Test–retest reliability of 11C-ORM-13070 in PET imaging of α2C-adrenoceptors in vivo in the human brain

Lehto, Jussi; Virta, Jere; Oikonen, Vesa; Roivainen, Anne; Luoto, Pauliina; Arponen, Eveliina; Helin, Semi; Hietamäki, Johanna; Holopainen, Aila; Kailajärvi, Marita; Peltonen, Janne; Rouru, Juha; Sallinen, Jukka; Virtanen, Kirsi A.; Volanen, Iina; Scheinin, Mika; Rinne, Juha O.

doi:10.1007/s00259-014-2899-z

Cited by 21 publications

(38 citation statements)

References 24 publications

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“…PET imaging was performed with an HRRT (High Resolution Research Tomograph, Siemens, Knoxville, TN) brain scanner, with 207 slices of 1.22 mm covering the whole brain (axial FOV 25.3 cm) in the same manner as described by Lehto et al (). Image reconstruction was performed with the OP‐OSEM algorithm (Hong et al ) with eight iterations and 16 subsets.…”

Section: Methodsmentioning

confidence: 99%

“…These studies revealed that [ 11 C]ORM‐13070 penetrated rapidly into the brain with the most prominent accumulation of radioactivity occurring in the caudate nucleus and putamen. The test–retest reliability of the uptake was good, with absolute variability of 4.3% in the putamen and 6.5% in the caudate nucleus (Lehto et al, ; Luoto et al, ).…”

Section: Introductionmentioning

confidence: 99%

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Validation of [¹¹C]ORM‐13070 as a PET tracer for alpha_2c‐adrenoceptors in the human brain

Lehto

Hirvonen²,

Johansson

et al. 2015

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This study explored the use of the α2C -adrenoceptor PET tracer [(11) C]ORM-13070 to monitor α2C -AR occupancy in the human brain. The subtype-nonselective α2 -AR antagonist atipamezole was administered to eight healthy volunteer subjects to determine its efficacy and potency (Emax and EC50 ) at inhibiting tracer uptake. We also explored whether the tracer could reveal changes in the synaptic concentrations of endogenous noradrenaline in the brain, in response to several pharmacological and sensory challenge conditions. We assessed occupancy from the bound-to-free ratio measured during 5-30 min post injection. Based on extrapolation of one-site binding, the maximal extent of inhibition of striatal [(11) C]ORM-13070 uptake (Emax ) achievable by atipamezole was 78% (95% CI 69-87%) in the caudate nucleus and 65% (53-77%) in the putamen. The EC50 estimates of atipamezole (1.6 and 2.5 ng/ml, respectively) were in agreement with the drug's affinity to α2C -ARs. These findings represent clear support for the use of [(11) C]ORM-13070 for monitoring drug occupancy of α2C -ARs in the living human brain. Three of the employed noradrenaline challenges were associated with small, approximately 10-16% average reductions in tracer uptake in the dorsal striatum (atomoxetine, ketamine, and the cold pressor test; P < 0.05 for all), but insulin-induced hypoglycemia did not affect tracer uptake. The tracer is suitable for studying central nervous system receptor occupancy by α2C -AR ligands in human subjects. [(11) C]ORM-13070 also holds potential as a tool for in vivo monitoring of synaptic concentrations of noradrenaline, but this remains to be further evaluated in future studies.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Validation of [¹¹C]ORM‐13070 as a PET tracer for alpha_2c‐adrenoceptors in the human brain

Lehto

Hirvonen²,

Johansson

et al. 2015

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“…However, it is debatable whether VAS is a sensitive enough method to assess the sedative effects of anesthetic agents, and the ROI-based analysis did suggest that high-dose dexmedetomidine had a global effect on thalamic tracer binding, while the low dose had no or negligible effects, less than the thalamic test-retest variability of [ 11 C]ORM-13070 binding (see below). The small sample size (n 5 6) restricts the interpretation of the current results even though thalamic [ 11 C]ORM-13070 binding has been previously shown to be highly repeatable with an absolute variability of 6.6% (Lehto et al, 2015a). The relevance of the statistically significant isolated cortical finding is unclear with regard to previously published data on dexmedetomidine and the CNS effects of anesthetic agents in general.…”

Section: Discussionmentioning

confidence: 72%

“…The relevance of the statistically significant isolated cortical finding is unclear with regard to previously published data on dexmedetomidine and the CNS effects of anesthetic agents in general. It is also acknowledged that the cortical repeatability of [ 11 C]ORM-13070 binding is rather poor with an absolute test-retest variability of 13-14% (Lehto et al, 2015a). When PET tracer binding is estimated with tissue ratios following a bolus injection, decreased regional CBF could affect binding estimates by decreasing the efflux (k 2 ) from the free tissue compartment.…”

Section: Discussionmentioning

confidence: 99%

“…From a PET modelling standpoint, a bolus 1 infusion approach where true equilibrium in tracer kinetics is achieved, would theoretically be better suited for binding estimation with tissue ratios. Using [ 11 C]ORM-13070, we have previously demonstrated superior repeatability of binding estimates with the interval (tissue ratio) method compared with other reference tissue methods, and a good correlation to results obtained with compartmental model fits (Lehto et al, 2015a). Current radiosynthesis methods are not able to consistently produce >1 GBq of [ 11 C]ORM-13070 at a time without sacrificing highspecific activity, which is a key prerequisite for reliable results with PET.…”

