2.Changes of pulmonary malondialdehyde ,glutathione and total-antioxidation content in SD rat with nitrogen dioxide exposure
Yongying XIAO ; Xirong XIA ; Yi SHI ; Maorong TONG ; Xilong ZHANG
Journal of Medical Postgraduates 2001;14(1):15-17
Objectives:To evaluate lung injury mechanism in SD rat with nitrogen dioxide(NO2) exposure. Methods:In the test-control study, pulmonary malondialdehyde(MDA),glutathione(GSH) and total-antioxidant content(T-AOC) were determined in 10 SD rats with long-term NO2 exposure,10 SD rats with short-term NO2 exposure and 10 SD rats with fresh air as control. Results: Pulmonary MDA content was increased and T-AOC was decreased significantly in SD rat exposed to NO2. Pulmonary GSH was decreased significantly in long-term NO2 exposure group as compared with short-term NO2 exposure group and control group. Conclusions: Imbalance between oxidant and antioxidant was an important mechanism in the pathogenesis of oxidizing lung injury in SD rat with NO2 exposure.
3.A case of talcum pneumoconiosis.
Shi-qing YU ; Zu-yi ZHANG ; Xiao-ying HUANG
Chinese Journal of Industrial Hygiene and Occupational Diseases 2007;25(9):568-569
Humans
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Male
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Middle Aged
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Silicosis
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diagnosis
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therapy
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Talc
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adverse effects
5.Selection and application of biodegradable scaffold in tracheal tissue engineering
Ziyin PAN ; Shu PAN ; Yuanfan XIAO ; Yi ZHONG ; Hongcan SHI
International Journal of Biomedical Engineering 2021;44(1):44-49
Long tracheal lesions are mainly caused by stenosis, infection, trauma, malignant tumors and other factors. Resection of the diseased tissue or stenosis and end-to-end anastomosis is currently the gold standard for long tracheal lesions treatment. However, these treatment programs have proven to have major limitations. In recent years, tissue engineering technology has been regarded as a promising medical alternative treatment method, and the selection of scaffold materials is one of key parts. With the continuous exploration of domestic and foreign researchers, biological materials have been continuously developed and applied to the research of tissue engineering trachea. Tissue engineering degradable scaffold materials can be divided into natural polymer material scaffolds and synthetic polymer scaffolds according to the different sources. The scaffold material can be modified or compounded as needed to improve the biological properties of scaffolds. In addition, with the continuous development of biological printing technology, different scaffold materials can be better combined and used. Biodegradable scaffolds have become a new research direction in the field of tissue engineering trachea due to their polymer properties, and have good application prospects.
6.Analysis of morbidity, diagnosis and treatment in 26 pulmonary infection patients after renal transplantation
Xinwu XIAO ; Yi SHI ; Yong SONG ; Maorong TONG ; Guang YIN ;
Journal of Medical Postgraduates 2003;0(09):-
Objectives: To analyze the strategies of the diagnosis and treatment in patients with the pulmonary infection after renal transplantation. Methods: A retrospective analysis was made on 28 cases of pulmonary infections among 285 patients undergoing renal transplantation. Results: The morbidity of pulmonary infection was 9.82%(28/285). The majority pathogens of pulmonary infection in this study were pseudomonas, staphylococcus epidermidis, canadida and cytomegalovirus. Chest X ray was important in the diagnosis, but there was no specificity to determine the pathogens. The mortality in 28 pulmonary infection patients was 32.1%(9/28). Most of the patients suffered from pulmonary infection within 4 months after the operation, and the postoperative period from 2 months to 4 months was a high risk time window for death caused by pulmonary infections. Conclusions: The morbidity and mortality of pulmonary infections, especially severe pneumonia, in patients with renal transplantation, are higher than healthy people. Treatment following clinical epidemiology and strategy of microbiology play a very important role to reduce the mortality in those patients.
7.Selection of High-yield Agro-antibiotic 2-16 Producing Strain and Optimization of Its Cultivation
Xiao-Qing WANG ; Hong-Mei ZENG ; Yi-Ping SHI ;
Microbiology 1992;0(06):-
In order to improve the production of agro-antibiotic 2-16,the producing strain(Streptomyces ahygroscopicus var.huangshanensis) was treated by protoplast regeneration,ultraviolet radiation,NTG mutagenesis and low energy C~(+) ion implantation.At last,a high-yield strain No.515 was obtained.The production of ~()No.515 was increased by 223.10%.By using Plackett-Burman design and Response Surface Analysis provided by SAS software,the cultivation condition of No.515 was optimized.The amount of agro-antibiotic 2-16 was increased by 38.53% when the strain No.515 was cultivated in the optimum medium instead of the initial one.
