ObjectiveTo analyze the trend of hospital infection, so as to provide a scientific basis for hospital infection prevention and control. MethodsFrom 2011 to 2013, according to the criteria of diagnosis of nosocomial infections set up by the Ministry of Health, the prevalence rates of nosocomial infections in patients who were hospitalized on the survey day were investigated by the combination of bedside investigation and medical records checking. ResultsThe incidence rates of nosocomial infections from 2011 to 2013 were 2.99%, 2.31% and 1.95%, respectively, presenting a downward trend. The rate of hospital infection was the highest in comprehensive Intensive Care Unit, and the main infection site was the lower respiratory tract. Gram-negative bacteria were the main pathogens causing hospital infections, including Klebliella pnermoniae, Pseudomonas aeruginosa, Staphylococcus aureus, Acinetobacter baumannii and Escherichia coli. The utilization rates of antibacterial agents in these three years were respectively 39.84%, 34.58% and 34.22%. ConclusionTargeted surveillance and management of key departments and sites should be strengthened. It is necessary to strengthen the surveillance and management of antibiotics, raise the submission rate of pathogens, and use antibiotics appropriately.
Objective To investigate nosocomial infection rate in Intensive Care Unit (ICU), its risk factors and the pathogenic characteristics of multidrug-resistant bacteria through targeted monitoring, in order to provide scientific references for reducing nosocomial infection. Methods Targeted monitoring was performed on the patients who were admitted to the comprehensive ICU between July 2014 and June 2016. Results Nosocomial infection occurred in 312 of the 4 991 patients. The case infection rate was 6.25%, and case infection rate per day was 19.03‰. After the adjustment, the case infection rate per day was 6.77‰. The ventilator-associated pneumonia infection accounted for 30.78‰; catheter-related bloodstream infection occupied 0.30‰; and catheter-associated urinary tract infection accounted for 0.27‰. The respiratory tract was the major part of nosocomial infection, accounting for 90.38%. Gram-negative bacilli were the major bacteria accounting for 92.74%, in whichAcinetobacter baumannii accounted for 36.29%. Conclusions Through targeted monitoring to keep abreast of the current situation of nosocomial infection in ICU, management and interventions can be targeted. It is an important way to reduce nosocomial infection in ICU.
ObjectiveTo explore the current situation of nosocomial infection, sample test and use of antibiotics in the in-patients, so as to provide scientific evidence for control and prevention of nosocomial infection. MethodsBedside investigation and medical records checking were adapted to conduct cross-sectional survey among all the in-patients in 2013 and 2014. ResultsOn July 16 th, 2013 (00:00-24:00) and September 10 th, 2014 (00:00-24:00), a total of 1 400 in-patients were investigated in whom 68 with nosocomial infection were diagnosed, with a prevalence rate of 4.86%. No statistical difference were found between the two year's prevalence rate (χ2=1.341, P=0.264). The prevalence rate of Intensive Care Unit, Department of Neurosurgery (including Department of Thoracic Surgery) and Department General Surgery ranked the first three places, and the most common infection position was respiratory tract (61.76%). The usage rate of antibiotics was 48.00% in the two years, and no statistical difference was observed in the usage rate between the two years (χ2=1.309, P=0.261). Therapeutic use (67.86%) and onefold use (90.33%) accounted for most of antibiotics use. Test rate of therapeutic antibiotics use was 49.17% and no statistical difference was observed in the test rates between the two years (χ2=2.023, P=0.170). ConcluslonsThe nosocomial infection rate was stably high in the two years. To prevent and control nosocomial infection effectively, medical personnels knowledge and skills on nosocomial infection should be improved, surveillance and guidance towards key departments should be strengthened and clinicians' diagnosis and treatment behaviors should further be regulated.
