It has been 36 years since the first version of essential medicine list (EML) was released by WHO in 1977,when 18 versions of WHO-EML and four versions of children essential medicine list have been released. In 1982, the first version of national essential medicine list (NEML) was released in China. Till 2012, there were eight versions of NEML in total. This paper introduces WHO-EML in aspects of origin, idea, definition, design, and innovation of selection methodology,principle, and workflow; compares the evolution, design, selection methodology between WHO-EML and Chinese NEML; and points out the challenges of evaluation and decision making of Chinese NEML.
Objective To introduce the evidence-based evaluation on off-label uses at home and abroad, so as to investigate a systematic method of evidence-based evaluation on off-label uses. Methods In combination with the domestic and international research literature, a systematic method of evidence-based evaluation on off-label uses was discussed from the following three aspects: sources of evidence, levels of evidence, and recommendation strength. Results Sources of evidence included Clinical Pharmacology, DRUGDEX? System, NCCN Drugs amp; Biologics Compendium and handsearched literature. Levels of evidence and recommendation strength could refer to the 2009 grade system of Oxford Centre for Evidence-Based Medicine, and the strength of recommendations and scientific support of DRUGDEX? System. Conclusion A systematic method of evidence-based evaluation on off-label uses is initially established.
目的:通过对可重复使用物(管道类)存放现状的调查,为基层医院感染管理提供一定的理论依据。方法:对本市10家二级及以上医疗机构40个临床科室可重复使用医疗用物(管道类)的管理情况进行问卷调查,2007年2月对可重复使用医疗用物进行微生物监测。结果:共334件管道,其中二级医院218件,菌落超标34件,占10.17%;三级医院116件,菌落超标7件,占2.09%。结论:建立对可重复使用医疗用物管理制度,规范操作规程,才能有效防止医院感染。
Objective To explore the serious situation of injection abuse, and its influence to average prescription fee. Methods The subjects of this study were health service settings in rural area of 9 provinces/cities in Midwest of China. The treatment prescription indicators of county and village health service settings were calculated. Results Prescription injection rates of health care facility in rural area of Midwest provinces/cities of China (25.8% to 62.2%,mean: 45.1%) were higher than the standard of WHO (13.4% to 24.1%), and the injection abuse situation was serious. Injection bause caused the increase of prescription fee. Excess usage of injection in health service settings was related to the economic level of the on-site county or village, and also related to the size and load of health service facilities. Conclusion Suggestions are proposed to the government health agency according to the results of the study: enhancing the lawmaking, establishing the related policy and effective measure, training the medical personnel, promoting the mass health education, investigating the effective injection management model in rural area, and reducing the rate of injection.
目的:了解我院门诊部抗菌药物的使用情况,防止临床上滥用抗菌药。方法:随机抽取2008年成人普通处方,每季度100份,共计400份,统计所需分析数据。结果:抗菌药物的品种数占处方用药总品种数的1154%;抗菌药物的总金额占处方总金额的比率为1341%;注射剂使用率为4%;每张处方合并用药品种数269种;处方使用通用名为100%;抗真菌药物的使用率低于1%。结论:门诊患者抗菌药物使用合理。
ObjectiveTo explore the risk factors for surgical patients associated with postoperative nosocomial infection through monitoring the infection conditions of the patients, in order to provide a scientific basis for the development of hospital infection control measures in a second-grade class-A hospital in Chengdu City. MethodsWe conducted the survey with cluster sampling as the sampling method and the uniform questionnaire in the departments of orthopedic, neural and thoracic surgery from July 2011 to June 2012. The main parameters we observed were the patients'general and surgical conditions, antibiotics usage and hospital infection situation. Data were analyzed using the National Nosocomial Infection Surveillance Network software and chi-square test of single factors. ResultsIn this survey, we monitored 50 cases of postoperative hospital infection. The infection rate was 7.73% and the highest infection rate was in the Neurosurgery Department. The main site of infection was lower respiratory tract, followed by surgical site. The different usage time of antimicrobial drug in perioperative period resulted in different infection rates, and the difference was statistically significant (χ2=601.50, P<0.005). The rate of adjusted postoperative hospital infection was higher than pre-adjusted rate except that of the neurosurgery doctor 4. The risk factors associated with hospital postoperative infection in our hospital were:patients'conditions including underlying disease, emergency surgery, type of anesthesia, operative duration, hospital stay and postoperative drainage. Most of the hospital infection cases were caused by bacteria of the gram-negative bacilli, and the major pathogens were Klebsiella pneumoniae, Pseudomonas aeruginosa and Acinetobacter baumannii in our hospital. ConclusionThe hospital should particularly strengthen the prevention and control of hospital infection in patients after neurosurgical operations. For patients with basic diseases, we should actively improve the patients'physical conditions before operation and control the primary lesion. Targeted control measures should be taken for different factors related to surgery. Reasonable selection of antimicrobial agents should be based on the epidemic strains in our hospital.
ObjectiveTo analyze the effectiveness of PDCA cycle model in antibiotics management by comparison of antibiotics use before and after the use of PDCA in a tertiary hospital. MethodsProspective study was adopted to analyze the using rate of antibiotics in outpatients, emergent patients and inpatients between June 2011 and December 2013. ResultsThe reasonable antibiotics use was improved since the beginning of PDCA cycle model. The antibiotics using rates of outpatients were 33.00%, 29.09% and 19.31%, of emergent patients were 45.00%, 32.81% and 28.94%, and of inpatients were 71.00%, 57.76% and 53.28% in year 2011 (from June to December), 2012 (from January to December) and 2013 (from January to December) respectively. Meanwhile, ClassⅠ incision antimicrobial use also decreased and bacteria examination rate continuously increased during the last three years. As a consequence, patients' cost was reduced. ConclusionThe PDCA cycle model promotes the standardized management of clinical medication application.