摘要:目的: 探讨我院呼吸内科病房老年肺部疾病患者并发真菌感染发病的相关因素,分析其易患因素、临床特征和治疗。 方法 : 采用回顾性调查方法对2002年1月至2008年6月收住内科的经微生物检查证实49例继发真菌感染的患者进行分析,并与同期无真菌感染的肺部疾病患者(对照组)比较。 结果 : 在呼吸内科病房中,老年患者院内肺部真菌感染发生率为378%,主要感染部位为泌尿系(218%),呼吸道(269%),消化道(409%)。慢性阻塞性肺疾病(498%)是继发院内肺部真菌感染最常见的基础疾病,其感染因素为长期使用广谱抗生素(962%)和糖皮质激素(332%)、营养状况不良(583%)出现低蛋白血症及合并糖尿病、白细胞减少和侵袭性诊疗操作等。肺部真菌感染的临床表现无特异性,确诊需结合痰培养,组织病理学和临床表现来确定,感染菌种以白色念珠菌为主,占626%。氟康唑治疗有效率914%。研究组与同期无真菌感染的肺部疾病患者(对照组)比较:病死率分别为612%和082%,两组治疗无效的病例(恶化和死亡病例)比较差异有显著性。 结论 : 院内真菌是呼吸系统疾病继发感染的重要病原体,而白色假丝酵母菌是院内肺部真菌感染的主要致病菌,宿主免疫状态、感染播散和疾病严重程度是影响预后的因素。该研究认为老年肺部疾病患者并发真菌感染的相关因素和影响预后的因素对其预防、诊断、治疗、改进预后和生存质量有重要的临床意义。除有效的抗真菌治疗外,积极的综合治疗有助于提高真菌感染的治愈率。Abstract: Objective: To study the susceptible factors,clinical features and treatments of nosocomial pulmonary fungal infection in the ward of respiratory department.〖WTHZ〗Methods : The chart files of 49 patients with nosocomial pulmonary fungal infection admitted from January 2002 to June 2008 in the ward of Respiratory Department were reviewed. Results : The incidence rate of nosocomial pulmonary fungal infection was 378%.COPD(498%)was the main predisposing disease,and candidiasis(626%) was the most common pathogen. The main susceptible factors associated with nosocomial pulmonary fungal infection are longterm use of broadspectrum antibiotics(962%),hypoalbuminemia(583%),longterm use of adrenocortical steroid(332%),and diabetes mellitus.There is no specific clinical feature.Fluconazole(914%)is more efficient in the treatment.〖WTHZ〗Conclusion : Nosocomial pulmonary fungis are important pathogenin the secondary infection in respiratory disease.The most common pathogen is candida albicans.Combined therapy as well as treating fungus infection are important measures to increase the cure rate of nosocomial pulmonary fungal infection.
When a clustered coronavirus disease 2019 epidemic occurs, how to prevent and control hospital infection is a challenge faced by each medical institution. Under the normalization situation, building an effective prevention and control system is the premise and foundation for medical institutions to effectively prevent and control infection when dealing with clustered epidemics. According to the principles of control theory, medical institutions should quickly switch to an emergency state, and effectively deal with the external and internal infection risks brought by clustered epidemics by strengthening source control measures, engineering control measures, management control measures and personal protection measures. This article summarizes the experience of handling clustered outbreaks in medical institutions in the prevention and control of coronavirus disease 2019, and aims to provide a reference for medical institutions to take effective prevention and control measures when dealing with clustered outbreaks.
