In Vitro Toxicology

A cembranoid protects acute hippocampal slices against paraoxon neurotoxicity

Hippocampus / Animals / Male / Acetylcholinesterase / Acetylcholine / Cholinesterase inhibitors / Rats / Diterpenes / Parasympatholytics / In Vitro Toxicology / Atropine / Paraoxon / Neuroprotective Agents / Cholinesterase inhibitors / Rats / Diterpenes / Parasympatholytics / In Vitro Toxicology / Atropine / Paraoxon / Neuroprotective Agents

A cembranoid protects acute hippocampal slices against paraoxon neurotoxicity

Hippocampus / Animals / Male / Acetylcholinesterase / Acetylcholine / Cholinesterase inhibitors / Rats / Diterpenes / Parasympatholytics / In Vitro Toxicology / Atropine / Paraoxon / Neuroprotective Agents / Cholinesterase inhibitors / Rats / Diterpenes / Parasympatholytics / In Vitro Toxicology / Atropine / Paraoxon / Neuroprotective Agents

A cembranoid protects acute hippocampal slices against paraoxon neurotoxicity

Hippocampus / Animals / Male / Acetylcholinesterase / Acetylcholine / Cholinesterase inhibitors / Rats / Diterpenes / Parasympatholytics / In Vitro Toxicology / Atropine / Paraoxon / Neuroprotective Agents / Cholinesterase inhibitors / Rats / Diterpenes / Parasympatholytics / In Vitro Toxicology / Atropine / Paraoxon / Neuroprotective Agents

Comparison of two in vitro systems to assess cellular effects of nanoparticles-containing aerosols

Nanoparticles / Aerosols / Humans / Particle Size / In Vitro Toxicology / Toxicity Tests / Cell Survival / Claudin / Polystyrenes / Toxicity Tests / Cell Survival / Claudin / Polystyrenes

Diazene JK-279 induces apoptosis-like cell death in human cervical carcinoma cells

Flow Cytometry / Cell Cycle / Apoptosis / Molecular Mechanics / Caspases / Humans / Cancer Therapy / Drug Resistance / Cell Death / Glutathione / Caspase / Cell nucleus / HeLa cells / Pyridines / In Vitro Toxicology / Cell Survival / Antineoplastic Agents / Humans / Cancer Therapy / Drug Resistance / Cell Death / Glutathione / Caspase / Cell nucleus / HeLa cells / Pyridines / In Vitro Toxicology / Cell Survival / Antineoplastic Agents

Cytomics: A multiparametric, dynamic approach to cell research

Toxicology / Kinetics / Flow Cytometry / Fluorescence Microscopy / Drug Discovery / Cell Biology / Risk assessment / Stem Cell / Single molecule / Quantitative analysis / Humans / Laser Capture Microdissection / Microdissection / Animals / Laboratory Animals / Real Time / Single Cell / Xenobiotics / In Vitro Toxicology / Clinical Study / Confocal Laser Scanning Microscopy / Risk Assessment / Quantitative Analysis / Toxicity Testing / Cellular system / Cell Biology / Risk assessment / Stem Cell / Single molecule / Quantitative analysis / Humans / Laser Capture Microdissection / Microdissection / Animals / Laboratory Animals / Real Time / Single Cell / Xenobiotics / In Vitro Toxicology / Clinical Study / Confocal Laser Scanning Microscopy / Risk Assessment / Quantitative Analysis / Toxicity Testing / Cellular system

Chromium picolinate does not produce chromosome damage

Female / Animals / Vehicle dynamic control / Male / Chromium / Risk factors / Rats / Group testing / In Vitro Toxicology / Body Weight / Risk Factors / Dietary Supplement / Mitotic Index / Cyclophosphamide / Bone Marrow Cells / Chromosome 22q11 deletion / Risk factors / Rats / Group testing / In Vitro Toxicology / Body Weight / Risk Factors / Dietary Supplement / Mitotic Index / Cyclophosphamide / Bone Marrow Cells / Chromosome 22q11 deletion

Chromium picolinate does not produce chromosome damage

Female / Animals / Vehicle dynamic control / Male / Chromium / Risk factors / Rats / Group testing / In Vitro Toxicology / Body Weight / Risk Factors / Dietary Supplement / Mitotic Index / Cyclophosphamide / Bone Marrow Cells / Chromosome 22q11 deletion / Risk factors / Rats / Group testing / In Vitro Toxicology / Body Weight / Risk Factors / Dietary Supplement / Mitotic Index / Cyclophosphamide / Bone Marrow Cells / Chromosome 22q11 deletion
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