Keyphrases
Ca2+
100%
Reactive Oxygen Species
100%
Anoxia-reoxygenation
100%
Rat Hepatocytes
100%
Mitochondrial Permeability Transition
100%
Deoxygenation
75%
Cell Death
37%
Reactive Oxygen Species Production
37%
Ischemia-reperfusion Injury
37%
Calcein
25%
Hepatocytes
25%
Chelation
25%
Mitochondrial Ca2+
25%
Rhod-2
25%
Carboxymethylation
25%
Necrotic Cell Death
25%
Methyl
12%
Membrane Potential
12%
Apoptotic Cell Death
12%
Reperfusion
12%
Cyclosporine
12%
Propidium Iodide
12%
Immunoblotting
12%
Incubation
12%
Cytosolic Ca2+
12%
Necrosis
12%
Methoxy
12%
Antioxidant
12%
Chelator
12%
Methyl Ester
12%
Methoxyphenyl
12%
Induced Cell Death
12%
Mitochondrial Reactive Oxygen Species (mtROS)
12%
HEPES Buffer
12%
Desferal
12%
Tetramethylrhodamine
12%
Ringer
12%
Fluorometry
12%
Molecular Signaling
12%
Apocynin
12%
Confocal Imaging
12%
Loading Protocol
12%
BAPTA-AM
12%
Aminoquinoline
12%
Dichlorofluorescein
12%
Inner Membrane Permeability
12%
Diphenyleneiodonium Chloride
12%
Medicine and Dentistry
Hepatocyte
100%
Reactive Oxygen Species
100%
Anoxia
100%
Mitochondrial Permeability
100%
Cell Death
62%
Reperfusion Injury
25%
Calcein
25%
Confocal Microscopy
12%
Ischemia
12%
Incubation
12%
Programmed Cell Death
12%
Immunoblotting
12%
Cyclosporine
12%
Propidium Iodide
12%
Membrane Potential
12%
Necrosis
12%
Antioxidant
12%
Buffer
12%
Ethylene Glycol 1,2 Bis(2 Aminophenyl) Ether N,n,n',n' Tetraacetic Acid
12%
HEPES
12%
Inner Membrane
12%
Deferoxamine Mesylate
12%
Diphenyliodonium Salt
12%
Dichlorofluorescein
12%
Fluorometry
12%
Membrane Permeability
12%
Apocynin
12%
Tetramethylrhodamine
12%
Aminoquinoline Derivative
12%
Chelating Agent
12%
Biochemistry, Genetics and Molecular Biology
Hepatocyte
100%
Mitochondrial Permeability
100%
Reoxygenation
100%
Cell Death
62%
Reperfusion
50%
Calcein
25%
Chelation
25%
Membrane Potential
12%
Confocal Microscopy
12%
Ciclosporin
12%
HEPES
12%
Inner Membrane
12%
Membrane Permeability
12%
Dichlorofluorescein
12%
Propidium Iodide
12%
Apocynin
12%
Immunoblotting
12%
Programmed Cell Death
12%
Pharmacology, Toxicology and Pharmaceutical Science
Reactive Oxygen Metabolite
100%
Anoxia
100%
Reperfusion Injury
28%
Calcein
28%
Confocal Microscopy
14%
Ischemia
14%
Antioxidant
14%
Western Blot
14%
Ciclosporin
14%
Necrosis
14%
Chelating Agent
14%
Buffer
14%
Deferoxamine Mesylate
14%
HEPES
14%
Ethylene Glycol 1,2 Bis(2 Aminophenyl) Ether N,n,n',n' Tetraacetic Acid
14%
Dichlorofluorescein
14%
Propidium Iodide
14%
Apocynin
14%
Tetramethylrhodamine
14%
Aminoquinoline Derivative
14%
Diphenyliodonium Salt
14%
Neuroscience
Reactive Oxygen Species
100%
Mitochondrial Permeability
100%
Cell Death
62%
Reperfusion Injury
25%
Necrosis
12%
Ciclosporin
12%
Antioxidant
12%
HEPES
12%
Inner Membrane
12%
Chelating Agent
12%
Propidium Iodide
12%
Membrane Potential
12%
Membrane Permeability
12%
Ischemia
12%
Immunoblotting
12%
Programmed Cell Death
12%