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Model of Neurotransmitter PET (ntPET)
Overview
The changes of endogenous neurotransmitter by PET scanning after a stimulus has been proved with different approaches. In stead of detecting the increase or decrease of a neurotransmitter, it is important to characterize the temporal change of a neurotransmitter after a stimulus. Morris proposed the new technique (called ntPET) for capturing the dynamic changes of a neurotransmitter after a stimulus and demonstrated the ability of this method to reconstruct the temporal characteistics of an enhance in neurotransmitter concentration.
Here we present a general model of ntPET, which can be simplified to Morris' model.
Generally, there are two separate injections for ntPET: one for the rest condition (without any stimuli) and the other for the activation conditon (after a stimulus). Cp is the pasma concentration of tracer for the first injection (the "rest" condtion), F and B are free (unbound) and bound molar concentrations of the first injected tracer. Cp2 is the pasma concentration of tracer for the second injection (the "activation" condtion), F2 and B2 are free (unbound) and bound molar concentrations of the second injected tracer. Fen and Ben are free and bound molar concentrations of a neurotransmitter released by endogenous ligand.