1.Evidence summary for prevention and management of extravasation in peripheral intravenous infusion in NICU neonates
Fuying TAO ; Qinchuan SHI ; Panpan ZHANG ; Ruyi CAI ; Qian XU ; Jia'nan JIANG ; Dong-Ying FU ; Xiaoyan HUANG ; Yingying TIAN
Chinese Journal of Nursing 2024;59(8):996-1004
Objective To systematically search,evaluate and summarize the best evidence for prevention and management of extravasation in peripheral intravenous infusion in NICU neonates,and provide a reference for clinical practice and standard formulation.Methods A comprehensive systematic search of websites and databases was conducted to explore literature on prevention and management of extravasation in NICU neonates,including clinical decisions,guidelines,expert consensuses,evidence summaries and systematic reviews.The search encompassed the entire period from database inception to July 2023.2 researchers independently evaluated the quality of the literature,extracted and integrated the evidence.Results The study included a total of 9 articles,comprising 1 clinical decision,3 guidelines,3 expert consensus documents,and 2 evidence summaries.Ultimately,25 pieces of evidence were synthesized,covering risk factors,catheter indwelling and maintenance,extravasation assessment and treatment,and team building,education and training.Conclusion The evidence provided practical and specific recommendations that can guide healthcare institutions in formulating strategies to prevent and treat extravasation during peripheral intravenous infusion in NICU neonates,while also offering evidence-based guidance for applying the evidence in clinical practice.
2.Surveillance of bacterial resistance in tertiary hospitals across China:results of CHINET Antimicrobial Resistance Surveillance Program in 2022
Yan GUO ; Fupin HU ; Demei ZHU ; Fu WANG ; Xiaofei JIANG ; Yingchun XU ; Xiaojiang ZHANG ; Fengbo ZHANG ; Ping JI ; Yi XIE ; Yuling XIAO ; Chuanqing WANG ; Pan FU ; Yuanhong XU ; Ying HUANG ; Ziyong SUN ; Zhongju CHEN ; Jingyong SUN ; Qing CHEN ; Yunzhuo CHU ; Sufei TIAN ; Zhidong HU ; Jin LI ; Yunsong YU ; Jie LIN ; Bin SHAN ; Yunmin XU ; Sufang GUO ; Yanyan WANG ; Lianhua WEI ; Keke LI ; Hong ZHANG ; Fen PAN ; Yunjian HU ; Xiaoman AI ; Chao ZHUO ; Danhong SU ; Dawen GUO ; Jinying ZHAO ; Hua YU ; Xiangning HUANG ; Wen'en LIU ; Yanming LI ; Yan JIN ; Chunhong SHAO ; Xuesong XU ; Wei LI ; Shanmei WANG ; Yafei CHU ; Lixia ZHANG ; Juan MA ; Shuping ZHOU ; Yan ZHOU ; Lei ZHU ; Jinhua MENG ; Fang DONG ; Zhiyong LÜ ; Fangfang HU ; Han SHEN ; Wanqing ZHOU ; Wei JIA ; Gang LI ; Jinsong WU ; Yuemei LU ; Jihong LI ; Qian SUN ; Jinju DUAN ; Jianbang KANG ; Xiaobo MA ; Yanqing ZHENG ; Ruyi GUO ; Yan ZHU ; Yunsheng CHEN ; Qing MENG ; Shifu WANG ; Xuefei HU ; Wenhui HUANG ; Juan LI ; Quangui SHI ; Juan YANG ; Abulimiti REZIWAGULI ; Lili HUANG ; Xuejun SHAO ; Xiaoyan REN ; Dong LI ; Qun ZHANG ; Xue CHEN ; Rihai LI ; Jieli XU ; Kaijie GAO ; Lu XU ; Lin LIN ; Zhuo ZHANG ; Jianlong LIU ; Min FU ; Yinghui GUO ; Wenchao ZHANG ; Zengguo WANG ; Kai JIA ; Yun XIA ; Shan SUN ; Huimin YANG ; Yan MIAO ; Mingming ZHOU ; Shihai ZHANG ; Hongjuan LIU ; Nan CHEN ; Chan LI ; Jilu SHEN ; Wanqi MEN ; Peng WANG ; Xiaowei ZHANG ; Yanyan LIU ; Yong AN
Chinese Journal of Infection and Chemotherapy 2024;24(3):277-286
