Toxicological Sciences

ToxSci Advance Access originally published online on April 25, 2006
Toxicological Sciences 2006 92(1):219-227; doi:10.1093/toxsci/kfj209

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Correlation of Brain Magnetic Resonance Imaging Changes with Pallidal Manganese Concentrations in Rhesus Monkeys Following Subchronic Manganese Inhalation

David C. Dorman^*,1, Melanie F. Struve^*, Brian A. Wong^*, Janice A. Dye and Ian D. Robertson

^* CIIT Centers for Health Research, Research Triangle Park, North Carolina 27709-2137; Experimental Toxicology Division, National Health and Environmental Effects Research Laboratory, ORD, U.S. Environmental Protection Agency, Research Triangle Park, North Carolina 27709; and Department of Biomedical Science, College of Veterinary Medicine, North Carolina State University, Raleigh, North Carolina 27606

Received November 23, 2005; accepted April 3, 2006

High-dose manganese exposure is associated with parkinsonism. Because manganese is paramagnetic, its relative distribution within the brain can be examined using magnetic resonance imaging (MRI). Herein, we present the first comprehensive study to use MRI, pallidal index (PI), and T₁ relaxation rate (R1) in concert with chemical analysis to establish a direct association between MRI changes and pallidal manganese concentration in rhesus monkeys following subchronic inhalation of manganese sulfate (MnSO₄). Monkeys exposed to MnSO₄ at 0.06 mg Mn/m³ developed increased manganese concentrations in the globus pallidus, putamen, olfactory epithelium, olfactory bulb, and cerebellum. Manganese concentrations within the olfactory system of the MnSO₄-exposed monkeys demonstrated a decreasing rostral-caudal concentration gradient, a finding consistent with olfactory transport of inhaled manganese. Marked MRI signal hyperintensities were seen within the olfactory bulb and the globus pallidus; however, comparable changes could not be discerned in the intervening tissue. The R1 and PI were correlated with the pallidal manganese concentration. However, increases in white matter manganese concentrations in MnSO₄-exposed monkeys confounded the PI measurement and may lead to underestimation of pallidal manganese accumulation. Our results indicate that the R1 can be used to estimate regional brain manganese concentrations and may be a reliable biomarker of occupational manganese exposure. To our knowledge, this study is the first to provide evidence of direct olfactory transport of an inhaled metal in a nonhuman primate. Pallidal delivery of manganese, however, likely arises primarily from systemic delivery and not directly from olfactory transport.

Key Words: Parkinson's disease, secondary; manganese poisoning; pharmacokinetics; inhalation exposure; Macaca mulatta; magnetic resonance imaging.

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