Discipline development is the core power of hospital development,which is highly emphasized by Beijing Municipal Administration of Hospitals.To meet the demands of public hospitals reform and requirements of municipal hospitals development,performance evaluation is used as a tool for municipal hospitals in their fine management.This paper introduced the research performance evaluation system and index design of Beijing’s municipal hospitals,with a summary and analysis the operating and practices.

把社区康复纳入社区卫生服务是“人人享有康复服务”的重要保证,而社区卫生服务康复专业人员的规范化上岗培训是提高社区康复服务质量和可持续发展的关键。北京市在社区卫生服务康复专业人员规范化上岗培训方面已取得一定经验,要搞好此项工作,涉及培训的目的和职称、指导思想、师资队伍、培训基地、组织领导等方面的问题。

Objective:Construct a set of evaluation system of scientific and technological innovation index of Beijing municipal hospitals, so as to lay a foundation for the systematic evaluation of scientific and technological innovation capacities of such hospitals.Methods:By using the methods of literature review and expert consultation, the composition and weight of scientific and technological innovation index of Beijing municipal hospitals are determined.Results:The evaluation system includes 5 first-level indexes, 13 second-level indexes and 17 third-level indexes, which including innovation resource index, talent development index, academic contribution index, development vitality index and industry support index.Conclusions:The evaluation system of scientific and technological innovation index of Beijing municipal hospitals pays attention to the talent development and high-quality output, innovation introduces development vitality index and industrial support index, which is a useful exploration for the " collectivization" horizontal quantitative evaluation of scientific and technological innovation capacity.

Public hospitals reform is a key roadblock for the ongoing health reform.By means of such experiments as Three openings and three mechanisms,Beijing is practicing a separation of hospital regulation and management and separation of clinic and pharmacy,while building the mechanism of financial subscription for pricing,that of medical insurance adjustment,and that of hospital corporate governance.These measures aim at building a new management structure,operation mechanism and medical service model focusing on quality of care,efficiency and satisfaction.Separation of clinic and pharmacy has lowered drug proportion,average outpatient expense and out of-pocket payment of patients,as well as producing higher patient satisfaction,quality of care and hospital income.Other benefits include better management efficiency indirectly caused by separation of clinic and pharmacy,higher acceptance of the corporate governance,and service model innovation to better serve the people.

Objective:To understand the current situation and problems in the construction of research wards in Beijing municipal hospitals, and put forward corresponding strategies and suggestions to explore the path for the construction of research hospitals.Methods:From March 2020 to May 2021, through the method of questionnaire and expert interview, the bed and personnel allocation, projects undertaken, review efficiency and problems faced by the research wards of 22 Beijing municipal hospitals were analyzed in depth.Results:82%(18/22)of the municipal hospitals explored the construction of research wards, and 27%(6/22) were Beijing Demonstration research wards construction units. In 2020, the overall performance of the construction of research ward was as follows: the investment of clinical research resources was increased, the ability of clinical research was enhanced, the ability to serve enterprises in Beijing was improved, the efficiency of examination was improved, but the enrollment rate of clinical research(including clinical trials) was reduced. At present, the main problems were focused on investment, personnel and informatization.Conclusions:The construction of research wards in Beijing municipal hospitals is developing steadily, but there are still some problems, such as lack of clinical research talents, performance incentive and guarantee to be strengthened. In the future, we should strengthen the training of clinical research talents, improve the incentive and guarantee mechanism, promote the integration of industry, university and research, accelerate the construction of clinical research information system, further improve the hospital′s clinical research ability and level, and accumulate experience for the construction of research hospitals.

Total 732 subjects aged 30-60 years undergoing health check-up at Beijing Hospital Medical Examination Center in 2009,who had no history of non-alcoholic fatty liver disease (NAFLD) were recruited in the study.According to the quartile of hemoglobin (HGB) level,the subjects were divided into 4 groups:Q1:HGB ≤ 131 g/L (n =192),Q2:HGB ＞ 131 g/L and ≤ 140 g/L (n =178),Q3:HGB ＞ 140 g/L and ≤152 g/L (n =184),Q4:HGB ＞ 152 g/L (n =178).All participants were followed up for 4 years,the prevalence rates of NAFLD in groups Q1,Q2,Q3 and Q4 were 8.3％ (16/192),17.4％ (31/178),23.4％ (43/184) and 25.3％ (45/178),respectively (P ＜0.05).Logistic regression showed that the rates of NAFLD in groups Q2,Q3 and Q4 were 2.32 (1.22-4.41),3.36 (1.81-6.21) and 3.72(2.02-6.87) times higher as group Q1 (P ＜ 0.05).Multiple logistic regression analysis showed that the hemoglobin level,TG and BMI were the independent risk factors of NAFLD.