Objective To monitor the susceptibility of clinical isolates to antimicrobial agents in tertiary hospitals in major regions of China in 2022.Methods Clinical isolates from 58 hospitals in China were tested for antimicrobial susceptibility using a unified protocol based on disc diffusion method or automated testing systems.Results were interpreted using the 2022 Clinical &Laboratory Standards Institute(CLSI)breakpoints.Results A total of 318 013 clinical isolates were collected from January 1,2022 to December 31,2022,of which 29.5%were gram-positive and 70.5%were gram-negative.The prevalence of methicillin-resistant strains in Staphylococcus aureus,Staphylococcus epidermidis and other coagulase-negative Staphylococcus species(excluding Staphylococcus pseudintermedius and Staphylococcus schleiferi)was 28.3%,76.7%and 77.9%,respectively.Overall,94.0%of MRSA strains were susceptible to trimethoprim-sulfamethoxazole and 90.8%of MRSE strains were susceptible to rifampicin.No vancomycin-resistant strains were found.Enterococcus faecalis showed significantly lower resistance rates to most antimicrobial agents tested than Enterococcus faecium.A few vancomycin-resistant strains were identified in both E.faecalis and E.faecium.The prevalence of penicillin-susceptible Streptococcus pneumoniae was 94.2%in the isolates from children and 95.7%in the isolates from adults.The resistance rate to carbapenems was lower than 13.1%in most Enterobacterales species except for Klebsiella,21.7%-23.1%of which were resistant to carbapenems.Most Enterobacterales isolates were highly susceptible to tigecycline,colistin and polymyxin B,with resistance rates ranging from 0.1%to 13.3%.The prevalence of meropenem-resistant strains decreased from 23.5%in 2019 to 18.0%in 2022 in Pseudomonas aeruginosa,and decreased from 79.0%in 2019 to 72.5%in 2022 in Acinetobacter baumannii.Conclusions The resistance of clinical isolates to the commonly used antimicrobial agents is still increasing in tertiary hospitals.However,the prevalence of important carbapenem-resistant organisms such as carbapenem-resistant K.pneumoniae,P.aeruginosa,and A.baumannii showed a downward trend in recent years.This finding suggests that the strategy of combining antimicrobial resistance surveillance with multidisciplinary concerted action works well in curbing the spread of resistant bacteria.
3. Expression and significance of c-fos in resistant cell line TU177/VCR of larynx squamous cell carcinoma
Guodong LI ; Xiaoling HU ; Jianfeng XING ; Ruyi SHI ; Xin LI ; Jianfeng LI ; Tongli LI
Chinese Journal of Otorhinolaryngology Head and Neck Surgery 2018;53(4):281-285
Objective:
To explore the effect of c-fos on multidrug resistance of laryngeal cancer TU177 cells.
Method:
Increasing drug concentration gradient is adopted to establish the stability of the laryngeal cancer drug resistance in cell line; RT-PCR and Western blot were used to detect difference of the c-fos between TU177 and TU177/VCR cells; plasmids with human c-fos knockdown or over expression were transfected into TU177/VCR and TU177 cells respectively, and the effects of different treatment on cell proliferation were investigated with MTT.
Results:
The drug resistance of TU177/VCR cells was 26.25-fold in vincristine (VCR), 7.33-fold in Paclitaxel (TAX), 2.41 in cisplatin (DDP), and 5.50 in 5-fluorouracil (5-FU), comparing with TU177(
4. FAT1 inhibits cell proliferation of esophageal squamous cell carcinoma through regulating the expression of CDK4/CDK6/CCND1 complex
Xiaoling HU ; Yuanfang ZHAI ; Guodong LI ; Jianfeng XING ; Jie YANG ; Yanghui BI ; Juan WANG ; Ruyi SHI
Chinese Journal of Oncology 2018;40(1):14-20
Objective:
To explore the expression of FAT1 in esophageal squamous cell carcinoma (ESCC) tissues, and its effect on cell proliferation.
