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GST M1 polymorphism associates with DNA oxidative damage and mortality among hemodialysis patients
Yi Sheng Lin, Szu Chun Hung, Yau Huei Wei, Der Cherng Tarng
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此作品的通信作者
National Yang Ming Chiao Tung University
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引文 斯高帕斯(Scopus)
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Medicine and Dentistry
Patient
100%
Association
100%
Mortality
100%
Hemodialysis
100%
DNA
100%
Genotype
36%
Leukocyte
36%
All Cause Mortality
18%
DNA Damage
9%
Protein
9%
Family
9%
Follow up
9%
Blood
9%
Enzyme
9%
Adjustment
9%
Inpatient
9%
Cellulose
9%
Oxidative Stress
9%
DNA Polymorphism
9%
Death
9%
Proportional Hazards Model
9%
Hazard Ratio
9%
Cell DNA
9%
Gender
9%
Oxidizing Agent
9%
8 Hydroxydeoxyguanosine
9%
Disease Marker
9%
8-Oxoguanine
9%
DNA Ligase
9%
Biochemistry, Genetics and Molecular Biology
Mortality
100%
Association
100%
DNA
100%
Hemodialysis
100%
Glutathione S-Transferase
100%
Genotyping
36%
Leukocytes
36%
All Cause Mortality
18%
Lysozyme
9%
Protein
9%
Membrane
9%
Oxidative Stress
9%
Normal Human
9%
DNA Damage
9%
Adjustment
9%
Gene Polymorphism
9%
Cellulose
9%
Dialysis
9%
Gender
9%
DNA Repair Enzyme
9%
Deoxyguanosine
9%
DNA Glycosylase
9%
Pharmacology, Toxicology and Pharmaceutical Science
Mortality
100%
Hemodialysis
100%
DNA
100%
Glutathione Transferase M1
100%
All Cause Mortality
18%
Protein
9%
Enzyme
9%
Cellulose
9%
Death
9%
Oxidizing Agent
9%
Dialysis
9%
Confounder
9%
Normal Human
9%
Cell DNA
9%
DNA Ligase
9%
Disease Marker
9%
8 Hydroxydeoxyguanosine
9%
DNA Glycosyltransferase
9%
8 Hydroxyguanine
9%
Neuroscience
Polymorphism
100%
DNA
100%
Glutathione Transferase M1
100%
Leukocytes
36%
Genotype
36%
Protein
9%
Enzymes
9%
Oxidative Stress
9%
DNA Polymorphism
9%
DNA Damage
9%
Oxidizing Agent
9%
8 Hydroxydeoxyguanosine
9%
Cellulose
9%
Cell DNA
9%
DNA Ligase
9%
8-Oxoguanine
9%