1.Parasitic Germplasm Resource and Control of Parasitosis for Domestic Animal and Poultry in Sichuan and South-western China
Dangjin LIAO ; Jiangling LI ; Hong LI ; Jianqiang YE ; Sujun ZHAO ; Ye CAO ; Hongqun ZHOU
Chinese Journal of Parasitology and Parasitic Diseases 2006;0(S1):-
The object of using parasitic germplasm resource is to raise the technical level to control parsitosis for domestic animal and poultry.A total of 1 036 parasitic species collected from 16 kinds of domestic animals and poultries were reported in South-western China,where is one of the most serious areas for parasitosis transmission in China.This paper described the research and use of the new techniques on diagnosis,surveillance and control of parasitosis in domestic animal and poultry in Sichuan and South-western China,especially on applying resources of parasitic species in the pilot areas,so that the capacity of control and prevent of parasitosis in sheep,pig and dairy cattle farms were reasonably improved.
2.Diagnostic value of automated breast volume scanning versus hand-held ultrasound for benign and malignant lesions in breast: a Meta-analysis
Mingli SHI ; Xilin ZHANG ; Liqun SHI ; Jiangling WANG ; Xiaohui ZHOU
Cancer Research and Clinic 2022;34(10):774-780
Objective:To systematically assess the diagnostic value of automated breast volume scanning (ABVS) versus hand-held ultrasound (HHUS) in benign and malignant breast lesions.Methods:The Cochrane Library, PubMed, Embase, Ovid, China National Knowledge Infrastructure (CNKI), VIP, Wanfang, China Biology Medicine (CBM) and other databases were searched from the beginning of database construction to January 2022. Relevant literatures were screened and included, and the characteristics of the literatures were extracted. Meta-disc 1.4 statistic software was used to analyze the pooled diagnostic odds ratio (DOR), specificity, sensitivity, 95% CI, the summary receiver operating characteristic (SROC) curve and the area under the curve of ABVS and HHUS. The heterogeneity and publication bias were also evaluated. Results:A total of 26 studies were included. Heterogeneity test showed no threshold value effect; random effect model was used to pool specificity, sensitivity and DOR.The pooled sensitivity of ABVS and HHUS was 0.86 (95% CI 0.84-0.87), 0.80 (95% CI 0.78-0.82), respectively; I2 was 89.7% and 82.3%, respectively; the pooled specificity of ABVS and HHUS was 0.91 (95% CI 0.90-0.92), 0.84 (95% CI 0.83-0.86), I2 was 89.7% and 92.2%, respectively. AUC of ABVS, HHUS, and joint diagnosis of the two was 0.954, 0.883, 0.958, respectively. No evidence of publication bias was shown in the funnel plot analysis. Conclusion:ABVS has a higher clinical value compared with HHUS in the diagnosis of benign and malignant breast lesions.
3.Role of Arpin protein in bone repair by mediating migration of mesenchymal stem cells to bone defect area
Wei PENG ; Zhongxue LI ; Yanzhu LU ; Qiuchi AI ; Jiangling ZHOU ; Tianyong HOU
Chinese Journal of Trauma 2020;36(3):275-282
Objective:]To investigate the role of Arpin protein in bone repair by mediating migration of host bone marrow mesenchymal stem cells (BMSCs) to the bone defect area after transplantation of tissue engineering bone (TEB).Methods:Immunofluorescence was used to observe the expression and relative localization of Arpin and Arp2/3 proteins in BMSCs. Lentiviruses that ware designed to interfere with Arpin expression were constructed to transfect BMSCs for knockdown Arpin expression. Knockdown efficiency was verified by real-time quantitative reverse transcription PCR ( qRT-PCR) and Western blot. According to different levels of Arpin protein expression, experiments were divided into empty vector control group and an Arpin expression inhibition group in vitro and in vivo. In vitro experiments: the cell migration model was established with a migration chamber, then the cells from both groups were seeded on the up chamber, and the number of migrated cells were detected by fluorescence microscopy. Cells from both groups were seeded on six-well plates. Model of wound healing experiment was established and wound healing ratio was examined by microscopy. In vivo experiments: 8-week-old C57BL/6 mice were selected and assigned to empty vector control group and Arpin expression inhibition group according to the random number table, with 6 rats per group. Diaphysis of 2 mm and periosteum in the middle femur were excised to make a large segment of bone defects. Then, TEB was transplanted into the defect area and fixed.Green fluorescein-labeled BMSCs (1 million cells per mouse) from empty vector control group and Arpin expression inhibition group were injected through the tail vein. Number of BMSCs homing to the bone defect area was detected by immunofluorescence staining at day 2 and 7 after operation. At 4 weeks after operation, the femur was taken for a Micro-CT scan to analyze bone mass density(BMD), bone volume density (BV/TV), trabecular spacing (Tb.Sp) and trabecular thickness (Tb.Th). Then, the specimens were stained with pathological HE and MASSON staining to observe the quality of bone formation. Results:Mouse BMSCs expressed Arpin protein, which was located at the cell edge relative to Arp2/3. After transfection of lentivirus, BMSCs expressed green fluorescent protein, and the expression of Arpin gene and protein in Arpin expression inhibition group were decreased compared to empty vector control group ( P<0. 01). BMSCs migration was enhanced in Arpin expression inhibition group compared to empty vector control group [(76.6±6.6) vs. (105.7±6.5)] ( P<0. 01). Wound healing was accelerated in Arpin expression inhibition group compared to empty vector control group [(43.8±0.19)% vs. (62.6±3.2)%]( P<0.01). At day 2 after operation, immunofluorescence results showed no significant difference in cell migration between the two groups and almost no labeled cells migrated. At day 7 after operation, more cells migrated to the transplanted area in Arpin expression inhibition group compared to empty vector control group [(5.7±1.5) vs. (11.3±1.5)] ( P<0.01). At 4 weeks after operation, Micro-CT results showed that Arpin expression inhibition group had better bone formation quality than empty vector control group [BMD: (172.7±6.0)mg/cm 3vs. (140.0±6.0)mg/cm 3, BV/TV: (28.8±1.3)% vs. (23.4±0.9)%, Tb.Sp: (0.33±0.01)μm vs. (0.28±0.01)μm, Tb.Th: (0.11±0.01)μm vs.(0.15±0. 01)μm]( P<0.05). Pathological staining showed there were more new bone tissue in Arpin expression inhibition group ( P<0.01). Conclusion:Silencing Arpin protein expression promotes BMSCs to migrate to the bone defect area and improves bone repair effect.
