How bad are e-cigarettes? What can we learn from animal exposure models?

Medicine and Dentistry

• Oxidative Stress 100%
• Electronic Cigarette 100%
• Asthma 50%
• Atherosclerosis 50%
• Adverse Event 50%
• Cardiovascular System 50%
• Downregulation 50%
• Disease Predisposition 50%
• Antioxidant Enzyme 50%
• Central Nervous System 50%
• DNA Damage 50%
• Susceptible Population 50%
• Cigarette Smoke 50%
• Angiogenesis 50%
• Respiratory Tract Allergy 50%
• DNA Repair Enzyme 50%
• Knock Out 50%
• Apolipoprotein E 50%

Keyphrases

• Animal Exposure 100%
• Electronic Cigarettes 100%
• Exposure Model 100%
• Health Consequences 33%
• Nicotine 33%
• Knock-in Mouse Model 16%
• Susceptible Population 16%
• Asthma 16%
• Rodent Models 16%
• Oxidative Stress 16%
• Cigarette Smoking 16%
• Health Effects 16%
• Adverse Reactions 16%
• Potential Toxicity 16%
• Cigarette 16%
• Health Risk 16%
• Angiogenesis 16%
• DNA Repair Enzymes 16%
• Mouse Strain 16%
• Weight Loss 16%
• Detrimental Effects 16%
• Central Nervous System 16%
• Antioxidant Enzymes 16%
• Human Data 16%
• DNA Damage 16%
• Apolipoprotein E 16%
• Oxidative Stress Markers 16%
• Cigarette Use 16%
• Susceptible Animals 16%
• Profibrotic 16%
• Airway Hyperresponsiveness 16%
• Pro-oxidative 16%
• Over Potential 16%

Pharmacology, Toxicology and Pharmaceutical Science

• Electronic Cigarette 100%
• Asthma 50%
• Adverse Event 50%
• Mouse Model 50%
• Mouse Strain 50%
• Antioxidant 50%
• Disease Predisposition 50%
• Cigarette Smoke 50%
• Respiratory Tract Allergy 50%
• Apolipoprotein E Knockout Mouse 50%
• Atherosclerosis 50%