Study on Control Strategy of Sulfur Dioxide Concentration in the Urban Area of Shijiazhuang

Two Gaussian air quality dispersion models, the industrial source complex short-term model (ISCST3) with and without modification have been used to simulate the pollutant concentration distribution in urban areas based on the meteorological data and the emissions distribution of sulfur dioxide. The verified data show that the modified model is more accurate in the urban area of Shijiazhuang. Using the modified model predictions, the control strategies of sulfur dioxide in the urban area have been studied, and the result show that the second long-term (to 2010) strategy can mitigate air pollution significantly and maintain pollution levels within permissible limits.

Improving tuberculosis infection control practice and microbial air quality in a general hospital after intervention

Objective:Hospital personnel,especially nurses are at risk for tuberculosis(TB) infection and the intervention for reducing the risk should be established.Methods:To compare the TB infection control practices and standard precaution in 154 registered nurses and auxiliary nurses working in risk wards.Additionally,microbial air quality in the studied wards was investigated before and after implementation of an intervention including twoday training program on TB infection control and standard precaution practices and managing the ward environments. Results:Post-intervention,the percentage of studied nurses who always practiced increased in every item of TB infection control practice(6 items) and standard precaution(9 items) when compared with the preintervention period.Both mean scores were significantly higher than those before intervention(5.0±1.0 vs 4. 4±1.1,and 7.6±1.3 vs 6.7±1.5,P【0.001,respectively).As well as,bacterial and fungal counts in air samples collected from every studied ward decreased after implementing the intervention,for example, mean of bacterial counts in OPD decreased from 387.8±249.5 cfu/m^3 to 194.4±134.3 cfu/m^3.Additionally, there was no air sample with high level of bacterial and fungal counts,whereas,3.7 -22.2%of air samples collected before intervention had high level of bacterial counts(】500 cfu/m^3).Conclusion:Two-day training program and management of the ward environment could improve the scores of TB infection control practices and the standard precaution among studied nurses and reduce the microbial counts in air samples collected from the studied wards.

Infection Prevention Strategy in General Hospital under Regular Epidemic Prevention and Control

New coronavirus pneumonia spread rapidly all over the world in the first half of 2020, which is a new respiratory disease with strong infectiousness. At present, the epidemic situation in China has been effectively controlled, but the global epidemic situation remains grim, and the National Health Commission has instructed that the prevention and control of new coronavirus pneumonia should become normalized. As outposts for surveillance of public health events, hospitals are an important front in the fight against the epidemic. Therefore, it is very crucial to construct infection prevention and control system actively to contain the outbreak. This paper analyzes and summarizes the normal prevention and control management strategy of Infection Control Branch Management (hereinafter referred to as Hospital Infection-Control Dept) in a certain designated comprehensive third-grade hospital in Guangdong Province and transforms the prevention and control means in emergency state into measures for sustainable development, which also provides basis and reference for Hospital Infection-Control Dept of medical institutions to formulate prevention and control guidelines.

Strategy and technology to prevent hospital-acquired infections:Lessons from SARS,Ebola,and MERS in Asia and West Africa

Hospital-acquired infections(HAIs) are serious problems for healthcare systems, especially in developing countries where public health infrastructure and technology for infection preventions remain undeveloped. Here, we characterized how strategy and technology could be mobilized to improve the effectiveness of infection prevention and control in hospitals during the outbreaks of Ebola, Middle East respiratory syndrome(MERS), and severe acute respiratory syndrome(SARS) in Asia and West Africa. Published literature on the hospital-borne outbreaks of SARS, Ebola, and MERS in Asia and West Africa was comprehensively reviewed. The results showed that healthcare systems and hospital management in affected healthcare facilities had poor strategies and inadequate technologies and human resources for the prevention and control of HAIs, which led to increased morbidity, mortality, and unnecessary costs. We recommend that governments worldwide enforce disaster risk management, even when no outbreaks are imminent. Quarantine and ventilation functions should be taken into consideration in architectural design of hospitals and healthcare facilities. We also recommend that health authorities invest in training healthcare workers for disease outbreak response, as their preparedness is essential to reducing disaster risk.

