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Hydrogen sulphide and its therapeutic potential
Csaba Szabõ
Research output
:
Contribution to journal
›
Review article
›
peer-review
1327
Scopus citations
Overview
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Keyphrases
Therapeutic Potential
100%
Hydrogen Sulfide
100%
H2S Donors
100%
Rodents
50%
Inflammation
50%
Nervous System
50%
Ischemia-reperfusion Injury
50%
Signaling Molecules
50%
Cysteine
50%
Cardiovascular System
50%
Circulatory Shock
50%
Cystathionine Synthase
50%
Cystathionine Lyase
50%
Hypothermia
50%
Animal Disease Models
50%
H2S Production
50%
Suspended Animation
50%
INIS
production
100%
animals
100%
hydrogen sulfides
100%
diseases
50%
enzymes
50%
rodents
50%
inflammation
50%
injuries
50%
molecules
50%
nervous system
50%
physiology
50%
biochemistry
50%
cysteine
50%
lyases
50%
cardiovascular system
50%
hypothermia
50%
exploitation
50%
Medicine and Dentistry
Donor
100%
Cystathionine
100%
Hydrogen Sulfide
100%
Disease
50%
Inflammation
50%
Reperfusion Injury
50%
Enzyme
50%
Signaling Molecule
50%
Shock (Circulatory)
50%
Synthetase
50%
Nervous System
50%
Cysteine
50%
Hypothermia
50%
Lyase
50%
Cardiovascular System
50%
Suspended Animation
50%
Pharmacology, Toxicology and Pharmaceutical Science
Animal
100%
Cystathionine
100%
Hydrogen Sulfide
100%
Diseases
50%
Rodent
50%
Inflammation
50%
Synthetase
50%
Enzyme
50%
Shock
50%
Reperfusion Injury
50%
Cysteine
50%
Hypothermia
50%
Lyase
50%
Biochemistry, Genetics and Molecular Biology
Animal Model
100%
Hydrogen Sulfide
100%
Cystathionine
100%
Rodent
50%
Molecule
50%
Enzyme
50%
Synthase
50%
Reperfusion
50%
Cysteine
50%
Biochemistry
50%
Lyase
50%
Hypothermia
50%
Suspended Animation
50%
Neuroscience
Lyase
50%