Methods:
The expression levels of FAT1 protein in human ESCC tissues and matched adjacent normal tissues were determined by immunohistochemistry (IHC). Lentivirus based knockdown of FAT1 was carried out in YSE2 and Colo680N cell lines and 3-(4, 5-dimethyl-2-thiazolyl)-2, 5-diphenyl-2H tetrazolium bromide (MTT) assays was performed to examine the effect of FAT1 on the proliferation of these ESCC cells. Colony formation assay was used to detect the colony formation ability. Flow cytometry was performed to analyze the cell cycle and apoptosis. The expression levels of cell cycle markers in FAT1 knock out ESCC cell lines were detected by real-time quantitative reverse transcription polymerase chain reaction(qRT-PCR) and Western blot.
Results:
The relative expression of FAT1 in ESCC tissues was 66.97±21.53, significantly lower than 78.13±16.76 of adjacent normal tissues(
5.FAT1 inhibits cell proliferation of esophageal squamous cell carcinoma through regulating the expression of CDK4/CDK6/CCND1 complex
Xiaoling HU ; Yuanfang ZHAI ; Guodong LI ; Jianfeng XING ; Jie YANG ; Yanghui BI ; Juan WANG ; Ruyi SHI
Chinese Journal of Oncology 2018;40(1):14-20
Objective To explore the expression of FAT1 in esophageal squamous cell carcinoma ( ESCC) tissues, and its effect on cell proliferation. Methods The expression levels of FAT1 protein in human ESCC tissues and matched adjacent normal tissues were determined by immunohistochemistry ( IHC) . Lentivirus based knockdown of FAT1 was carried out in YSE2 and Colo680N cell lines and 3?( 4,5?dimethyl?2?thiazolyl)?2,5?diphenyl?2H tetrazolium bromide ( MTT) assays was performed to examine the effect of FAT1 on the proliferation of these ESCC cells. Colony formation assay was used to detect the colony formation ability. Flow cytometry was performed to analyze the cell cycle and apoptosis. The expression levels of cell cycle markers in FAT1 knock out ESCC cell lines were detected by real?time quantitative reverse transcription polymerase chain reaction( qRT?PCR) and Western blot. Results The relative expression of FAT1 in ESCC tissues was 66. 97 ± 21. 53, significantly lower than 78. 13 ± 16. 76 of adjacent normal tissues ( P<0.05) . Knockdown of FAT1 promoted cell proliferation and colony formation. In YSE2 cell, the division time in negative control (NC) group was (1570±51) min, significantly longer than (1356±31) min in shFAT1 group. In Colo680N cell, division time in NC group was (1532±53) min, significantly longer than (1290±30) min in shFAT1 group (P<0.05). Knockdown of FAT1 promoted G1?to S?phase transition and resulted in the upregulation of CDK4/CDK6/CCND1. Conclusion FAT1 inhibits the proliferation and G1?to S?phase transition of ESCC cells through regulating the protein expression of CDK4/CDK6/CCND1 complex.
6.FAT1 inhibits cell proliferation of esophageal squamous cell carcinoma through regulating the expression of CDK4/CDK6/CCND1 complex
Xiaoling HU ; Yuanfang ZHAI ; Guodong LI ; Jianfeng XING ; Jie YANG ; Yanghui BI ; Juan WANG ; Ruyi SHI
Chinese Journal of Oncology 2018;40(1):14-20
Objective To explore the expression of FAT1 in esophageal squamous cell carcinoma ( ESCC) tissues, and its effect on cell proliferation. Methods The expression levels of FAT1 protein in human ESCC tissues and matched adjacent normal tissues were determined by immunohistochemistry ( IHC) . Lentivirus based knockdown of FAT1 was carried out in YSE2 and Colo680N cell lines and 3?( 4,5?dimethyl?2?thiazolyl)?2,5?diphenyl?2H tetrazolium bromide ( MTT) assays was performed to examine the effect of FAT1 on the proliferation of these ESCC cells. Colony formation assay was used to detect the colony formation ability. Flow cytometry was performed to analyze the cell cycle and apoptosis. The expression levels of cell cycle markers in FAT1 knock out ESCC cell lines were detected by real?time quantitative reverse transcription polymerase chain reaction( qRT?PCR) and Western blot. Results The relative expression of FAT1 in ESCC tissues was 66. 97 ± 21. 53, significantly lower than 78. 13 ± 16. 76 of adjacent normal tissues ( P<0.05) . Knockdown of FAT1 promoted cell proliferation and colony formation. In YSE2 cell, the division time in negative control (NC) group was (1570±51) min, significantly longer than (1356±31) min in shFAT1 group. In Colo680N cell, division time in NC group was (1532±53) min, significantly longer than (1290±30) min in shFAT1 group (P<0.05). Knockdown of FAT1 promoted G1?to S?phase transition and resulted in the upregulation of CDK4/CDK6/CCND1. Conclusion FAT1 inhibits the proliferation and G1?to S?phase transition of ESCC cells through regulating the protein expression of CDK4/CDK6/CCND1 complex.
