Background: Manganese (Mn(2+))-enhanced MRI (MEMRI) is a valuable imaging tool to study brain structure and function in normal and diseased small animals. The brain retention of Mn(2+) is relatively long with a half-life (t1/2) of 51-74 days causing a slow decline of MRI signal enhancement following Mn(2+) administration. Such slow decline limits using repeated MEMRI to follow the central nervous system longitudinally in weeks or months. This is because residual Mn(2+) from preceding administrations can confound the interpretation of imaging results. We investigated whether the Mn(2+) enhancement decline could be accelerated thus enabling repeated MEMRI, and as a consequence broadens the utility of MEMRI tests.
New methods: We investigated whether N-acetyl-para-aminosalicylic acid (AcPAS), a chelator of Mn(2+), could affect the decline of Mn(2+) induced MRI enhancement in brain.
Results and conclusion: Two-week treatment with AcPAS (200mg/kg/dose×3 daily) accelerated the decline of Mn(2+) induced enhancement in MRI. In the whole brain on average the enhancement declined from 100% to 17% in AcPAS treated mice, while in PBS controls the decline is from 100% to 27%. We posit that AcPAS could enhance MEMRI utility for evaluating brain biology in small animals.
Comparison with existing methods: To the best of our knowledge, no method exists to accelerate the decline of the Mn(2+) induced MRI enhancement for repeated MEMRI tests.
Keywords: Chelation; Manganese enhanced MRI (MEMRI); N-acetylated-para-aminosalicylic acid (AcPAS); Repeated MEMRI.
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