4.Optimization of the simultaneous extraction technology of dietary fiber and flavonoids from the peel of Prunus armeniaca
Qionglian HUANG ; Minxian ZHOU ; Jiangling LONG ; Yingying HUANG ; Ting YANG ; Quan XIA
China Pharmacy 2022;33(6):724-728
OBJEC TIVE To optimize the simultaneous extraction technology of dietary fiber (DF)and flavonoids from the peel of Prunus armeniaca . METHODS The content of DF was calculated with enzyme-gravimetric method ,and the content of flavonoids was determined by ultraviolet spectrophotometry. The orthogonal design and single factor test were used to optimize the extraction technology ,with the factors of liquid-solid ratio ,pH,papain concentration ,α-amylase concentration ,temperature of enzymatic hydrolysis and time of enzymatic hydrolysis as factors ,using the contents of DF and flavonoids as indexes. RESULTS The optimal extraction technology included the solid-liquid ratio of 1 ∶ 10(g/mL),pH5,0.5% papain and 0.5% α-amylase, enzymatic hydrolysis at 50 ℃ for 1 h. After three times of validation ,the average content of DF was 0.801 g/g(RSD=1.95%), and the average content of flavonoids was 2.135 mg/g(RSD=2.44%). The average comprehensive score was 0.988(RSD= 0.81%). CONCLUSIONS The optimal extraction technology is stable and feasible.
5.Satscan based small scale spatiotemporal trend analysis of human schistosomiasis in Gong'an County and Jiangling County, Hubei Province
Hong ZHU ; Jiali WU ; Ying XIAO ; Zhen TU ; Zhaogang XU ; Xia ZHANG ; Zuwu TU ; Xiaorong ZHOU ; Bo LI ; Xiaowei SHAN ; Jing XIA ; Lingcong SUN ; Shizhu LI
Journal of Public Health and Preventive Medicine 2020;31(3):36-41
Objective To analyze the spatial clustering of human schistosomiasis at the village level in key counties in Hubei Province, to provide scientific evidence for formulating strategies for human schistosomiasis prevention and control in the next stage. Methods Gong'an County and Jiangling County in Hubei Province were selected as representative counties for this study. A town or village was set up as a research unit. Schistosomiasis cases of a positive fecal examination in 2015 and cases with positive detection for schistosomiasis serological antibody titer equal or above 80 in 2016-2018 were selected as research subjects in these two counties. The Kulldorff circular scan statistic was used for the spatial clustering analysis of human schistosomiasis infection status in the population. Results There was spatial clustering of positive schistosomiasis cases of fecal examination, at the level of a town or village in both counties in 2015. There was spatial clustering of positive human serological antibody detection at the level of town or village from 2016-2018. Eighty-six endemic villages in five towns in the northeast of Gong'an County, along the Yangtze river,including Mahaokou Town, Zhakou Town, Yangjiachang Town, Jiazhuyuan Town and Douhuti Town, were the most prominent. There was no spatial clustering of positive results of human serological antibody detection at the town and village level in Jiangling County, in2017, while there was spatial clustering of human serological antibody detection in 2016 and 2018,respectively. Fifty-seven endemic villages in two towns (Puji Town and Xionghe Town) in the southwest of Jiangling County, along the Yangtze river,were the most prominent. Conclusion There were spatial clustering of human schistosomiasis epidemic at village level both in Gong'an County and Jiangling County, Hubei Province. Compared with the previous studies, there was a trend of shrink and decline of clustering areas. Therefore, the current situation of the epidemic has put forward higher requirements for the implementation of precise prevention and control in the progress of schistosomiasis elimination work in various epidemic areas.