ObjectiveTo explore the risk factors of nosocomial infection in children with acute lymphoblastic leukemia during induction remission chemotherapy.MethodsThe children with acute lymphoblastic leukemia who were admitted to the Department of Pediatrics, Huai’an First Hospital Affiliated to Nanjing Medical University between December 2012 and December 2018 were divided into the infection group (including the severe infection subgroup and the non-severe infection subgroup) and the non-infection group according to whether nosocomial infection occurred during induction and remission chemotherapy. The clinical data of patients were collected. Univariate analysis and multivariate logistic regression were used to analyze the risk factors of nosocomial infection during induction remission chemotherapy in children with acute lymphoblastic leukemia.ResultsA total of 96 patients were included. There were 67 cases in the infection group (26 in the severe infection subgroup and 41 in the non-severe infection subgroup) and 29 cases in the non-infection group. Univariate analysis showed that the granulocyte deficiency time and the prevalence of skin and mucosal damage in the infection group were significantly higher than those in the non-infection group, and the infection group had significantly lower laminar bed use and serum albumin level than the non-infection group did (P< 0.05). Multivariate logistic regression analysis showed that prolonged agranulocytosis [odds ratio (OR)=23.075, 95% confidence interval (CI) (3.682, 144.617), P=0.001], skin and mucosal lesions [OR=12.376, 95%CI (1.211, 126.507), P=0.034], hypoalbuminemia [OR=5.249, 95%CI (1.246, 22.113), P=0.024] were independent risk factors for nosocomial infection during induction and remission of childhood acute lymphoblastic leukemia, while laminar bed [OR=0.268, 95%CI (0.084, 0.854), P=0.026] was the protective factor.ConclusionsLong-term agranulocytosis, skin and mucosal lesions, and hypoalbuminemia are independent risk factors for nosocomial infection in children with acute lymphoblastic leukemia during induction remission chemotherapy. Laminar flow bed is its protective factor.
ObjectiveTo understand the characteristics of and risk factors for nosocomial infection in a newly built branch of a university teaching hospital, in order to investigate the control measures for prevention and control of nosocomial infection. MethodsA total of 598 cases of nosocomial infection from April 2012 to June 2014 were enrolled in this study. We analyzed statistically such indexes as nosocomial infection rate, infection site, pathogen detection, and use of antibiotics. Meantime, infection point-prevalence survey was introduced by means of medical record checking and bedside visiting. ResultsAmong all the 44 085 discharged patients between April 2012 and June 2014, there were 598 cases of nosocomial infection with an infection rate of 1.36%. Departments with a high nosocomial infection rate included Intensive Care Unit (ICU) (9.79%), Department of Orthopedics (2.98%), Department of Geriatrics (2.62%), and Department of Hematology (1.64%). The top four nosocomial infection sites were lower respiratory tract (45.32%), urinary tract (13.21%), operative incision (8.86%), and blood stream (8.86%). The samples of 570 nosocomial infections were delivered for examination with a sample-delivering rate of 95.32%. The most common pathogens were acinetobacter Baumanii (17.02%), Klebsiella pneumoniae (14.21%), Escherichia coli (13.68%), Pseudomonas aeruginosa (11.93%), and Staphylococcus aureus (9.12%). And urinary tract intubation (42.81%), admission of ICU (28.60%), and application of corticosteroid and immunosuppressive agents (26.42%) were the top three independent risk factors for nosocomial infection. ConclusionGeneral and comprehensive monitoring is an effective method for the hospital to detect high-risk departments, factors and patients for nosocomial infection, providing a theoretical basis for prevention and control of nosocomial infection.
ObjectiveTo compare the point prevalence of nosocomial infection in a comprehensive hospital between 2014 and 2015, and to put forward prevention and control measures so as to reduce the incidence of nosocomial infection. MethodsBy means of reviewing electronical medical records and beside investigation, the prevalence rates of nosocomial infection in patients hospitalized on June 4, 2014 and June 16, 2015 were investigated. Data were collected by a uniform questionnaire and analyzed by Excel 2007 and SPSS 18.0. ResultsThe nosocomial infection rates in those two time points were respectively 4.51% and 3.21% without a significant difference (χ2=2.246, P=0.134). Intensive Care Unit, Department of Neurosurgery and Department of Orthopedics were listed in the top five in terms of nosocomial infection rate for two consecutive years. The nosocomial infection sites were mainly lower respiratory tract, and a total of 64 strains were detected including mainly G? bacteria accounting for 76.6%. Antimicrobial agent usage covered 34.05% and 33.33% at those two time points. The purpose was mainly for therapy, and the pathogenic bacteria specimen detection rate was 68.06% and 59.73%, without statistically significant difference (χ2=0.114, 3.311; P>0.05). ConclusionThe prevalence of nosocomial infection in this hospital is at average national level but higher than the average level in Sichuan Province. Infection surveillance, prevention and control measures should be strengthened in key departments and key infection sites, and antimicrobial agent should be rationally used so as to reduce the incidence of nosocomial infection.
