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Aldose reductase: New insights for an old enzyme
Kota V. Ramana
Research output
:
Contribution to journal
›
Review article
›
peer-review
106
Scopus citations
Overview
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Keyphrases
Aldose Reductase
100%
AR Inhibitors
100%
Inflammatory Complications
100%
Oxidative Stress
66%
NF-B
66%
Diabetes Complications
66%
Aldehydes
33%
Lipid Peroxidation
33%
Cell Growth
33%
Asthma
33%
Cell Death
33%
Sepsis
33%
Cataractogenesis
33%
Transcription Factor
33%
Colon Cancer
33%
Transcriptional Activation
33%
Stress-induced
33%
Diabetes
33%
Physiological Role
33%
Nephropathy
33%
Retinopathy
33%
Neuropathy
33%
Diverse Groups
33%
Inflammatory Diseases
33%
New Therapeutic Strategies
33%
Human Use
33%
Lipid Aldehydes
33%
Induced Activation
33%
Cell Signaling
33%
Glutathione Conjugates
33%
Clinical Efficacy
33%
Uveitis
33%
Aldo-keto Reductase Family 1 Member B1 (AKR1B1)
33%
Rodent Animal Model
33%
In Vivo Data
33%
Pharmacology, Toxicology and Pharmaceutical Science
Enzyme
100%
Complication
100%
Aldehyde Reductase
100%
Aldehyde
66%
Lipid
66%
Diabetic Complication
66%
Pathogenesis
33%
Animal
33%
Rodent
33%
Asthma
33%
Colon Cancer
33%
Cell Death
33%
Inflammatory Disease
33%
Transcription Factor
33%
Glucose
33%
Diabetes Mellitus
33%
Sepsis
33%
Clinical Study
33%
Retinopathy
33%
Cataractogenesis
33%
Kidney Disease
33%
Glutathione
33%
Neuropathy
33%
Uveitis
33%
INIS
enzymes
100%
inflammation
100%
reductases
100%
oxidation
50%
lipids
50%
aldehydes
50%
signals
50%
inhibition
50%
diseases
25%
pathogenesis
25%
cancer
25%
in vivo
25%
humans
25%
in vitro
25%
animals
25%
rodents
25%
data
25%
growth
25%
apoptosis
25%
asthma
25%
colon
25%
glucose
25%
reviews
25%
transcription factors
25%
glutathione conjugates
25%
Biochemistry, Genetics and Molecular Biology
Enzyme
100%
Oxidative Stress
100%
Aldose Reductase
100%
Rodent
50%
Clinical Study
50%
Growth
50%
Lipid
50%
Transcription Factor
50%
Animal Model
50%
Glucose
50%
Colon
50%
Glutathione
50%
Lipid Peroxidation
50%