Organophosphate (OP) compounds, used throughout the agricultural industry as insecticides, are known to directly and irreparably alter brain function in humans. Exposure to OPs decreases acetylcholinesterase activity and leads to a buildup of acetylcholine, with chronic exposure to sub-lethal levels inducing neuropathy. This buildup of acetylcholine can be monitored through electrochemical methods to study the effects of OP toxicity. The microclinical analyzer (µCA), an in vitro microfluidic device allowing for electrochemical analysis using a screen-printed electrode, can be modified with enzymes to detect acetylcholine. Using the µCA in combination with the neurovascular unit (NVU), an organotypic model of the blood-brain barrier (BBB), can provide a better understanding of the BBB forms, functions, and responds to insults. The NVU supports all the cell types necessary for proper BBB formation (endothelial cells, astrocytes, pericytes, and neurons) and provides the flow-created shear forces for mature tight junction formation. The µCA and NVU were used study the effects of chlorpyrifos on acetylcholine concentrations present across the BBB. Understanding the effects of OP like chlorpyrifos on neurotoxicity can contributes to the assessment and treatment of chronic and acute exposure and inform policy decisions around the uses of OP pesticides in the agricultural industry.