Nosocomial infections:Epidemiology,prevention,control and surveillance

Nosocomial infections or healthcare associated infections occur in patients under medical care.These infections occur worldwide both in developed and developing countries.Nosocomial infections accounts for 7% in developed and 10% in developing countries.As these infections occur during hospital stay,they cause prolonged stay,disability,and economic burden.Frequently prevalent infections include central line-associated bloodstream infections,catheter-associated urinary tract infections,surgical site infections and ventilator-associated pneumonia.Nosocomial pathogens include bacteria,viruses and fungal parasites.According to WHO estimates,approximately 15% of all hospitalized patients suffer from these infections.During hospitalization,patient is exposed to pathogens through different sources environment,healthcare staff,and other infected patients.Transmission of these infections should be restricted for prevention.Hospital waste serves as potential source of pathogens and about 20%–25% of hospital waste is termed as hazardous.Nosocomial infections can be controlled by practicing infection control programs,keep check on antimicrobial use and its resistance,adopting antibiotic control policy.Efficient surveillance system can play its part at national and international level.Efforts are required by all stakeholders to prevent and control nosocomial infections.

Nosocomial infections and their control strategies

Nosocomial infections are also known as hospital-acquired/associated infections. National Healthcare Safety Network along with Centers for Disease Control for surveillance has classified nosocomial infection sites into 13 types with 50 infection sites, which are specific on the basis of biological and clinical criteria. The agents that are usually involved in hospitalacquired infections include Streptococcus spp., Acinetobacter spp., enterococci, Pseudomonas aeruginosa, coagulase-negative staphylococci, Staphylococcus aureus, Bacillus cereus, Legionella and Enterobacteriaceae family members, namely, Proteus mirablis, Klebsiella pneumonia, Escherichia coli, Serratia marcescens. Nosocomial pathogens can be transmitted through person to person, environment or contaminated water and food, infected individuals, contaminated healthcare personnel's skin or contact via shared items and surfaces. Mainly, multi-drug-resistant nosocomial organisms include methicillin-resistant Staphylococcus aureus, vancomycin-resistant enterococci, Pseudomonas aeruginosa and Klebsiella pneumonia, whereas Clostridium difficile shows natural resistance. Excessive and improper use of broadspectrum antibiotics, especially in healthcare settings, is elevating nosocomial infections, which not only becomes a big health care problem but also causes great economic and production loss in the community. Nosocomial infections can be controlled by measuring and comparing the infection rates within healthcare settings and sticking to the best healthcare practices. Centers for Disease Control and Prevention provides the methodology for surveillance of nosocomial infections along with investigation of major outbreaks. By means of this surveillance, hospitals can devise a strategy comprising of infection control practices.

Contact Precaution: Acceptance of Health Professionals to Teaching Hospital

The adoption by health professionals to the practice of patient isolation is a decision that reduces patients’ risks of occupational exposure to potentially contaminated biological material and prevents nosocomial infections. Verify the compliance of health professionals to the practices of contact precautions in patients colonized by microorganisms in a teaching hospital. This was a prospective observational cohort study in a special-sized hospital located in southeastern Brazil. The observation of health professionals in delivery of health care to patients with contact precaution was performed regarding hand hygiene, use of overcoat, glove, and mask. We carried out 1502 observations involving the following professional categories: nursing technicians and/or nursing assistants (n = 1028;68.4%), nurses (n = 200;13.3%), physical therapists (n = 185;12.3%), and physicians (n = 89;5.9%), totaling 971.8 hours. Regarding the level of compliance of professionals to contact precaution practices with hand hygiene after the procedures, the use of overcoats, gloves, and masks, all were statistically significant (p Klebsiella pneumoniae was the most positive pathogen identified in laboratory tests. This study provided the mapping of the compliance of health professionals to the practices of contact precautions in order to support a safer management of patient care reducing the risks of Healthcare-Associated Infections (HAI). This study also showed that health professionals are using practice management to deal with their behavior to protect their health.

Nationwide evaluation of energy and indoor air quality predictive control and impact on infection risk for cooling season

Since the coronavirus disease 2019,the extended time indoors makes people more concerned about indoor air quality,while the increased ventilation in seeks of reducing infection probability has increased the energy usage from heating,ventilation,and air-conditioning systems.In this study,to represent the dynamics of indoor temperature and air quality,a coupled grey-box model is developed.The model is identified and validated using a data-driven approach and real-time measured data of a campus office.To manage building energy usage and indoor air quality,a model predictive control strategy is proposed and developed.The simulation study demonstrated 18.92%energy saving while maintaining good indoor air quality at the testing site.Two nationwide simulation studies assessed the overall energy saving potential and the impact on the infection probability of the proposed strategy in different climate zones.The results showed 20%–40%energy saving in general while maintaining a predetermined indoor air quality setpoint.Although the infection risk is increased due to the reduced ventilation rate,it is still less than the suggested threshold(2%)in general.