7.Study of negative feedback between wild-type BRAF or RAFV600E and Mps1 in melanoma.
Ling ZHANG ; Chanting HE ; Yanghui BI ; Feng LIU ; Heyang CUI ; Juan WANG ; Bin SONG ; Ruyi SHI ; Bin YANG ; Fang WANG ; Zhiwu JIA ; Zhenxiang ZHAO ; Jing LIU ; E-mail:liujing5585@163.com.
Chinese Journal of Pathology 2015;44(4):274-277
OBJECTIVETo study the effect of Mps1 on BRAFWT/MEK/ERK pathway in the presence of wild type BRAF or BRAFV600E in melanoma.
METHODSMelanoma cells harboring BRAFWT genotype were transfected either with pBabe-puro-GST-BRAF-WT and/or pBabe-puro-GFP-Mps1-WT or pBabe-puro-GST-BRAFV600E and/or pBabe-puro-GFP-Mps1-WT, followed by Western blot to detect Mps1 and p-ERK expression. The melanoma cells harboring BRAFWT and BRAFV600E genotype were infected with pSUPER-Mps1 retrovirus to knockdown the endogenous Mps1 protein, followed by Western blot to detect Mps1 and p-ERK expression. Meanwhile, melanoma cells harboring BRAFV600E genotype were infected with pBabe-puro-GFP-Mps1 and Western blot was performed to detect Mps1 and p-ERK expression.
RESULTSIn melanoma cells harboring BRAFWT genotype and transfected with pBabe-puro-GST-BRAF-WT and pBabe-puro-GFP-Mps1-WT, phospho-ERK levels were notably reduced as compared to either negative control or empty vector. However, cells transfected with pBabe-puro-GST-BRAFV600E and pBabe-puro-GFP-Mps1-WT, phospho-ERK levels did not change significantly compared with either negative control or empty vector. Knockout of Mps1 in BRAF wild-type cell lines led to an increased ERK activity. However, there was no significant change of ERK activity in BRAFV600E cell lines in the absence of Mps1. The expression of p-ERK in BRAFV600E mutant cell lines infected with pBabe-puro-GFP-Mps1-WT did not show any significant difference from either negative control or empty vector.
CONCLUSIONSBased on these findings, it suggests that there exists an auto-regulatory negative feedback loop between the Mps1 kinase and BRAFWT/ERK signaling. Oncogenic BRAFV600E abrogates the regulatory negative feedback loop of Mps1 on the MAPK pathway.
Cell Cycle Proteins ; metabolism ; Cell Line, Tumor ; Humans ; MAP Kinase Signaling System ; Melanoma ; genetics ; metabolism ; Mutation ; Phenotype ; Protein-Serine-Threonine Kinases ; metabolism ; Protein-Tyrosine Kinases ; metabolism ; Proto-Oncogene Proteins B-raf ; metabolism ; Signal Transduction ; Transfection
8.miR-30 a suppresses migration, invasion and vitality of human osteosarcoma cell line 143 B
Ruyi ZHANG ; Fang HE ; Jing WANG ; Fang DENG ; Qiying LI ; Qiong SHI
Basic & Clinical Medicine 2015;(1):12-16
Objective To investigate the effect of miR-30a on human osteosarcoma cell 143B in migration,invasion andcellviability.Methods 143BcellswereinfectedortransfectedwithrecombinantadenovirusmiR-30a(Ad-miR30a) and miR-30a inhibitor respectively .Wound healing assay was performed to detect the cell healing ability ( P<0.05 ) .Cell migration and invasion ability were determined by Transwell assay ( P<0.05 ) .The cell viability was analyzed by MTT assay ( P<0.01 ) .Real-time quantitative PCR was performed to analyze the expression of RUNX2 mRNA level and confirmed the adenovirus miR-30a expressed in 143B cells.The expression of RUNX2 was analyzed by Western blot .miR-30a target to RUNX2 was verified by luciferase reported gene assay .Results The ability of migration and invasion was suppressed in osteosarcoma cell 143B by overexpression miR-30a,and the cell viability also decreased .After the endogenous miR-30 a being inhibited , the cell motility and invasion enhanced and the cell viability was promoted .The RUNX2 protein decreased after overexpression miR-30 a as compared with controlgroup.TheluciferaseactivityofRUNX2decreasedbyaddingmiR-30a.Conclusions 143Bcellmigration, invasion and viability were suppressed by miR-30a,and this process is potentially achieved via suppressing RUNX 2 protein expression .