Section: Synapsementioning

confidence: 99%

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Detecting a dexmedetomidine-evoked reduction of noradrenaline release in the human brain with the alpha2C-adrenoceptor PET ligand [¹¹C]ORM-13070

Lehto

Scheinin

Johansson

et al. 2015

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PET imaging can for some neurotransmitters be used to measure synaptic neurotransmitter concentrations. The objective of this study was to test whether the receptor binding of the α2C -AR antagonist PET tracer [(11)C]ORM-13070 would increase in response to reductions in synaptic noradrenaline, evoked by dexmedetomidine as a sympatholytic drug challenge. Six subjects underwent a control PET scan and two dexmedetomidine PET scans. Dexmedetomidine was infused with target plasma concentrations of 0.6 and 0.2 ng/ml. Tracer binding was measured by voxel-based analysis of bound per free (B/F) images. ROI-based analysis was performed in the dorsal striatum and in the thalamus. Vital signs and drug concentrations in plasma were measured and the sedative effect was estimated with the visual analog scale. In the voxel-based analysis, dexmedetomidine administration was associated with a tendency to increased B/F tracer in the right thalamus (mean, +17%, P = 0.14, and +19%, P = 0.05, with the low and high dose, respectively). Tracer binding in the dorsal striatum was unaffected by dexmedetomidine. A cluster with significantly increased B/F tracer (+42%, P = 0.01) was seen in the right superior temporal gyrus with low-dose dexmedetomidine, but not after the high dose. Brain uptake of [(11)C]ORM-13070 has previously been shown to be reduced in conditions of increased synaptic noradrenaline concentrations. In this study, tracer binding in the thalamus tended to increase in accordance with reduced activity of noradrenergic projections from the locus coeruleus, but statistical significance was not reached.

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Application of cross-species PET imaging to assess neurotransmitter release in brain

et al. 2015

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RationaleThis review attempts to summarize the current status in relation to the use of positron emission tomography (PET) imaging in the assessment of synaptic concentrations of endogenous mediators in the living brain.ObjectivesAlthough PET radioligands are now available for more than 40 CNS targets, at the initiation of the Innovative Medicines Initiative (IMI) “Novel Methods leading to New Medications in Depression and Schizophrenia” (NEWMEDS) in 2009, PET radioligands sensitive to an endogenous neurotransmitter were only validated for dopamine. NEWMEDS work-package 5, “Cross-species and neurochemical imaging (PET) methods for drug discovery”, commenced with a focus on developing methods enabling assessment of changes in extracellular concentrations of serotonin and noradrenaline in the brain.ResultsSharing the workload across institutions, we utilized in vitro techniques with cells and tissues, in vivo receptor binding and microdialysis techniques in rodents, and in vivo PET imaging in non-human primates and humans. Here, we discuss these efforts and review other recently published reports on the use of radioligands to assess changes in endogenous levels of dopamine, serotonin, noradrenaline, γ-aminobutyric acid, glutamate, acetylcholine, and opioid peptides. The emphasis is on assessment of the availability of appropriate translational tools (PET radioligands, pharmacological challenge agents) and on studies in non-human primates and human subjects, as well as current challenges and future directions.ConclusionsPET imaging directed at investigating changes in endogenous neurochemicals, including the work done in NEWMEDS, have highlighted an opportunity to further extend the capability and application of this technology in drug development.

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Test–retest reliability of 11C-ORM-13070 in PET imaging of α2C-adrenoceptors in vivo in the human brain

Abstract: The results of this study support the use of [(11)C]ORM-13070 PET in the quantitative assessment of α2C-adrenoceptors in the human brain in vivo. Reliable assessment of specific tracer binding in the dorsal striatum is possible with the help of reference tissue ratios.

Cited by 21 publications

References 24 publications

Validation of [¹¹C]ORM‐13070 as a PET tracer for alpha_2c‐adrenoceptors in the human brain

Validation of [¹¹C]ORM‐13070 as a PET tracer for alpha_2c‐adrenoceptors in the human brain

Detecting a dexmedetomidine-evoked reduction of noradrenaline release in the human brain with the alpha2C-adrenoceptor PET ligand [¹¹C]ORM-13070

Application of cross-species PET imaging to assess neurotransmitter release in brain

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Test–retest reliability of 11C-ORM-13070 in PET imaging of α2C-adrenoceptors in vivo in the human brain

Abstract: The results of this study support the use of [(11)C]ORM-13070 PET in the quantitative assessment of α2C-adrenoceptors in the human brain in vivo. Reliable assessment of specific tracer binding in the dorsal striatum is possible with the help of reference tissue ratios.

Cited by 21 publications

References 24 publications

Validation of [11C]ORM‐13070 as a PET tracer for alpha2c‐adrenoceptors in the human brain

Validation of [11C]ORM‐13070 as a PET tracer for alpha2c‐adrenoceptors in the human brain

Detecting a dexmedetomidine-evoked reduction of noradrenaline release in the human brain with the alpha2C-adrenoceptor PET ligand [11C]ORM-13070

Application of cross-species PET imaging to assess neurotransmitter release in brain

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Product

Resources

About

Validation of [¹¹C]ORM‐13070 as a PET tracer for alpha_2c‐adrenoceptors in the human brain

Validation of [¹¹C]ORM‐13070 as a PET tracer for alpha_2c‐adrenoceptors in the human brain

Detecting a dexmedetomidine-evoked reduction of noradrenaline release in the human brain with the alpha2C-adrenoceptor PET ligand [¹¹C]ORM-13070