Development of an integrated policy making tool for assessing air quality and human health benefits of air pollution control

Efficient air quality management is critical to protect public health from the adverse impacts of air pollution. To evaluate the effectiveness of air pollution control strategies, the US Environmental Protection Agency （US EPA） has developed the Software for Model Attainment Test-Community Edition （SMAT-CE） to assess the air quality attainment of emission reductions, and the Environmental Benefits Mapping and Analysis Program- Community Edition （BenMAP-CE） to evaluate the health and economic benefits of air quality improvement respectively. Since scientific decision-making requires timely and coherent information, developing the linkage between SMAT-CE and BenMAP-CE into an integrated assessment platform is desirable. To address this need, a new module linking SMAT-CE to BenMAP-CE has been developed and tested. The new module streamlines the assessment of air quality and human health benefits for a proposed air pollution control strategy. It also implements an optimized data gridding algorithm which significantly enhances the computational efficiency without compro- mising accuracy. The performance of the integrated software package is demonstrated through a case study that evaluates the air quality and associated economic benefits of a national-level control strategy of PM2.5. The results of the case study show that the proposed emission reduction reduces the number of nonattainment sites from 379 to 25 based on the US National Ambient Air Quality Standards, leading to more than USS334billion ofeconomic benefits annually from improved public health. The integration of the science-based software tools in this study enhances the efficiency of developing effective and optimized emission control strategies for policy makers.

消毒供应室全程质量控制对降低医院感染发生率的作用研究

目的分析在消毒供应室中实施全程质量控制对医院感染发生率的控制作用。方法选择2021年1月至2022年12月作为研究时间段,2021年1月至2021年12月作为对照组,实施常规消毒供应室护理管理;2022年1月至2022年12月作为试验组,实施消毒供应室全程质量控制,以10名消毒供应室工作人员、监测500次作为研究对象,比较两组时间段当中工作人员的管理质量水平,探讨手术器械合格率,分析医院感染发生率。结果试验组工作人员的管理质量水平及手术器械合格率均相比于对照组较高(P<0.05);试验组医院感染发生率比对照组低(P<0.05)。结论在消毒供应室中开展全程质量控制有助于提升工作人员管理质量水平及手术器械合格率,降低医院感染发生率。

分层次教学培训对护士医院感染防控知识掌握水平及管理质量的影响

目的探讨和分析分层次教学培训对护士医院感染防控知识掌握水平及管理质量的影响和改善效果。方法选择安徽医科大学第二附属医院402名护士作为研究对象,于2023年3月1日—7月31日开展分层次教学培训,采用回顾性分析,对是否担任过医院感染管控护士的护士知识掌握程度、培训前后护士医院感染防控知识掌握水平和医院感染管理质量进行比较与分析。结果担任过医院感染管控护士的护士医院感染防控知识掌握评分高于未担任过的护士,差异有统计学意义(P<0.05)。培训后,护士在医院感染管理规范、诊疗器械处理程序、医院感染概念、空气消毒方面的知识掌握评分高于培训前,差异有统计学意义(P<0.05);护士在操作技能、应急能力、理论知识以及消毒管理方面的医院感染管理质量评分高于培训前,差异有统计学意义(P<0.05)。结论分层次教学培训的实施,显著提升了护士的医院感染防控知识掌握水平,同时也改善了医院感染管理质量。

PDCA管理循环对医务人员手卫生及院感率的影响

目的探讨“计划-实施-检查-处理”(plan-docheck-act,PDCA)管理循环方式对医务人员手卫生依从性及院感发生率的影响。方法随机选取茂名市人民医院50名医务人员实施PDCA管理循环。比较实施前(2021年1—12月,对照组)、实施后(2022年1—12月,观察组)医务人员的手卫生依从性、手卫生知识考试成绩、合格率、院感发生率。结果观察组在手卫生依从性方面表现卓越,接触患者前后、周围环境后、无菌操作前、体液暴露后的洗手率分别为88.89%、93.06%、61.67%、83.89%、96.11%,显著高于对照组的76.94%、80.33%、44.44%、65.00%、88.89%(P<0.05)。观察组手卫生知识考试得分和合格率分别为(91.28±12.15)分和96.00%,高于对照组的(82.37±10.23)分和76.00%(P<0.05)。观察组的感染例次率(1.39%)明显低于对照组(6.39%)(P<0.05)。结论PDCA管理循环方式可提高医务人员手卫生依从性,同时可提升手卫生知识水平,降低院感发生率,为提升医疗安全水平提供了有效策略。

