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 a suspected outbreak of hospital-acquired infections caused by Mycobacterium chelonae related to flexible bronchoscope (hereinafter referred to as “bronchofibroscope”) and apply targeted high-throughput sequencing (tNGS) technology for etiological analysis, providing references for controlling hospital infection outbreaks. Methods A retrospective survey of patients who were detected with Mycobacterium chelonae through tNGS testing of bronchoalveolar lavage fluid (BALF) after bronchofibroscopy at the Zhengdong District, People’s Hospital of Henan University of Chinese Medicine, People’s Hospital of Zhengzhou between May 1, 2018 and March 18, 2024. The causes were investigated through comprehensive measures including on-site epidemiological surveys and environmental health assessments, and intervention measures were developed and evaluated for effectiveness. Results A total of 52 patients were included. Mycobacterium chelonae was detected in 30 patients, nosocomial infection was excluded in all cases. The suspicious contaminated bronchofibroscope lavage fluid and its cleaning and disinfection equipment, environment and other samples were collected. The traditional microbial culture results were negative. The tNGS results showed that Mycobacterium chelonae was detected in bronchofibroscope lavage fluid (sequence number 156), and all the patients with Mycobacterium chelonae detected in BALF used the bronchofibroscope. It was judged that this event was a pseudo-outbreak of nosocomial infection caused by the contamination of bronchofibroscope with the patient’s BALF. After three months of continuous follow-up after the comprehensive control measures were taken, Mycobacterium chelonae was not detected by tNGS in bronchofibroscope lavage fluid or patients’ BALF. All patients in the hospital improved and discharged without any new cases. The pseudo-outbreak of nosocomial infection was effectively controlled. Conclusions There are many links in the reprocessing of bronchofibroscope, which is easy to cause pollution, and the management needs to be strengthened. tNGS detection has the characteristics of high efficiency, few background bacteria and clear pathogen spectrum, which can be used as a supplementary means for the investigation of nosocomial infection outbreaks, and is of great significance for identifying the source of infection and determining the transmission route.
Objective To study the effect of training methods for hospital infection management that through the whole process of diagnosis and treatment. Methods We selected part-time hospital infection personnel from Panyu Central Hospital of Guangzhou to form a teaching staff between January 1 and October 31, 2022. The teaching staff was randomly divided into a control group and an experimental group using a random number table method. The control group received training using traditional theoretical training models, while the experimental group received training using a simulated hospital infection training teaching model that runs through the entire diagnosis and treatment process. The training effects of the two groups through theoretical knowledge assessment, operational skills assessment, and teacher satisfaction evaluation were compared. Results A total of 196 teachers were included, with 98 students in each group. There was no statistically significant difference between the two groups in terms of gender, age, education level, major category, professional title, and years of work experience (P>0.05). The total score of theoretical knowledge examination in the experimental group [(88.49±8.33) vs. (80.35±13.57) points, t=5.062, P<0.001] was higher than the control group. Among them, the scores of hand hygiene standards for medical personnel, principles of aseptic operation, occupational exposure disposal, classification and disposal of medical waste were significantly higher than those of the control group (P<0.05). The total score of the operational skills assessment in the experimental group was higher than that in the control group [(86.37±5.25) vs. (76.75±7.07) points, t=10.811, P<0.001], among which the scores during operation, after operation, and overall impression were significantly higher than the control group (P<0.05). The overall satisfaction in the experimental group was higher than that of the control group (94.90% vs. 72.45%, χ2=18.076, P<0.001), among which the satisfaction with training methods, textbook value, course attractiveness, and clinical applicability were higher than those of the control group (P<0.05). Conclusions Through the whole process of diagnosis and treatment training method for hospital infection management can significantly improve the training effectiveness of teachers. It is worth promoting in the teaching of hospital infection management for various levels and types of personnel.
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.
