Association between potential intracranial pressure and optic nerve sheath diameter evaluated by transcranial Doppler and ultrasonographic measurement in encephalitis patients / 中国脑血管病杂志

Objective To explore the association between potential intracranial pressure (ICP) and optic nerve sheath diameter ( ONSD) evaluated by transcranial Doppler( TCD) and ultrasonographic measurement in encephalitis patients. Methods A total of 17 patients with encephalitis received lumbar puncture were enrolled continuously in the Department of Neurology and Neuroscience of the First Hospital of Jilin University from October 2019 to January 2020. The ONSD and TCD examinations were performed before the operation of lumbar puncture, and the relevant data were recorded. All patients were divided into the elevated ICP group (more than 200 mmH2O) (n = 10 ) , the normal ICP group (80 -200mmH2O) (n=7) according to the results of the initial ICP. The difference of baseline data, ONSD, and the parameters of TCD such as peak systolic velocity (PSV) , end-diastolic velocity ( EDV) , mean blood flow velocity (MV) , and pulse index (PI) , were compared between the two groups. Moreover, the correlation between ICP and ONSD was analyzed. Results (1 ) The difference of gender, age, body mass index, systolic blood pressure, and diastolic blood pressure was not statistically different between the normal and the elevated ICP groups (all P >0. 05). The ONSD was significantly lower in the normal ICP group compared with that in the elevated ICP group ([4.2±0.4] mm vs. [ 4.9 ± 0.4 ] mm, t = - 3. 873, P = 0.002). (2) TCD related parameters (PSV, EDV, MV and PI) were not significantly different between the elevated ICP group and the normal ICP group (all P >0. 05). (3) Univariate analyses revealed that ICP was significantly associated with ONSD (r =0. 87 ,P < 0. 01). Conclusion Results of the study indicate that ONSD is a predictive index for elevated ICP in encephalitis patients.

Evaluation of the lung volume by CT three dimensional imaging in the treatment of chronic empyema / 中华放射学杂志

Objective To compare the lung volume before and after the operation for the treatment of chronic empyema with CT 3-dimensional imaging,and to evaluate its role in the assessment of pulmonary function. Methods A total of 78 patients with chronic empyema from 2000 to 2016 in our hospital were enrolled in this study.The patients were divided into two groups according to the operational styles,with 47 cases in the decortication group and 31 cases in the catheter drainage group respectively.Reformation of the chest CT data was used to determine the lung volumes and the routine pulmonary function tests(PFT)were performed before and after the operation. The lung volumes and the PFT results before and after the operation were compared between the two groups with t test. Then multiple linear regression analysis was applied to test the relationship between the lung volumes and the values of PFT after the operation. Results The mean lung volume of catheter drainage group was(1 548±467)cm3,while it was(1 418±802) cm3for the decortication group preoperatively(t=1.665,P=0.07).After the operation,the mean lung volume of decortication group was(2 677±815)cm3,while it was(2 169±185)cm3for the catheter drainage group. There was statistically significant difference for the increase of lung volume between the two groups after operation(t=2.371,P<0.05).There was no significant difference between the two groups before the operation for the values of the PFT(t=1.467 to 1.874,P>0.05). After the operation, the values of the PFT in the decortication group were higher than those in the catheter drainage group(t=1.990 to 2.799, P<0.05). The changes of postoperative lung volume were positively correlated with the values of the PFT(β=0.312 to 0.701,P<0.05). Conclusions Decortication has a better effect on the lung volume and the pulmonary function for patients suffered from chronic empyema. CT modeling (3-dimensional-imaging) is an effective method for evaluating the pulmonary function of postoperative lung according to the lung volume measurement.

Influencing Factors of Post-stroke Depression and the Impact on the Quality of Life / 中国医科大学学报

Objective To explore the influencing factors of patients with post-stroke depression (PSD) and study their impact on the quality of life.Methods Fifty-two stroke patients admitted to the First ospital of China Medical University from February 2015 to May 2015 were randomly selected for the study,and these patients did not suffer depression as evaluated by the depression rating scale.Their age,history of diseases,types of diseases,cause of illness,disease area and treatments were collected in detail.These patients were followed up for six month.The mental state was assessed by Hamilton depressive scale (HAMD) and self-rating depressive scale (SDS).The life quality was evaluated by stroke specific quality of life score (SS-QOL) and modified Rankin scale(mRS).These data were selected by stratified sampling method and analyzed by SPSS 17.0 software.Results The incidence of PSD in elder patients (≥ years) was significantly higher than in the younger patients (P ＜ 0.05).Patients with cardiogenic cerebral embolism are more likely to suffer from PSD (P ＜ 0.05).The patients with infarction in different regions have different probability to suffer from PSD.Those patients with cerebral infarction in basal ganglia exhibited more possibility on PSD than others (P ＜ 0.01).Previous disease,including hypertension,diabetes and coronary disease,had no effects on PSD.There were no significant effects of stroke types and thrombolytic therapy on PSD.PSD had an unfavorable effect on the life quality of the patients.Conclusion The patients with cerebral infarction in basal ganglia,aged over sixty and cardiogenic cerebral embolism are prone to PSD,and we should pay more attention to them.PSD has a negative impact on the quality of life of patients.

A Rapid and Convenient Method for in Vivo Fluorescent Imaging of Protoscolices of Echinococcus multilocularis

Human and animal alveolar echinococcosis (AE) are important helminth infections endemic in wide areas of the Northern hemisphere. Monitoring Echinococcus multilocularis viability and spread using real-time fluorescent imaging in vivo provides a fast method to evaluate the load of parasite. Here, we generated a kind of fluorescent protoscolices in vivo imaging model and utilized this model to assess the activity against E. multilocularis protoscolices of metformin (Met). Results indicated that JC-1 tagged E. multilocularis can be reliably and confidently used to monitor protoscolices in vitro and in vivo. The availability of this transient in vivo fluorescent imaging of E. multilocularis protoscolices constitutes an important step toward the long term bio-imaging research of the AE-infected mouse models. In addition, this will be of great interest for further research on infection strategies and development of drugs and vaccines against E. multilocularis and other cestodes.

Construction of In Vivo Fluorescent Imaging of Echinococcus granulosus in a Mouse Model

Human hydatid disease (cystic echinococcosis, CE) is a chronic parasitic infection caused by the larval stage of the cestode Echinococcus granulosus. As the disease mainly affects the liver, approximately 70% of all identified CE cases are detected in this organ. Optical molecular imaging (OMI), a noninvasive imaging technique, has never been used in vivo with the specific molecular markers of CE. Thus, we aimed to construct an in vivo fluorescent imaging mouse model of CE to locate and quantify the presence of the parasites within the liver noninvasively. Drug-treated protoscolices were monitored after marking by JC-1 dye in in vitro and in vivo studies. This work describes for the first time the successful construction of an in vivo model of E. granulosus in a small living experimental animal to achieve dynamic monitoring and observation of multiple time points of the infection course. Using this model, we quantified and analyzed labeled protoscolices based on the intensities of their red and green fluorescence. Interestingly, the ratio of red to green fluorescence intensity not only revealed the location of protoscolices but also determined the viability of the parasites in vivo and in vivo tests. The noninvasive imaging model proposed in this work will be further studied for long-term detection and observation and may potentially be widely utilized in susceptibility testing and therapeutic effect evaluation.