日本HEAS-02-2022《医院设施设计指南(空调设备篇)》介绍

日本HEAS-02《医院设施设计指南(空调设备篇)》已经持续应用了30多年,对我国医院建设影响较大。历经4次修订,最新颁布的2022版是由医学主席在疫情中主持修订的,鉴于气溶胶新的传播特性提出了相应的合适措施。在医疗环境控制方面提出了许多新的思路与措施,局部修订了空气洁净度级别和各医疗科室的通风要求。依据感染管理风险评估及推荐强度与证据质量实施合理的医疗环境控制,并对一些关注点进行了澄清。

急性淋巴细胞白血病患儿医院感染防控对策研究

目的探讨急性淋巴细胞白血病患儿医院感染的防控对策。方法选取2019年1月至2022年6月该院血液肿瘤科收治的282例急性淋巴细胞白血病住院患儿,将其随机分为对照组(n=138)、观察组(n=144),2组均实施常规治疗及护理措施,观察组增加预防医院感染防控对策,对比2组患儿医院感染率、感染部位及总体健康水平。结果对照组患儿共发生医院感染22例25例次,观察组共发生医院感染10例12例次,对照组、观察组患儿医院感染发生率分别为15.94%、6.94%,对照组、观察组患儿医院感染例次发生率分别为18.12%、8.33%,观察组患儿医院感染发生率、医院感染例次发生率均低于对照组,差异均有统计学意义(P<0.05);感染主要部位为上呼吸道,革兰阴性菌为主要感染病原菌;观察组生活质量(QOL)评分[(69.87±3.41)分]高于对照组[(63.88±3.09)分],差异有统计学意义(P<0.05)。结论对急性淋巴细胞白血病采取感染防控对策可有效降低患儿医院感染发生率,提高其总体健康水平,有效缓解负性情绪。

循环质控理念联合风险管理模式在ICU住院患者中的应用

目的探讨重症监护室(intensive care unit,ICU)住院患者中应用循环质控理念联合风险管理模式的效果。方法选取2023年1—5月寿光市人民医院ICU住院患者335例作为对照组,实施常规医院感染管理;选取2023年6—12月ICU住院患者340例作为干预组,实施循环质控理念联合风险管理模式。比较2组管理质量、风险事件、医院感染发生率及患者满意度。结果干预组管理质量(感染监测、组织管理、风险评估、制度建设)评分高于对照组(P<0.05);干预组风险事件发生率(1.47%)低于对照组(4.48%)(P<0.05);干预组医院感染发生率(3.82%)低于对照组(7.46%)(P<0.05);干预组患者满意度(98.24%)低于对照组(95.52%)(P<0.05)。结论循环质控理念联合风险管理模式应用于ICU住院患者中,可提高管理质量,减少风险事件与医院感染发生,促进患者满意度提升,体现了《ICU十大安全目标》的执行标准。

全程质量控制联合层级管理模式在消毒供应中心的应用效果

目的:分析全程质量控制联合层级管理模式在消毒供应中心中的应用效果。方法:泰安市妇幼保健院消毒供应中心2021年1月—2022年2月实施常规管理模式,2022年3月—2023年4月实施全程质量控制联合层级管理模式。对比实施前后的消毒供应中心工作人员考核成绩、工作质量评分,并统计不同阶段的医疗器械处理合格率、医院感染发生率。结果:全程质量控制联合层级管理模式实施后消毒供应中心工作人员的理论知识考核成绩、实践技能考核成绩均高于实施前(P<0.05);全程质量控制联合层级管理模式实施后消毒供应中心工作人员的各项工作质量评分高于实施前(P<0.05);全程质量控制联合层级管理模式实施后器械处理合格率高于实施前(P<0.05);全程质量控制联合层级管理模式实施后由医疗器械引发的医院感染发生率低于实施前(P<0.05)。结论:全程质量控制联合层级管理模式能够显著提升消毒供应中心的管理质量,提升工作人员的专业素质和工作质量,提高医疗器械处理合格率,减少医院感染,应用价值较高。