Objective To investigate the clinical characteristics and drug resistance changes of nosocomial infection caused by carbapenem-resistant Klebsiella pneumoniae (CRKP) in different types of clinical departments, and to provide evidence for prevention and control of CRKP infection. Methods The hospital infection real-time monitoring system was used to retrospectively collect the inpatients with CRKP nosocomial infection in the First People’s Hospital of Lianyungang from January 2019 to December 2023 as the research objects. According to the different sources of departments, they were divided into intensive care unit (ICU) group, internal medicine group and surgery group. The changes of clinical characteristics and drug resistance to common antibiotics were analyzed. Results A total of 636188 inpatients were monitored, and 225 cases were infected with CRKP, with an overall infection detection rate of 0.035%. The detection rates of CRKP infection in the ICU group, internal medicine group, and surgery group were 0.736% (138/18749), 0.013% (44/336777), and 0.015% (43/280662), respectively, with the ICU group demonstrating a significantly higher rate than the other groups (P<0.05). The detection rates fluctuated in the early stage and then decreased rapidly in different years. The main infection site of CRKP in all groups was lower respiratory tract, but the proportion of device-related infections in the ICU group was higher than that in the internal medicine and surgery groups (P<0.05). In terms of the infected population, there was no significant difference in gender among groups (P>0.05) with the proportion of males more than 60%, while the difference in the proportion of patients aged ≥65 years among groups was statistically significant (P<0.05), with the highest in the internal medicine group (86.36%). The burden of underlying diseases and invasive operation exposure of the infected patients were high, and the proportion of cardiovascular and cerebrovascular diseases and indwelling catheters were as high as 69.33% and 83.56%, respectively. The differences in the proportions of cardiovascular and cerebrovascular diseases, diabetes mellitus, ≥3 underlying diseases, and surgical and invasive procedures among groups were statistically significant (P<0.05). The distribution of infection specimens in each group showed no statistically significant difference (P>0.05), with sputum, blood, and mid-stream urine specimens being the main detected specimens in all groups. The resistance rates of CRKP to penicillins and cephalosporins were more than 93%, and the resistance rates to aminoglycosides and sulfonamides were relatively low and showed a decline year by year. The resistance rate to ceftazidime/avibactam was only 7.41%, but the resistance rate to tigecycline increased. The difference in resistance rate of CRKP to co-trimoxazole among groups was statistically significant (P<0.05), while the differences in resistance to other antimicrobial agents were not statistically significant (P>0.05). Conclusions The detection rate, clinical characteristics and drug resistance of CRKP infection in different types of departments of medical institutions are different and changing. It is necessary to strengthen the rational use of antibiotics and the prevention and control of nosocomial infection.
Objective To preliminarily understand the equipment configuration and information system function improvement of the microbiology laboratory for etiological submission before antibiotic treatment in Chinese medical institutions, and provide a scientific basis for further targeted action work on the rate of etiological submission before antibiotic treatment. Methods A network questionnaire was released in “Sentinel Hospital Information Reporting System of National Hospital Infection Management Professional Quality Control Center” between March 1 and June 21, 2022. The second-level and above hospitals were investigated. Results A total of 783 hospitals were included, of which 765 (97.7%) hospitals had been equipped with microbiology laboratory equipment to varying degrees, and the allocation rate of tertiary hospitals was higher than that of secondary hospitals (P<0.05). The top three items of common pathogenic test were aerobic (98.3%), bacterial smear (97.6%) and fungal smear (95.1%), and the last three items were streptococcus pneumoniae urine antigen (20.4%), silver hexamine staining (19.0%) and gene sequencing (8.9%). The comparison of relevant information system and function improvement among hospitals of different levels showed that tertiary hospitals were superior to secondary hospitals (P<0.05). In different regions, except for the allocation rate of nosocomial infection information monitoring system and rational drug use monitoring system (P>0.05), other relevant systems and functional improvement of hospitals in eastern, central and western regions, the differences were statistically significant (P<0.05). The number of hospitals that could obtain the indicators of “etiological submission rate of inpatients before antibiotic treatment”“etiological submission rate related to hospital infection diagnosis”“etiological submission rate before combined use of key drugs” were 698 (89.1%), 474 (60.5%) and 337 (43.0%), respectively. Among the factors affecting the implementation of special actions, 454 hospitals (58.0%) thought that the information system was not fully functional, 341 hospitals (43.6%) thought that the etiology testing project was not fully carried out, and 148 hospitals (18.9%) thought that the microbiology laboratory testing ability was insufficient. Conclusion All kinds of hospitals at all levels in China, especially specialized and secondary hospitals, need to further improve the configuration of equipment and information system functions in the microorganism laboratory related to aetiology inspection, strengthen the support for microbial inspection, and strengthen information management, monitoring and analysis.