摘要:目的: 探讨传染病医院工作人员对甲型H1N1流感医院感染控制知识的认知程度。 方法 :选择救治甲型H1N1流感期间传染病医院不同岗位工作人员进行无记名自填式调查问卷。 结果 :全院对甲型H1N1流感医院感染控制认知总体情况良好,认知的薄弱环节是对防护措施,尤其是一级防护和三级防护的认知;不同工作岗位的工作人员对甲型H1N1流感医院感染控制认知程度不同,与甲型H1N1流感有接触的工作人员认知度高于其他工作人员,中高级职称、高年龄段(35岁以上)的医务人员认知度高于初级职称及低年龄段(35岁以下)的医务人员。 结论 :针对薄弱环节,进一步加强全员医院感染控制知识、技能的培训考核。Abstract: Objective: To explore the knowledge about the Influenza A (H1N1) of Chengdu Hospital for Infectious Diseases ‘s staff. Methods : Different medical staff of the infectious Disease Hospital during the influenza A (H1N1) treatment in Chinese mainland was selected to fill in anonymous questionnaire. Results : The awareness of the hospital is well about the hospital infection control to Influenza A (H1N1). Preventive measure is weak, especially about the primary barriers and the third barriers. The different position awareness is different. The staff who is in touch with Influenza A (H1N1) is more awareness than the others, the senior and intermediate title is more awareness than the Junior Title, the high ages group(over 35 ages) is more awareness than the low ages group (under 35 ages). Conclusion : For the weak link, further strengthens the entire hospital infection control knowledge, skills training and examination.
ObjectiveTo know the situation of nosocomial infection in 2014 in a western region hospital, in order to provide a scientific basis for hospital infection control and management. MethodWe selected the patients on August 14th in 2014 during the time from 00:00 to 24:00 as our study subjects. Bedside investigation and medical records investigation were combined to study the cross-sectional survey of nosocomial infection. We completed the questionnaire, and used statistical methods to count related data about nosocomial infections and community-acquired infections. ResultsA total of 1 908 patients were investigated. The nosocomial infection prevalence rate was 4.45%, and the community-acquired infection prevalence rate was 29.09%. The highest prevalence of nosocomial infection department was the Intensive Care Unit (38.10%); the top three surgical systems were Thoracic Surgery (18.67%), General Surgery (16.67%), and Neurosurgery (10.53%), and the top three medical systems were Endocrinology (11.11%), Neurology (6.67%), and Infectious Diseases Department (5.88%). The top three community-acquired infections occurred in Pediatrics Department (non-neonatal group) (95.37%), Burn surgery (92.31%), and Respiratory Medicine (86.46%). The main infection site for both nosocomial and community-acquired infection was lower respiratory tract (58.24%). Pathogens were mainly Escherichia coli, Klebsiella pneumoniae, Acinetobacter baumannii, Staphylococcus aureus, and Pseudomonas aeruginosa. Hospital and community-acquired infection bacterial spectrum were consistent. And the rate of antibiotics use was 40.82%, in which 126 patients used for prevention (6.60%), and 599 patients used for treatment (31.39%). For patients using the drugs for treatment, bacterial culture submission rate was 80.71%, and the positive rate was 43.78%. ConclusionsThe prevalence of nosocomial infection is reliable, which provides a data support for nosocomial infection prevention and control.
ObjectiveTo investigate the incidence and trendency of healthcare-associated infections (HAIs) in a pediatric intensive care unit (ICU) of a hospital, identify the main objectives of infection control, and formulate corresponding preventive and control measures.MethodsA prospective targeted monitoring method was adopted to investigate HAIs in the pediatric ICU of a hospital from January 2013 to December 2018.ResultsFrom January 2013 to December 2018, the number of target ICU patients was 11 898, the number of patient-days was 55 159; 226 HAIs occurred, the HAI case rate was 1.90%, the incidence of HAI per 1 000 patient-days was 4.10‰, and the adjusted incidence of HAI per 1 000 patient-days was 1.21‰. The main infection site was respiratory tract [83 cases (36.7%)], with ventilator-associated pneumonia in 73 cases (32.3%); secondly, 69 patients (30.5%) had bloodstream infection, among which 48 (21.2%) had non-catheter-related bloodstream infection.ConclusionHospital targeted monitoring is helpful to grasp the situation and trend of HAIs, define the main target of infection control, and formulate corresponding preventive and control measures, which can effectively reduce the incidence of HAIs.