三级甲等医院ICU中心静脉导管相关血流感染防控护理实践现况

目的 :调查三级甲等医院ICU中心静脉导管相关血流感染(Central Line-AssociatedBloodStreamInfections,CLABSI)三级质量控制中的共性问题,为进一步制订干预措施、促进护理质量持续改进提供依据。方法 :基于Donabedian三维质量结构模型,借鉴《预防血管内导管相关血流感染过程质控工具包(推荐版)》中四大指引量表,自行编制ICU中心静脉导管相关血流感染防控护理实践调查问卷,采用便利抽样法于2023年9月—10月对中华护理学会医院感染管理专业委员会委员所在三级甲等医院ICU进行问卷调查分析。结果 :共129家医院的215个ICU完成调查,护理实践结构维度中,156个(72.56%)ICU定期进行CLABSI培训;过程维度中,护士执行率低于80%的项目有10项(31.25%),其中52个(24.19%)ICU在CVC穿刺时使用超声引导,59个(27.44%)ICU采用指南推荐的思乐扣固定导管,55个(25.58%)ICU使用葡萄糖氯己定抗菌敷料。结果维度中,193个(89.77%)ICU填写了CLABSI发生率。结论 :目前CLABSI防控聚焦导管置管和维护过程中的结构、过程及结果环节,但调研发现临床仍未形成同质化的防控措施。建议进一步加强过程质控管理,以期更好地改进护理质量。

公立医院医疗腐败问题治理路径与防控策略研究

公立医院医疗腐败治理对于推进公立医院改革,加速公立医院高质量发展进程,实现健康中国目标具有重要意义。文章从定量分析案件的角度出发,结合中国裁判文书网医疗腐败案件数据和工作具体实践分析当前公立医院腐败问题现状,深入剖析医疗腐败治理存在的困境,如医疗腐败隐蔽性较强,查处极为困难;利益冲突导致“经济人”代理活动频发道德风险;公立医院内部监督制约机制不够有力等。在此基础上,提出创新公立医院反腐败手段,加强反腐深度;优化绩效薪酬分配体系,强化自我约束;健全公立医院内部制约监督机制,扎实推进惩防体系建设等建议。

医院感染质控智慧管理体系使用满意度分析

目的建立医院感染质控智慧管理体系,基于Delone&Mclean模型评估其使用意愿及影响因素。方法利用人工智能、大数据和云计算等信息技术,以数据中心和集成平台为基础,建设医院感染质量控制信息化平台,结合质量指标评价、质量管理团队和质量过程监测3个方面,实现医院感染质控智慧管理。以问卷调查的方式采集数据,选取偏最小二乘结构方程模型和重要性-绩效矩阵评估法来分析数据。结果本体系实践后,医院感染发生率、中央血管导管相关感染率和导尿管相关感染率呈逐年下降趋势(P<0.05)。信息质量指标(实时监测质量)、服务质量指标(提供用户培训)、满意度指标(服务质量满意度)是本体系使用意愿的改进方向。结论医院感染质控智慧管理体系设计合理,有助于加强医院感染的预防和控制工作;同时,应以质控需求为基础,重视技术因素可持续发展,提高智慧管理体系的使用效率。

科感控小组对医院感染管理质量的影响

目的探讨临床科室设置科感控小组对医院感染(院感)管理质量的影响,以提高院感管理质量。方法选取2022年1月—2023年12月丹阳市中医院15个临床科室为研究对象。2022年1—12月实施传统院感管理法,设为对照组;2023年1—12月在传统管理法的基础上实施院感防控小组管理法,设为观察组。比较两组院感发生率、院感管理质量评分、临床科室总考核成绩。结果对照组的院感发生率为4.15%(248/5996)低于观察组的5.19%(273/5264),差异有统计学意义(χ^(2)=7.004,P<0.05)。观察组院感管理质量评分均高于对照组,差异有统计学意义(P均<0.05)。观察组各科室考核成绩均高于对照组,差异有统计学意义(P均<0.05)。结论在各个临床科室设置院感防控小组,讨论制定各科室院感防控计划,并负责推进落实,可降低院感发生率,提高院感管理质量。