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Motor function following developmental exposure to PCBS and/or MEHG
Cindy S. Roegge,
Susan L. Schantz
Comparative Biosciences
Beckman Institute for Advanced Science and Technology
Neuroscience Program
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Keyphrases
Polychlorinated Biphenyls
100%
Motor Function
100%
MeHg
100%
Developmental Exposure
100%
Cerebellum
66%
Motor Impairment
50%
Calcium Signaling
33%
Interactive Effects
33%
In Vitro Study
16%
Environmental Contaminants
16%
Long-term Depression
16%
Cerebellar Degeneration
16%
Ryanodine Receptor
16%
Cortical Areas
16%
Motor Learning
16%
Human Animals
16%
Combined Exposure
16%
Epidemiological Study
16%
Seafood
16%
Laboratory Animals
16%
Methylmercury
16%
Low-dose Effects
16%
Exposed Infants
16%
Ryanodine
16%
Accidental Poisoning
16%
Cerebellar Function
16%
Thyroid Disruption
16%
Neuroscience
Biphenyl
100%
Cerebellum
66%
Calcium Signaling
33%
Stereotypic Movement Disorder
33%
In Vitro
16%
Long-Term Depression
16%
Ryanodine Receptor
16%
Motor Learning
16%
Thyroid Hormone
16%
Ryanodine
16%
Pharmacology, Toxicology and Pharmaceutical Science
Polychlorinated Biphenyl
100%
Motor Dysfunction
33%
Experimental Animal
16%
Thyroid Hormone
16%
Methylmercury
16%
Ryanodine Receptor
16%
Ryanodine
16%
Cerebellum Injury
16%
Accidental Poisoning
16%