Collaborative development among medical practice, education and research is a strategic decision of the country in disciplinary development guided by the innovation-driven strategy. In October 2017, Beijing Hospitals Authority organized 18 tertiary hospitals with pediatrics discipline and founded a collaborative development center for pediatrics. This center operated in a model featuring both leadership of due authorities and autonomous administration. Two of the specialized pediatrics hospitals work as leading units, and existing high quality pediatrics resources of the member hospitals were pooled to establish an academics committee and an executive committee. A development system was established with disciplinary construction as the focus, collaborative development as the goal and horizontal collaboration as the means. It was designed to explore a new model featuring overall planning and standardized management of the discipline, building of a shared platform for clinical capacity development, joint development of continued medical education and talent cultivation, as well as diversified and multi-centered research and platform resources sharing. This model can effectively promote the overall development level of pediatrics in Beijing municipal hospitals.

ObjectiveBased on ultra performance liquid chromatography-quadrupole-time-of-flight mass spectrometry（UPLC-Q-TOF-MS^E） technique， we identified qualitatively the metabolites of aristolochic acid（AAs） in rat in order to analyze the metabolic differences between water extract of Aristolochiae fructus（AFE） and Aristolochic acid Ⅰ（AAⅠ）. MethodSD rats were selected and administered AFE（110 g·kg^-1·d^-1） or AAⅠ（5 mg·kg^-1·d^-1） by oral for 5 days， respectively. Serum， urine and feces were collected after administration. Through sample pretreatment， ACQUITY UPLC BEH C₁₈ column（2.1 mm×100 mm， 1.7 μm） was used with the mobile phase of 0.01% formic acid methanol（A）-0.01% formic acid water（B， containing 5 mmol·L^-1 ammonium acetate） for gradient elution（0-1 min， 10%B； 1-7 min， 10%-75%B； 7-7.2 min， 75%-95%B； 7.2-10.2 min， 95%B； 10.2-10.3 min， 95%-10%B； 10.3-12 min， 10%B） at a flow rate of 0.3 mL·min^-1. Positive ion mode of electrospray ionization（ESI⁺） was performed in the scanning range of m/z 100-1 200. In combination with UNIFI 1.9.4.053 system， the Pathway-MS^E was used to qualitatively analyze and identify the AAs prototype and related metabolites in biological samples（serum， urine and feces）， and to compare the similarities and differences of metabolites in rats in the subacute toxicity test between AFE group and AAⅠ group. ResultCompared with AAⅠ group， 6， 10， 13 common metabolites and 14， 20， 30 unique metabolites were identified in biological samples（serum， urine and feces） of AFE group， respectively. Moreover， the main AAs components always followed the metabolic processes of demethylation， nitrate reduction and conjugation. Compared with common metabolites in AAⅠ group， prototype components of AAⅠ in serum and most metabolic derivatives of AAⅠ［AAⅠa， aristolochic lactam Ⅰ（ALⅠ）a， 7-OHALⅠ and its conjugated derivatives］ in biological samples were significantly increased in AFE group（P<0.05， P<0.01）， except that the metabolic amount of ALⅠ in feces of AFE group was remarkably lowed than that of AAⅠ group（P<0.01）. In addition， a variety of special ALⅠ efflux derivatives were also identified in the urine and feces of the AFE group. ConclusionAlthough major AAs components in AFE all show similar metabolic rules as AAⅠ components in vivo， the coexistence of multiple AAs components in Aristolochiae Fructus may affect the metabolism of AAⅠ， and achieve the attenuating effect by increasing the metabolic effection of AAⅠ and ALⅠ.