Application of pharmacokinetic data to the risk assessment of inhaled manganese

Application of pharmacokinetic data to the risk assessment of inhaled manganese

There is increased interest within the scientific community concerning the neurotoxicity of manganese owing in part to the use of methylcyclopentadienyl manganese tricarbonyl (MMT) as a gasoline fuel additive and an enhanced awareness that this essential metal may play a role in hepatic encephalopat...

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Bibliographic Details
Published in:Neurotoxicology (Park Forest South) Vol. 27; no. 5; pp. 752 - 764
Main Authors: Dorman, David C., Struve, Melanie F., Clewell, Harvey J., Andersen, Melvin E.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-09-2006
Subjects:
Animals
Humans
Inhalation exposure
Inhalation Exposure - statistics & numerical data
Manganese - pharmacokinetics
Manganese poisoning
Manganese Poisoning - diagnosis
Manganese Poisoning - epidemiology
Manganese Poisoning - metabolism
Parkinsonism
Pharmacokinetics
Risk Assessment
United States
United States Environmental Protection Agency - standards
United States
Parkinsonism
Inhalation exposure
Pharmacokinetics
Manganese poisoning
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Summary:There is increased interest within the scientific community concerning the neurotoxicity of manganese owing in part to the use of methylcyclopentadienyl manganese tricarbonyl (MMT) as a gasoline fuel additive and an enhanced awareness that this essential metal may play a role in hepatic encephalopathy and other neurologic diseases. Neurotoxicity generally arises over a prolonged period of time and results when manganese intake exceeds its elimination leading to increases in brain manganese concentration. Neurotoxicity can occur following high dose oral, inhalation, or parenteral exposure or when hepatobiliary clearance of this metal is impaired. Studies completed during the past several years have substantially improved our understanding of the health risks posed by inhaled manganese by determining exposure conditions that lead to increased concentrations of manganese within the central nervous system and other target organs. Many of these studies focused on phosphates, sulfates, and oxides of manganese since these are formed and emitted following MMT combustion by an automobile. These studies have evaluated the role of direct nose-to-brain transport of inhaled manganese and have examined differences in manganese toxicokinetics in potentially sensitive subpopulations (e.g., fetuses, neonates, individuals with compromised hepatic function or sub-optimal manganese intake, and the aged). This manuscript reviews the U.S. Environmental Protection Agency's current risk assessment for inhaled manganese, summarizes these contemporary pharmacokinetic studies, and considers how these data could inform future risk assessments of this metal following inhalation.
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ISSN:0161-813X
1872-9711
DOI:10.1016/j.neuro.2006.03.003