ObjectiveTo summarize the clinical experience in the prevention and treatment of novel coronavirus (2019-nCoV, SARS-CoV-2) disease (COVID-19) in the department of thoracic surgery of large grade A tertiary hospitals in Wuhan, and to provide feasible clinical practice strategies.MethodsThe clinical data of 41 COVID-19 patients in the department of thoracic surgery of 7 large grade A tertiary hospitals in Wuhan from December 15, 2019 to February 15, 2020 were analyzed retrospectively. There were 20 surgical patients (10 males and 10 females at an average age of 54.35±10.80 years) and 21 medical personnel (7 males and 14 females at an average age of 30.38±6.23 years).ResultsThe main clinical manifestations of COVID-19 patients were fever (70.73%) and cough (53.66%). Normal or reduced peripheral white blood cells and reduced lymphocyte counts were found in the COVID-19 patients, and some patients may have increased C-reactive protein. COVID-19 patients showed limited ground-glass opacities in early chest CT, which was evident in the edge band of lung. The disease could further develop into multiple pulmonary infiltrations, and pulmonary consolidation was found in severe cases. At the time of confirmed diagnosis, most of the medical personnel were ground-glass shadows and unilateral lesions, and even no obvious abnormalities were found in the lungs. The diagnosed COVID-19 patients were transferred to the isolation ward immediately and treated according to the "Diagnosis and Treatment Program of Novel Coronavirus Pneumonia", which was released by the National Health Commission of the People's Republic of China. At the end of follow-up on February 20, 2020, seven surgical patients (35.00%) were discharged and seven (35.00%) were dead, 13 (61.90%) medical personnel were discharged and no death was found.ConclusionsOf all COVID-19 patients in the department of thoracic surgery of hospitals in Wuhan, the proportion of severe degree and mortality in surgical patients are significantly higher than that of the general population, and medical personnel are prone to nosocomial infections. Early oxygen therapy and respiratory support may improve prognosis. During the epidemic period of COVID-19, elective or limited surgery is suggested to be postponed and the indications for emergency operation should be strictly controlled. Emergency operation is suggested to be treated in accordance with tertiary prevention. On the consideration of specialty in the department of thoracic surgery, all people of the ward should be carefully investigated for infection once one case is confirmed with COVID-19. Early detection, isolation, diagnosis, and treatment are the best preventive measures to improve the prognosis of COVID-19.
ObjectiveTo sum up experiences of precaution and provide evidence to prevent such accidents in the future via analyzing the nosocomial infection in newborn babies who were infected by rotavirus. MethodsWe investigated and monitored the 8 cases of nosocomial infection occurred between July 7th and July 14th, 2012 by epidemiologic and environmental hygienic methods, and analyzed the existing risk factors and took measures to control. ResultsThere were 8 nosocomial infected cases among the 45 newborn babies who were hospitalized. The infection rate was 17.8% and the accident lasted for 7 days. The distribution of space, time and population was clustered. Environment and hands were the main media to spread the virus. ConclusionThe accident was a suspected nosocomial infection caused by rotavirus in the hospital. It can be controlled effectively through intensive cleaning and sterilizing, isolated touching, and improving the medical staff's compliance and accuracy rate of hand sanitation.
Objective To investigate and analyze the difficulties of nosocomial infection management in different-level medical institutions in Shanghai, and to provide scientific basis for improving the level of nosocomial infection management. Methods A questionnaire was designed to include 10 difficulties in nosocomial infection management such as professional title promotion, salary, and personnel allocation. In October 2023, the Shanghai Nosocomial Infection Quality Control Center, in collaboration with the Shanghai Hospital Association, conducted a questionnaire survey among the heads of nosocomial infection management departments in medical institutions in Shanghai. The scores of difficulties were analyzed by stratification according to hospital level, allocation and changes of full-time personnel. Results A total of 548 questionnaires were distributed, and 530 valid questionnaires were retrieved, with a recovery rate of 96.72%. There were 55 public tertiary, 93 public secondary, 169 public primary and 213 social medical institutions. The rates of full-time personnel allocation meeting standards were 76.36% (42/55), 72.04% (67/93), 31.95% (54/169), and 21.60% (46/213), respectively. There was a statistically significant difference in the rates of full-time personnel allocation meeting standards among different levels of medical institutions (χ2=105.149, P<0.001). There was no statistical difference in the total scores of nosocomial infection management difficulties among different-level medical institutions (F=1.657, P=0.176). There were statistically significant differences in the scores of difficulties in professional title promotion, cumbersome daily norms and requirements, insufficient allocation of full-time personnel, and high personnel turnover (P<0.05). Conclusions The main difficulties in nosocomial management of medical institutions at all levels in Shanghai include the difficulty in career promotion, cumbersome daily norms and requirements, insufficient allocation of full-time personnel and lack of experience. In the future, medical institutions should strengthen the allocation of full-time personnel and enhance their capabilities, provide smooth promotion channels, to promote the high-quality development of nosocomial infection management ultimately.
