The positron emission tomography (PET) tracer [F]GE-179 binds to the phencyclidine (PCP) site in the open -methyl-D-aspartate receptor ion channel (NMDAR-IC). To demonstrate that PET can visualise increased [F]GE-179 uptake by active NMDAR-ICs and that this can be blocked by the PCP antagonist S-ketamine, 15 rats had an electrode unilaterally implanted in their ventral hippocampus. Seven rats had no stimulation, five received pulsed 400 µA supra-threshold 60 Hz stimulation alone, and three received intravenous S-ketamine injection prior to stimulation. Six other rats were not implanted. Each rat had a 90 min [F]GE-179 PET scan. Stimulated rats had simultaneous depth-EEG recordings of induced seizure activity. [F]GE-179 uptake (volume of distribution, V) was compared between hemispheres and between groups. Electrical stimulation induced a significant increase in [F]GE-179 uptake at the electrode site compared to the contralateral hippocampus (mean 22% increase in V, =0.0014) and to non-stimulated comparator groups. Rats injected with S-ketamine prior to stimulation maintained non-stimulated levels of [F]GE-179 uptake during stimulation. In conclusion, PET visualisation of focal [F]GE-179 uptake during electrically activated NMDAR-ICs and the demonstration of specificity for PCP sites by blockade with S-ketamine support the in vivo utility of [F]GE-179 PET as a use-dependent marker of NMDAR-IC activation.
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Activated N-methyl-D-aspartate receptor ion channels detected in focal epilepsy with [ F]GE-179 positron emission tomography.
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December 2021
Department of Nuclear Medicine and PET Center, Institute of Clinical Medicine, Aarhus University and University Hospital, Aarhus, Denmark.
Objective: Imaging activated glutamate N-methyl-D-aspartate receptor ion channels (NMDAR-ICs) using positron emission tomography (PET) has proved challenging due to low brain uptake, poor affinity and selectivity, and high metabolism and dissociation rates of candidate radioligands. The radioligand [ F]GE-179 is a known use-dependent marker of NMDAR-ICs. We studied whether interictal [ F]GE-179 PET would detect foci of abnormal NMDAR-IC activation in patients with refractory focal epilepsy.
View Article and Find Full Text PDFNMDA receptor ion channel activation detected in vivo with [F]GE-179 PET after electrical stimulation of rat hippocampus.
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June 2021
Department of Nuclear Medicine & PET Centre, Aarhus University Hospital, Aarhus, Denmark.
The positron emission tomography (PET) tracer [F]GE-179 binds to the phencyclidine (PCP) site in the open -methyl-D-aspartate receptor ion channel (NMDAR-IC). To demonstrate that PET can visualise increased [F]GE-179 uptake by active NMDAR-ICs and that this can be blocked by the PCP antagonist S-ketamine, 15 rats had an electrode unilaterally implanted in their ventral hippocampus. Seven rats had no stimulation, five received pulsed 400 µA supra-threshold 60 Hz stimulation alone, and three received intravenous S-ketamine injection prior to stimulation.
View Article and Find Full Text PDFActivation of NMDA receptor ion channels by deep brain stimulation in the pig visualised with [F]GE-179 PET.
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Dept. of Nuclear Medicine & PET Centre, Institute of Clinical Medicine, Aarhus University and University Hospital, Denmark; Translational and Clinical Research Institute, Newcastle University, UK. Electronic address:
Background: No PET radioligand has yet demonstrated the capacity to map glutamate N-methyl-d-aspartate receptor ion channel (NMDAR-IC) function. [F]GE-179 binds to the phencyclidine (PCP) site in open NMDAR-ICs and potentially provides a use-dependent PET biomarker of these ion channels.
Objective: To show [F]GE-179 PET can detect increased NMDAR-IC activation during electrical deep brain stimulation (DBS) of pig hippocampus.
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School of Biomedical Engineering and Imaging Sciences , King's College London, London SE1 7EH , United Kingdom.
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View Article and Find Full Text PDFSimplifying [F]GE-179 PET: are both arterial blood sampling and 90-min acquisitions essential?
EJNMMI Res
June 2018
Division of Brain Sciences, Imperial College London, London, UK.
Introduction: The NMDA receptor radiotracer [F]GE-179 has been used with 90-min scans and arterial plasma input functions. We explored whether (1) arterial blood sampling is avoidable and (2) shorter scans are feasible.
Methods: For 20 existing [F]GE-179 datasets, we generated (1) standardised uptake values (SUVs) over eight intervals; (2) volume of distribution (V) images using population-based input functions (PBIFs), scaled using one parent plasma sample; and (3) V images using three shortened datasets, using the original parent plasma input functions (ppIFs).
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