1.Curative Effects of Houtuynia Cordata Injection as A Aajuvant on Ventilator-associated Pneumonia Complicated with Respiratory Muscle Paralysis Caused by Acute Organophosphorus Pesticide Poisoning
Jiyan LIN ; Sutao ZHANG ; Zhidong XU ; Peng ZUO
Chinese Traditional Patent Medicine 1992;0(09):-
0.05), but the symptom of fever and character of respiratory tract's secretion of the patients in experiment group took turns for better obviously than the control group's ( P
2.Analysis of Therapeutic Effect of Asthma-relieving Manipulation for Children with Acute Asthmatic Exacerbation by Lung Sound Spectrum
Yuting NI ; Sutao SUN ; Jingjie ZHANG ; Haiyin FENG ; Jun TANG ; Rongqian XU
Journal of Guangzhou University of Traditional Chinese Medicine 2014;(5):746-748,751
Objective By using lung sound spectrum analysis, the clinical efficacy of asthma -relieving manipulation, which is a gentle massage therapy mainly on the acupoints, on acute exacerbation of children asthma was evaluated. Methods We collected the lung sound of 11 children with acute asthmatic attack before and after asthma-relieving manipulation, and then input to the computer for obtaining lung sound spectrum signal data. The sound intensity, average respiratory muscle strength ( RMS) power, total RMS power and the volume of every 25 Hz frequency spectrum were extracted for comparison. Results After asthma-relieving manipulation, the sound intensity, average RMS power, and total RMS power of the children with acute asthmatic attack were significantly lower than those before the manipulation (P<0.01). The results of lung sound spectrum analysis displayed that lung sound volume was significantly lower at frequency band 0~300 Hz after manipulation ( P<0.05 compared with that before the manipulation) . The difference of the lung sound volume was insignificant over frequency band 300 Hz before and after treatment ( P>0.05). Conclusion Lung sound spectrum analysis can be applied to monitor lung function of asthmatic children objectively and quantitatively, and it is a new sensitive method for clinical detection. Asthma-relieving manipulation shows certain effect on acute exacerbation of children asthma.
3.Mechanism underlying the inhibitory effect of overexpression of tumor suppressor gene DKK3 on migration and invasion of human cutaneous malignant melanoma cells
Jing LI ; Yin YU ; Jing CHEN ; Xin ZHANG ; Dongyang LIU ; Zhi LI ; Qingchun DIAO ; Sutao LIU ; Jing JIN ; Can WANG
Chinese Journal of Dermatology 2018;51(12):874-878
Objective To investigate the expression of DKK3 in human cutaneous malignant melanoma cells and tissues,and to evaluate the effect of transfection with DKK3 gene on migration and invasion of a malignant melanoma cell line A375.Methods Western blot analysis was performed to measure the relative expression of DKK3 in human cutaneous melanoma cell lines HM,A375,WM451,SK-MEL-1,Hs-695T,MDA-MB-435s and WM35,as well as pigmented nevus tissues.Real-time fluorescence-based quantitative PCR (RT-PCR) was conducted to determine the mRNA expression of DKK3 in 58 melanoma tissues (including primary melanoma and metastatic melanoma) and 30 pigmented nevus tissues from Chongqing Traditional Chinese Medicine Hospital between August 2014 and June 2017.The pcDNA3.1 (+)-Flag-Vector (control group) and pcDNA3.1 (+)-Flag-DKK3 (transfection group) were transfected into A375 melanoma cells separately.RT-PCR and Western blot analysis were performed to verify the overexpression of DKK3,and to evaluate the effect of DKK3 overexpression on the expression of molecules related to the migration and invasion of melanoma cells.Cell scratch assay,Transwell migration and invasion assay were conducted to assess the effect of DKK3 on the migration and invasion of A375 cells.Statistical analysis was done by a two-sample t-test for comparisons between two groups,one-way analysis of variance (ANOVA) for intergroup comparison,and least significant difference (LSD)-t test for multiple comparisons with the SPSS 13.0 software.Results DKK3 protein was absent or lowly expressed in the human melanoma cell lines,but highly expressed in the pigmented nevus tissues.There were significant differences in the mRNA expression of DKK3 among the primary melanoma tissues (2-ΔΔCt:[0.325 ± 0.150] × 10-3),metastatic melanoma tissues ([0.142 ± 0.210] × 103) and pigmented nevus tissues ([0.634 ±:0.120] × 10-3,F =46.57,P < 0.05).In addition,the mRNA expression of DKK3 was significantly lower in the metastatic melanoma tissues than in the primary melanoma tissues and pigmented nevus tissues (LSD-t =2.48,3.12,both P < 0.05).After transfection with DKK3,cell scratch assay showed that the migration rate was significantly lower in the transfection group (22.11% ± 5.11%) than in the control group (54.36% ± 23.22%,t =2.36,P < 0.001).Transwell migration and invasion assay revealed that the number of A375 cells crossing the Transwell chamber was significantly lower in the transfection group (265 ± 33,76 ± 18 respectively) than in the control group (429 ± 41,135 ± 21 respectively;t =1.24,1.35 respectively,both P < 0.001).After overexpression of DKK3 in the A375 cells in the transfection group,the mRNA and protein expression of E-cadherin were up-regulated,while the mRNA and protein expression of N-cadherin,vimentin,matrix metalloproteinase 2 (MMP2),MMP7 and MMP11 were down-regulated compared with the control group.Conclusions The expression of DKK3 is down-regulated in the melanoma cell lines and tissues,and the migration and invasion of A375 cells are markedly inhibited by overexpression of DKK3.DKK3 may be a target for inhibiting the metastasis of cutaneous malignant melanoma.