Objective To compare the epidemic status of nosocomial infections (NIs) among medical institutions at different levels. Methods The cross-sectional surveys on prevalence rates of NIs, distribution of NIs, and antimicrobial use were conducted through combination of bedside investigation and medical record reviewing among all in-patients of 20 medical institutions in Baoshan District, Shanghai from 00:01 to 24:00 on November 12th 2014, December 9th 2015, and November 30th 2016, respectively. Results A total of 18 762 patients were investigated, the prevalence rate of NIs in the first, second, and third class hospitals were 5.36%, 2.37%, 1.68%, respectively (χ2=88.497, P<0.05). The main NIs sites were lower respiratory tract, urinary tract, and upper respiratory tract in the first and second grade hospitals; while were other unclassified sites, respiratory tract, and upper respiratory tract in the third grade hospitals. The utilization rates for antimicrobial in the first, second, and third grade hospitals were 5.88%, 31.64%, and 42.11%, respectively (χ2=928.148, P<0.05); submission rates for specimen were 9.82%, 48.89%, and 82.39%, respectively (χ2=601.347, P<0.05). Four cases of pathogen were reported in the first grade hospitals, 94 in the second grade hospitals, and 96 in the third grade hospitals. The in-patients in different hospitals with different genders, ages, and departments had a statistical difference in prevalence rate of NIs (P<0.05) . Conclusion The first grade hospitals need to enhance the etiological examination; the third grade hospitals should severely restrict the antimicrobial utilization, and refine the prevention and control work for NIs.
Objective To understand the current situation of nosocomial infection management quality control centers at the municipal and county levels in Guizhou, so as to provide measures for promoting the construction of nosocomial infections management quality control centers at all levels in Guizhou. Methods From September 26th to October 12th 2023, based on the mobile network platform survey questionnaire of the infection prevention and control workshop, a survey was conducted on the establishment, personnel, information technology level, management, and quality control work of the nosocomial infection management quality control centers at the municipal and county levels in Guizhou. Results Nine prefecture-level cities/autonomous prefectures in Guizhou had established municipal-level nosocomial infection management quality control centers. The professional background of the staff at the municipal and county-level quality control centers was mainly nursing (accounting for 36.4% and 58.4%, respectively), and their educational background was mainly undergraduate (accounting for 70.5% and 83.3%, respectively). No quality control center at the municipal or county level had established an information-based quality control platform for nosocomial infection management within the region. Most county-level quality control centers did not have special funds (87.5%), and there were still 16 (25.0%) county-level quality control centers that had not established relevant systems for work and management. The main forms of quality control work carried out by each center were organizing training, on-site inspections, guidance and evaluation, and most of them were conducted irregularly. Conclusions Guizhou has basically formed a quality control system for nosocomial infection management at the provincial, municipal, and county levels. However, the nosocomial infection management quality control network has not fully covered all districts, and policies, funding support, and personnel allocation are still insufficient. Health administrative departments and quality control centers at all levels need to unify monitoring standards and quality control norms, strengthen supervision, improve quality control capabilities, and improve training systems to achieve standardization and normalization of quality control work throughout the province and improve quality control efficiency.
ObjectiveTo establish the model of nosocomial infection risk assessment, and evaluate its accuracy of prediction. MethodsThe model of nosocomial infection risk assessment was established by expert grading, and cross-section survey of nosocomial infection was used to evaluate the predictive effect from December 2013 to February 2014. ResultsThe infection risk score of the model had statistically significant influence on nosocomial infection [OR=1.35, 95%CI (1.26, 1.44), P<0.001]. The area under curve of the receiver operating characteristic curve was 0.754. The diagnostic test's sensitivity, specificity, positive predictive value, negative predictive value and accuracy were 56.30%, 84.50%, 17.80%, 97.00% and 82.95% respectively, and the cutoff was 4. ConclusionThe model of nosocomial infection risk assessment has certain significance in the prediction of nosocomial infection, and can be regarded as a reference for establishing precaution system of nosocomial infection.
ObjectiveTo study the effect of PDCA cycle model on the standardization of the application of common disinfectants, in order to promote the management level of hospital disinfection. MethodsBy questionnaire and observation, the study was to learn the knowledge and its application in medical workers on common disinfectants. Based on the results, we tried to regulate effective preventive measures and carry out continuous improvements. ResultAfter the implementation of PDCA cycle model, the awareness rate of the medical staff on disinfection and the application accuracy of disinfectants were significantly increased (P<0.05). ConclusionThe implementation of PDCA cycle model can improve nosocomial infection management level effectively, ensure medical quality management and patients' safety, which is an effective way of management to reduce the rate of nosocomial infection.