• Energy Research

AbstractBackground and aimsWhereas striatal dopamine D2 receptor (D2R) availability has shown to be altered in individuals with alcohol use disorder (AUD) and in healthy individuals with a family history of AUD, the role of D2R in the development of AUD is unknown. In this positron emission tomography (PET) study, we measured whether D2R availability is associated with subsequent alcohol use and alcohol‐related factors, at a follow‐up 8 to 16 years post‐PET scan, in social drinkers.DesignLongitudinal study investigating the association between PET data and later self‐report measures in healthy individuals.SettingAcademic research imaging centre in Stockholm, Sweden.ParticipantsThere were 71 individuals (68 of whom had evaluable PET data, 5 females, 42.0 years mean age) from a series of previous PET studies.MeasurementsOne PET examination with the D2R antagonist radioligand [11C]raclopride at baseline and self‐report measures assessing alcohol use, drug use, impulsivity, reward sensitivity and family history of alcohol or substance use disorder at follow‐up.FindingsWe found no evidence for an association between D2R availability and later alcohol use (B = −0.019, B 95% CI = −0.043 to −0.006, P = 0.147) nor for the majority of the alcohol‐related factors (B 95% CI = −0.034 to 0.004, P = 0.273–0.288). A negative association with a small effect size was found between D2R availability and later impulsivity (B = −0.017, B 95% CI = −0.034 to −0.001, P = 0.046).ConclusionsLow striatal dopamine D2 receptor availability may not be a strong predictor in the development of alcohol use disorder.

PET provides the potential to quantify the distribution of radiolabelled drugs in the human body. In cases when radiolabelled compounds undergo metabolic transformation after administration in vivo, it is necessary to examine the kinetics and distribution of both the labeled mother compound and labeled metabolites. The objective of this study was to assess the extent by which 11C-labeled ethanol, the product arising from the de-esterification of the neuroprotective drug vinpocetine (ethyl-apovincaminate), might contribute to the regional cerebral radioactivity measured by PET after the administration of [ethyl-11C]vinpocetine. In three cynomolgous monkeys PET measurements were made after intravenous bolus injection of both [11C]vinpocetine and 1-[11C]ethanol. There was a marked difference between the regional time-activity curves of [11C]ethanol and [11C]vinpocetine. The distribution pattern obtained with [11C]ethanol was similar to that observed with blood flow tracers such as [15O]water and [15O]butanol. The study shows that although [11C]ethanol may moderately contribute to the brain radioactivity distribution pattern of [11C]vinpocetine, the rapid degradation of [11C]ethanol makes it unlikely that the contribution of this metabolite is of importance. The distinct distribution patterns and kinetics of [11C]vinpocetine and [11C]ethanol also support the view, obtained from our previous observations, that vinpocetine may bind to specific sites in the monkey and human brain, especially in the thalamus.

(R)-1-(10,11-Dihydro-dibenzo[b,f]azepin-5-yl)-3-methylamino-propan-2-ol ((R)-OHDMI) and (S,S)-1-cyclopentyl-2-(5-fluoro-2-methoxy-phenyl)-1-morpholin-2-yl-ethanol (CFMME) were synthesized and found to be potent inhibitors of norepinephrine reuptake. Each was labelled efficiently in its methyl group with carbon-11 (t(1/2)=20.4 min) as a prospective radioligand for imaging brain norepinephrine transporters (NET) with positron emission tomography (PET). The uptake and distribution of radioactivity in brain following intravenous injection of each radioligand into cynomolgus monkey was examined in vivo with PET. After injection of (R)-[(11)C]OHDMI, the maximal whole brain uptake of radioactivity was very low (1.1% of injected dose; I.D.). For occipital cortex, thalamus, lower brainstem, mesencephalon and cerebellum, radioactivity ratios to striatum at 93 min after radioligand injection were 1.35, 1.35, 1.2, 1.2 and 1.0, respectively. After injection of [(11)C]CFMME, radioactivity readily entered brain (3.5% I.D.). Ratios of radioactivity to cerebellum at 93 min for thalamus, occipital cortex, region of locus coeruleus, mesencephalon and striatum were 1.35, 1.3, 1.3, 1.2 and 1.2, respectively. Radioactive metabolites in plasma were measured by radio-HPLC. (R)-[(11)C]OHDMI represented 75% of plasma radioactivity at 4 min after injection and 6% at 30 min. After injection of [(11)C]CFMME, 84% of the radioactivity in plasma represented parent at 4 min and 20% at 30 min. Since the two new hydroxylated radioligands provide only modest regional differentiation in brain uptake and form potentially troublesome lipophilic radioactive metabolites, they are concluded to be inferior to existing radioligands, such as (S,S)-[(11)C]MeNER, (S,S)-[(18)F]FMeNER-D(2) and (S,S)-[(18)F]FRB-D(4), for the study of brain NETs with PET in vivo.