9.Construction and identification of interference plasmid targeting on TNFAIP8
Wenming LIU ; Jingjing YANG ; Ruyi HU ; Xingfeng QIU ; Chunyan SHI ; Zhongquan QI ; Zhongchen LIU ; Guohong ZHUANG
Chinese Journal of Immunology 2015;(5):650-654
Objective:To construct and screen the high efficiency interference plasmid of TFAIP8-shRNA-pSIREN-RetroQ.Methods:Selected and synthesized three Target Sequence of TNFAIP8 shRNA1,TNFAIP8 shRNA2,TNFAIP8 shRNA3,and construct the TNFAIP8 interference plasmid.Transfection TNFAIP8-shRNA-pSIREN-RetroQ interference plasmid to A549 cells.Filter out the highest interference efficiency plasmid by detecting the mRNA and protein levels using RT-PCR and Western blot methods.Results:We successfully design and built three TNFAIP8-shRNA-pSIREN-RetroQ interference plasmids,and screen out the highest efficiency interference plasmid.Conclusion: Three interference plasmids targeting the TNFAIP8 gene have been constructed successfully and provide a useful tool for studying the function of TNFAIP8.
10.Study of negative feedback between wild-type BRAF or RAFV600E and Mps1 in melanoma
Ling ZHANG ; Chanting HE ; Yanghui BI ; Feng LIU ; Heyang CUI ; Juan WANG ; Bin SONG ; Ruyi SHI ; Bin YANG ; Fang WANG ; Zhiwu JIA ; Zhenxiang ZHAO ; Jing LIU
Chinese Journal of Pathology 2015;(4):274-277
Objective To study the effect of Mps1 on BRAFWT/MEK/ERK pathway in the presence of wild type BRAF or BRAFV600E in melanoma.Methods Melanoma cells harboring BRAFWT genotype were transfected either with pBabe-puro-GST-BRAF-WT and/or pBabe-puro-GFP-Mps1-WT or pBabe-puro-GST-BRAFV600E and/or pBabe-puro-GFP-Mps1-WT, followed by Western blot to detect Mps1 and p-ERK expression.The melanoma cells harboring BRAFWT and BRAFV600E genotype were infected with pSUPER-Mps1 retrovirus to knockdown the endogenous Mps1 protein, followed by Western blot to detect Mps1 and p-ERK expression.Meanwhile, melanoma cells harboring BRAFV600E genotype were infected with pBabe-puro-GFP-Mps1 and Western blot was performed to detect Mps1 and p-ERK expression. Results In melanoma cells harboring BRAFWT genotype and transfected with pBabe-puro-GST-BRAF-WT and pBabe-puro-GFP-Mps1-WT, phospho-ERK levels were notably reduced as compared to either negative control or empty vector.However, cells transfected with pBabe-puro-GST-BRAFV600E and pBabe-puro-GFP-Mps1-WT, phospho-ERK levels did not change significantly compared with either negative control or empty vector.Knockout of Mps1 in BRAF wild-type cell lines led to an increased ERK activity.However, there was no significant change of ERK activity in BRAFV600E cell lines in the absence of Mps1.The expression of p-ERK in BRAFV600E mutant cell lines infected with pBabe-puro-GFP-Mps1-WT did not show any significant difference from either negative control or empty vector. Conclusions Based on these findings, it suggests that there exists an auto-regulatory negative feedback loop between the Mps1 kinase and BRAFWT/ERK signaling.Oncogenic BRAFV600E abrogates the regulatory negative feedback loop of Mps1 on the MAPK pathway.

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