目的 调查四川省妇幼保健院医院感染发生情况及影响因素,以改进医院感染发病率监测方法与医院感染预防和控制措施。 方法 对2011年9月19日0:00~24:00所有住院患者进行调查,包括当日出院、转院、死亡的患者,但不包括新入院患者,使用全国医院感染监控网统一设计的调查表,采用床旁调查和查阅病历相结合,对调查结果进行统计分析。 结果 应调查住院患者112例,实际调查109例,实查率为97.3%;发生医院感染4例,现患率为3.7%。医院感染部位以呼吸道为主,抗菌药物使用率为64.2%。 结论 通过医院感染现患率调查,可以在短期内全面了解医院感染的现状,针对性的制定医院感染监控措施,预防和控制医院感染的发生。
Objective To assess the effectiveness and safety of flunarizine for refractory epilepsy. Methods Relevant randomized controlled trials (RCTs) were searched from the database of PubMed, EMbase, Cochrane Library, CNKI, CBM, and VIP, and the related references were traced to obtain the information. The methodological quality of included RCTs was assessed using Jadad scale and meta-analysis was performed using RevMan 5.0 software. Results A total of eight studies involving 545 patients were included. The results of meta-analyses showed that: based on the conventional therapy, compared with placebo and none-treatment, flunarizine was more effective on adults and children with refractory epilepsy (OR=2.98, 95%CI 1.88 to -4.73; OR=33.75, 95%CI 4.13 to -276.00). Major adverse events of flunarizine were fatigue, dizziness, headache, and weight gain etc. All those symptoms except for the weight gain were observed in the early stage of medication, which might get self-cured or could disappear by constant medication or reducing the dose or symptomatic treatment. Conclusion The present study shows that based on the conventional therapy, flunarizine is effective and safe for refractory epilepsy.
Objective This study analyzed the medical expenditure and its influential factors, and compared the clinical effectiveness and medical expenditure of three major drugs. Methods We designed the cohort study to compare the difference of medical and pharmaceutical expenditures between patients with and without underlying diseases. Multi-linear regression was applied to analyze the influential factors. Incremental expenditure-effectiveness ratio was applied to study three clinically important drugs. Results The curing rate of non-critical patients was statistically significant than critical patients (73.68%, 99.38%, P=0.000) .The curing rate of non-critical patients without underlying diseases was statistically significant than those with underlying diseases in the cohort (96%, 99.66%, P=0.001 6). No significance was identified in the critical patients cohort. The medical expenditure of non-critical patients with and without underlying diseases were 7 879.22 and 7 172.23 RMB per capita, respectively. Accordingly, the medical expenditure in critical patients was 24 912.89 and 26 433.53 RMB per capita. No significance was identified in the two cohorts. Medical expenditure was positively correlated with age and disease severity, with its equation y=4585.71+79.04X1+17188.87X2 (X1: age, X2: disease severity). Regarding the clinical effectiveness and medical expenditure, no significance was identified in critical patients who administered small and medium dose of Methylprednisolone. The expenditure-effectiveness ratios of Ribavirin that was administered by non-critical patients without underlying dissuades were 6 107 and 4 225 RMB, respectively. Accordingly, the expenditure-effectiveness ratios of Thymosin were 11 651 and 6 107 RMB. Conclusions The curing rate of non-critical patients without underlying diseases was higher than the counterpart in the cohort. No influence of underlying diseases was found in the critical patient cohort. Medical expenditure was positively correlated with age and disease severity. Small-and-medium dose of Methylprednisolone might not influence the curing rate and medical expenditure in critical patients. The effectiveness of Thymosin for non-critical patients with and without underlying diseases was not significantly different. However, additional 5 877 RMB occurred if Thymosin was administrated. Likewise, the effectiveness of Ribavirin for non-critical patients remains the same. However, additional 1 082 RMB was consumed in Ribavirin-administrated patient.