in patients with COVID-19 and strengthening the monitoring of various susceptibility factors are helpful to control the occurrence of nosocomial bacteria infection in COVID-19 isolation wards.

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The authors would like to thank senior engineer Guohua Xia for his kind help in the manuscript processing.

All authors contributed to data analysis, drafting or revising the article, have agreed on the journal to which the article will be submitted, gave final approval of the version to be published, and agreed to be accountable for all aspects of the work. 

The authors report no conflicts of interest in this work.

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