BACKGROUND: AND PURPOSE: Previous studies have explored the association between retinal vascular changes and cognitive impairment. The retinal vasculature shares some characteristics with the cerebral vasculature, and quantitative changes in it could indicate cognitive impairment. Hence, a comprehensive meta-analysis was performed to clarify the potential relationship between retinal vascular geometric changes and cognitive impairment. METHODS: Relevant databases were scrupulously and systematically searched for retinal vascular geometric changes including caliber, tortuosity, and fractal dimension (FD), and for cognitive impairment. The Newcastle-Ottawa Scale was used to evaluate the methodological quality of included studies. RevMan was used to perform the meta-analysis and detect publication bias. Sensitivity analyses were also performed. RESULTS: Five studies that involved 2,343 subjects were finally included in the meta-analysis. The results showed that there was no significant association between central retinal artery equivalents (Z=1.17) or central retinal venular equivalents (Z=1.74) and cognitive impairment (both p>0.05). Similarly, no significant difference was detected in retinal arteriolar tortuosity (Z=0.91) and venular tortuosity (Z=1.31) (both p>0.05). However, the retinal arteriolar FD (mean difference: −0.03, 95% CI: −0.05, −0.01) and venular FD (mean difference: −0.03, 95% CI: −0.05, −0.02) were associated with cognitive impairment. CONCLUSIONS A smaller retinal microvascular FD might be associated with cognitive impairment. Further large-sample and well-controlled original studies are required to confirm the present findings.

Objective To observe the changes of serum clara cell protein?16 ( CC?16 ) and monocyte chemotaxis protein?1 (MCP?1) level in patients with acute respiratory distress syndrome (ARDS) and to explore their relationship with the disease severity and prognosis of ARDS??Methods One hundred and fourteen patients with ARDS who were admitted to Changzhi People′s hospital from January 2017 to March 2018 were selected as the subjects??They were divided into mild group ( n＝37),moderate group (n＝41) and severe group ( n＝36) according to the severity of ARDS??Sixty healthy persons in out?patient examination were selected as control group??The survival situation of patients in 4 weeks were recorded,the patients were divided into survival group ( n＝65) and death group ( n＝49) according to their survival situation??The age,gender,body mass index (BMI),smoking history,acute physiology and acute physiology and chronic health evaluation II ( APACHE II) score,sequential organ failure assessment ( SOFA) score, serum CC?16 and MCP?1 level were analyzed in each group??The relationship between serum CC?16,MCP?1 level and disease and prognosis of patients with ARDS were analyzed??Results With the increase of disease severity,APACHE II score, SOFA score and serum CC?16, MCP?1 level in patients with ARDS were significantly increased??The differences were statistically significant ( F＝1 216??886,1 339??247,290??879, 417??262; all P＝0??000)??The APACHE II score,SOFA score and serum CC?16,MCP?1 levels in the death group were (22??13± 2??47) scores,( 15??09 ± 1??97) scores,( 23??85 ± 4??27) μg／L, ( 36??64 ± 5??21) ng／L respectively,which were significantly higher than those in the survival group (18??25±2??35) scores,(13??23 ±2??03) scores,(17??34±4??13) μg／L,(27??93±4??88) ng／L,the differences were statistically significant (t＝8??538,4??905,8??211,9??146;all P＝0??000)??Pearson correlation analysis showed that there was a positive correlation between serum CC?16 level and MCP?1 level in patients with ARDS ( r＝0??589, P ＝0??000)??Meanwhile,the CC?16,MCP?1 were positive correlation with APACHE II score,SOFA score and mortality (CC?16:r＝0??504,0??549,0??472;P＝0??000,0??000,0??012;MCP?1:r＝0??493,0??528,0??435;P＝0??006, 0??000,0??025)??APACHE II score ( OR＝3??083,95%CI:0??025－1??364,P＜0??05),CC?16 ( OR＝5??403, 95%CI:0??011－6??561, P＜0??05) and MCP?1 ( OR＝2??892, 95%CI: 0??034－1??619, P＜0??05) were all closely related to ARDS death??CC?16 independent detection, MCP?1 independent detection and the two combined detection predicted the under?curve area, sensitivity and specificity of ARDS patients with in 4 weeks were 0??830, 82??35% and 72??16%; 0??719, 79??25% and 72??19%; 0??866, 85??06% and 80??72%respectively??Conclusion CC?16,MCP?1 are abnormally high expression in serum of patients with ARDS, and its levels are closely related to the severity and prognosis of patients with ARDS??CC?16 combined with MCP?1 detection has high diagnostic value for patients with ARDS,which can be used as an effective index to judge the disease and prognosis of patients with ARDS??

OBJECTIVE：To provide reference for accelerating the process of prescription outflow in China by using “Internet+ medicare”. METHODS ：Based on stakeholder perspective ，the stakeholder model of prescription outflow was constructed under the background of “Internet + ”. By analyzing stakeholders （hospital，patient，government，drugstore and third-part consultation platform）who impeded the prescription outflow and their demands ，the obstacles and causes of promoting prescription outflow under the background of “Internet+”were summarized to put forward relevant countermeasures and suggestions. RESULTS & CONCLUSIONS：“Internet+Medicare”accelerated the process of prescriptions outflow by improving the convenience in each links of medical treatment ，but there were still obstacles in prescription source ，patient flow ，supporting policies and system construction to continue promoting prescription outflow. The reason lied in the pressure of hospital operation and the diagnosis demand of doctors；the treatment demand of patients could not be satisfied by the receiving party of prescription outflow ；the difficulty of government supervision and system construction ；immature supervision mode of the third-party consultation platform and online pharmacies，and the platform technology research and development to be break through. To continue promoting prescription outflow under the background of “Internet + ”needs to strengthen top-level design ，establish supporting systems ，break the regional restrictions，build a unified and standardized prescription circulation information platform ；formulate the prescription outflow assessment standard and encouragement mechanism of hospital ，enhance the ability of the third-part platforms and pharmacies to undertake the prescription ，strengthen the publicity and education of patients ，enhance their channel awareness and risk awareness. The exploration mode of prescription outflow in which all stakeholders develop together and cooperate with each other is formed finally so as to promote the outflow of prescription.