8.A case-controlled study on the single nucleotide polymorphism of the CTNND2 gene between high myopia and the normal population in Han Chinese
Xiao-yan, LAN ; Hong-li, SHANG ; Fang, LU ; Yi, SHI
Chinese Journal of Experimental Ophthalmology 2012;30(5):454-457
BackgroundHigh myopia is one of leading causes of blindness,so far the pathogenesis remains unclear.Two single-nucleotide polymorphisms (SNPs) of rs6885224 and rs12716080 in CTNND2 gene were recently found to be associated with high myopia in Singaporean Chinese.But whether these SNPs are related with the pathogenesis of high myopia in Han Chinese is worth studying,Objective This study was to investigate the relationship between the genetic variations of the CTNND2 gene and high myopia in Han Chinese.MethodsA case-controlled association study was designed.Nine hundred and thirty-three individuals with high myopia and 1227age- and gender-matched normal subjects were included in this study.The 5 ml of periphery blood was obtained from all subjects for the extraction of genomic DNA.The target DNA was amplified using PCR and purified by the SNaPshot method.Four SNPs rs12716080,rs917012,rs6885224 and rs16901340 in the CTNND2 gene were genotyped.This study was approved by the Ethic Committee of Sichuan Provincial People Hospital.Written informed consent was obtained from each subject before his/her enrollment.Results The frequencies of the genotypes rs6885224,rs12716080,rs917012,rs16901340 SNPs were in Hardy-Weinberg equilibrium (HWE) ( P=0.181,0.085,0.732,0.313,0.264,0.663,0.084,0.196).There were no significant differences in genotypes frequency distribution ( in turn P =0.654,0.406,0.828,0.403 ) and allele frequency distribution of the CTNND2 gene ( in turn P =0.377,0.209,0.743,0.198) between the high myopia group and normal control group.The haplotypes (TA and GA)frequencies of rs12716080 and rs917012 in the high myopia group were significantly different from those of the normal control group(TA:0.784 vs.0.719;GA:0.087 vs.0.136) (x2 =6.115,P=0.013 ;x2 =6.634,P=0.010),but those of GG were similar between the high myopia group and normal control group ( 0.123 vs.0.143,x2 =0.889,P =0.346). ConclusionsThe SNPs rs12716080,rs917012,rs6885224 and rs16901340 in CTNND2 gene were not responsible for high myopia,however,the haplotypes of rs12716080 and rs917012 are susceptible for high myopia in Han Chinese.
9.Influence of the fibroblast activity by TGF-β2 antisense oligonucleotide in corneal stroma injury of rabbit
Jin-Ying, LI ; Shi-Yi, XIAO ; Pei, FU
International Eye Science 2006;6(2):291-294
· AIM: To investigate the influence of TGF-β 2 antisense oligonucleotide(ASON) on the differentiation, proliferation of stromal fibroblast in corneal stroma injury.both eyes of 28 rabbits, the right eyes were served as experimental group, corneal incisions were sutured with 8-0 coated vicryl suture carrying TGF-β 2 ASON; the left eyes were served as control group, corneal incision were sutured with common 8-0 coated vicryl suture. Rabbits were killed at 4, 7, 14 and 28d after surgery, stromal fibroblasts were examined by immune histochemistry and electron microscopy.significantly reduced the numbers of cells expressingα -smooth muscle actin (α -SMA) and proliferating cell nuclear antigen (PCNA). The ultrastructure of fibroblast had no significant difference in two groups.differentiation and proliferation of stromal fibroblast in corneal injury. This will be a new method to adjust corneal wound repair.
10.Experimental study on cervical lymph nodes removal enhance allograft survival in alkali-burned cornea
Shi-Qi, LING ; Dao-Man, XIANG ; Shi-Yi, XIAO ; Hui, ZHANG
International Eye Science 2007;7(2):287-290
AIM:To explore the inhibitive effects of cervical lymphadenectomy on kerstoplasy after alkaline burns.METHODS:The Wistar rats' corneas were transplanted into Sprague-Dawley(SD)rats' eyes which were randomly divided into 4 groups:group A(control group);group B,the cervicallymphadenectomy group;group C,corneal transplantation after the alkali burn injury;group D,cervical lymphadenectomy following group C.Out of 6 rats in each group,the cornea of one rat Was used for mawophage immunohistochemistry at day 14 after the transplantstion,and the remaining 5 rats were used for studying corneal immune rejection with a slit lamp.The time when allograft rejection occurred was recorded and mean survival times(MST)were compared among the groups.RESULTS:Compared with the MST of group A(10.40±1.14 days),the MST of group B(46.30±9.46 days)Was significantly longer(P<0.05).MST of grafts between group C(7.00± 1.58 days)and group D(15.00±3.39 days)was also significant (P<0.05).At 14th day after the transplantation,there was no CD68 immunoreactivity in the graft of group B,and CD68 proteins were expressed to some extent in the grafts of group A and D.However,in the graft of group C,the expression of proteins Was dramatically up-regulated.CONCLUSION:Cervical lymphadenectomy therapy has a significant effect in preventing corneal allograft rejection in normal and alkali burned oorneai beds.