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Evaluation of Pm2.5 Influence on Human Lung Cancer Cells Using a Microfluidic Platform
Uyen Thi Nhat Nguyen
, Han Yun Hsieh
, Tzu Yun Chin
, Guani Wu
, Yen Po Lin
, Ching Yi Lee
,
Yi Chiung Hsu
, Yu Jui Fan
生醫科學與工程學系
研究成果
:
雜誌貢獻
›
期刊論文
›
同行評審
4
引文 斯高帕斯(Scopus)
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深入研究「Evaluation of Pm2.5 Influence on Human Lung Cancer Cells Using a Microfluidic Platform」主題。共同形成了獨特的指紋。
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Keyphrases
Particulate Matter 2.5 (PM2.5)
100%
Microfluidic Platform
100%
Human Lung Cancer Cells
100%
A549 Cells
66%
PM2.5 Exposure
44%
Reactive Oxygen Species Production
33%
Mitochondrial Membrane Potential
33%
Real-time Detection
11%
Adverse Effects
11%
Cell Death
11%
Cell Viability
11%
RNA Sequencing (RNA-seq)
11%
Detrimental Effects
11%
Cell Biology
11%
Invasion Ability
11%
Mitochondrial Dysfunction
11%
Reactive Oxygen Species Pathway
11%
Microfluidic Device
11%
Differential Expression
11%
Cell Behavior
11%
Cell Invasiveness
11%
Basal Epithelial Cell
11%
Altered Gene Expression
11%
Cellular Injury
11%
Migration Ability
11%
Migration Capability
11%
Cell Health
11%
Biochemistry, Genetics and Molecular Biology
Cancer Cell
100%
Mitochondrial Membrane Potential
100%
Gene Expression
33%
Cell Invasion
33%
RNA Sequence
33%
Cell Viability
33%
Cell Function
33%
Cell Damage
33%
Mitochondrial Disorder
33%
Medicine and Dentistry
Cancer Cell
100%
Lung Cancer
100%
Particular Matter 2.5
100%
Reactive Oxygen Species
30%
Mitochondrial Membrane Potential
23%
Cell Viability
7%
Epithelial Cell
7%
Gene Expression
7%
Cell Invasion
7%
Cell Function
7%
Cell Damage
7%
RNA Sequence
7%
Cytotechnology
7%
Mitochondrial Disorder
7%
Adverse Effect
7%
Immunology and Microbiology
Cancer Cell
100%
Mitochondrial Membrane Potential
100%
Gene Expression
33%
RNA Sequence
33%
Cell Viability
33%
Cell Function
33%
Cell Invasion
33%
Cell Damage
33%
Neuroscience
A549 Cell
100%
Reactive Oxygen Species
66%
Mitochondrial Membrane Potential
50%
Gene Expression
16%
Cell Function
16%
Adverse Effect
16%
RNA Sequence
16%
Cell Viability
16%
Cell Damage
16%
Epithelial Cells
16%
Cell Invasion
16%
Pharmacology, Toxicology and Pharmaceutical Science
Reactive Oxygen Metabolite
100%
Lung Cancer
100%
Cell Viability
25%
RNA-Sequencing
25%
Cellular Injury
25%