OBJECTIVE: To investigate the development present situation of the department of critical care medicine in Inner Mongolia Autonomous Region (hereinafter referred to as Inner Mongolia), in order to promote the standardized and homogeneous development of critical care medicine in Inner Mongolia, and also provide a reference for discipline construction and resource allocation. METHODS: A survey study was conducted in comprehensive intensive care unit (ICU) of tertiary and secondary hospitals in Inner Mongolia by online questionnaire survey and telephone data verification. The questionnaire was based on the Guidelines for the Construction and Management of Intensive Care Units (Trial) (hereinafter referred to as the Guidelines) issued by the National Health Commission in 2009 and the development trend of the discipline. The questionnaire covered six aspects, including hospital basic information, ICU basic information, personnel allocation, medical quality management, technical skill and equipment configuration. The questionnaire was distributed in September 2022, and it was filled out by the discipline leaders or department heads of each hospital. RESULTS: As of October 24, 2022, a total of 101 questionnaires had been distributed, 85 questionnaires had been recovered, and the questionnaire recovery rate had reached 84.16%, of which 71 valid questionnaires had been collected in a total of 71 comprehensive ICU. (1) There were noticeable regional differences in the distribution of comprehensive ICU in Inner Mongolia, with a relatively weak distribution in the east and west, and the overall distribution was uneven. The development of critical care medicine in Inner Mongolia was still lacking. (2) Basic information of hospitals: the population and economy restricted the development of ICU. The average number of comprehensive ICU beds in the western region was only half of that in the central region (beds: 39.0 vs. 86.0), and the average number of ICU beds in the eastern region was in the middle (83.6 beds), which was relatively uneven. (3) Basic information of ICU: among the 71 comprehensive ICU surveyed, there were 44 tertiary hospitals and 27 secondary hospitals. The ratio of ICU beds to total beds in tertiary hospitals was significantly lower than that in secondary hospitals [(1.59±0.81)% vs. (2.11±1.07)%, P < 0.05], which were significantly lower than the requirements of the Guidelines of 2%-8%. The utilization rate of ICU in tertiary and secondary hospitals [(63.63±22.40)% and (44.65±20.66)%, P < 0.01] were both lower than the bed utilization rate required by the Guidelines (75% should be appropriate). (4) Staffing of ICU: there were 376 doctors and 1 117 nurses in tertiary hospitals, while secondary hospitals had 122 doctors and 331 nurses. There were significant differences in the composition ratio of the titles of doctors, the degree of doctors, and the titles of nurses between tertiary and secondary hospitals (all P < 0.05). Most of the doctors in tertiary hospitals had intermediate titles (attending physicians accounted for 41.49%), while most of the doctors in secondary hospitals had junior titles (resident physicians accounted for 43.44%). The education level of doctors in tertiary hospitals was generally higher than that in secondary hospitals (doctors: 2.13% vs. 0, masters: 37.24% vs. 8.20%). The proportion of nurses in tertiary hospitals was significantly lower than that in secondary hospitals (17.01% vs. 24.47%). The ratio of ICU doctors/ICU beds [(0.64±0.27)%, (0.59±0.34)%] and ICU nurses/ICU beds [(1.76±0.56)%, (1.51±0.48)%] in tertiary and secondary hospitals all failed to meet the requirements above 0.8 : 1 and 3 : 1 of the Guidelines. (5) Medical quality management of ICU: compared with secondary hospitals, the proportion of one-to-one drug-resistant bacteria care in tertiary hospitals (65.91% vs. 40.74%), multimodal analgesia and sedation (90.91% vs. 66.67%), and personal digital assistant (PDA) barcode scanning (43.18% vs. 14.81%) were significantly higher (all P < 0.05). (6) Technical skills of ICU: in terms of technical skills, the proportion of bronchoscopy, blood purification, jejunal nutrition tube placement and bedside ultrasound projects carried out in tertiary hospitals were higher than those in secondary hospitals (84.09% vs. 48.15%, 88.64% vs. 48.15%, 61.36% vs. 55.56%, 88.64% vs. 70.37%, all P < 0.05). Among them, the placement of jejunal nutrition tube, bedside ultrasound and extracorporeal membrane oxygenation were mainly completed independently in tertiary hospitals, while those in secondary hospitals tended to be completed in cooperation. (7) Equipment configuration of ICU: in terms of basic equipment, the ratio of the total number of ventilators/ICU beds in tertiary and secondary hospitals [0.77% (0.53%, 1.07%), 0.88% (0.63%, 1.38%)], and the ratio of injection pump/ICU beds [1.70% (1.00%, 2.56%), 1.25% (0.75%, 1.88%)] didn't meet the requirements of the Guidelines. The equipment ratio was insuffcient, which means that the basic needs of development had not been met yet. CONCLUSIONS The development of comprehensive ICU in Inner Mongolia has tended to mature, but there is still a certain gap in the development scale, personnel ratio and instruments and equipment compared with the Guidelines. Moreover, the comprehensive ICU appears the characteristics of relatively weak eastern and western regions, and the overall distribution is uneven. Therefore, it is necessary to increase efforts to invest in the construction of the department of critical care medicine.
Humans ; Intensive Care Units ; Critical Care ; Surveys and Questionnaires ; Tertiary Care Centers ; China