ObjectiveTo explore the risk factors for multiple nosocomial infection in adult hospitalized patients, so as to provide references for the control of nosocomial infection. MethodsThe clinical data of adults hospitalized patients with nosocomial infection in the Second Affiliated Hospital of Fujian Medical University during Jan. 2015 to Dec. 2015 were collected, and the susceptible factors of multiple nosocomial infections referencing to the single nosocomial infection were analyzed. Results1226 cases (1368 case-times) of nosocomial infection were found and the infection rate and the case-time infection rate were 2.24% and 2.49%, respectively. Single factor analysis results showed that the top four risk factors of multiple nosocomial infection included hospital stay ≥30 days (25.5%), first infection time ≥30 days (23.2%), incision type Ⅲ (16.7%), and surgery (13.4%). Logistic regression analysis result showed, after adjusting the influence of age and gender, longer hospital stay was the independent risk factor of multiple nosocomial infection referencing to single nosocomial infection (OR=3.475, 95%CI 2.545 to 4.745). ConclusionLonger hospital stay is the independent risk factor of multiple nosocomial infection of adult hospitalized patients. Measures should be taken to shorten the length of stay in hospital and reduce the exposure to the high-risk environment, so as to reduce the incidence of multiple nosocomial infection.
Objective To explore the application of risk assessment of nosocomial infection control in outpatient departments, so as to find out the high-risk departments and high-risk links of nosocomial infection, and to provide basis for the formulation of nosocomial infection prevention and control measures in outpatient departments. Methods The improved risk assessment tool was used to evaluate the nosocomial infection management risk in the outpatient departments of Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology. We evaluated risk indicators and risk levels from three dimensions: likelihood of risk occurrence, severity of consequences, and integrity of the current system. Results Among the evaluated outpatient departments, the departments with extremely high risk levels included pediatric fever outpatient department (147.8 points), pediatric outpatient department (141.2 points), emergency internal medicine department (139.4 points), and pediatric emergency department (138.8 points). The departments with high risk levels included internal medicine outpatient department (138.4 points), dermatology outpatient department (136.0 points), otolaryngology-head and neck surgery outpatient department (135.6 points), and ophthalmology outpatient department (134.0 points). The risk assessment scores of 31 outpatient departments showed a normal distribution. The evaluation results of various risk indicators showed that among the 26 risk indicators, there were 2 extremely low risk, 4 low risk, 6 medium low risk, 7 medium high risk, 4 high risk, and 3 extremely high risk. The 3 extremely high risk indicators were lack of nosocomial infection prevention and control knowledge, patients with difficult to identify diseases (air/droplet transmission) seeking medical treatment, and crowded waiting areas for patients. Conclusions The comprehensive risk assessment of outpatient departments can screen out high risk outpatient departments and find out the main risk links. We can concentrate resources on key departments, prevent key risks, and improve the efficiency of nosocomial infection control.
Objective To explore the key contents of nosocomial infection prevention and control training for medical staff in secondary and above hospitals, so as to provide scientific basis for training in the future. Methods The medical workers who participated in the training of nosocomial infection prevention and control in secondary and above hospitals of 6 prefecture-level cities in Jiangxi province in December 2020 were selected. The same questionnaire was used to test the participants before and after training, and the changes of scores before and after training were compared. Results A total of 73 medical workers were included. After training, the total scores of the questionnaire (14.13±1.95 vs. 11.27±2.76; t=11.053, P<0.001), scores of manual hygiene specifications knowledge unit (4.63±0.65 vs. 4.02±1.37; t=4.215, P<0.001), scores of hospital isolation technical specifications knowledge unit (4.28±1.05 vs. 3.47±1.29; t=4.895, P<0.001), scores of airborne disease hospital infection prevention and control norms knowledge unit (5.21±0.96 vs. 3.76±1.04; t=10.419, P<0.001) and the overall accuracy of the questionnaire (83.00% vs. 66.32%) were higher than those before training. Conclusions After the training, the accuracies of different topics are improved, but there is still room for improvement in each knowledge unit. More effective training strategies should be considered.