Your search keyword '"Gunn, Roger N"' showing total 30 results

1. Evaluation of Intraperitoneal [ 18 F]-FDOPA Administration for Micro-PET Imaging in Mice and Assessment of the Effect of Subchronic Ketamine Dosing on Dopamine Synthesis Capacity.

Author

Halff, Els F., Natesan, Sridhar, Bonsall, David R., Veronese, Mattia, Garcia-Hidalgo, Anna, Kokkinou, Michelle, Tang, Sac-Pham, Riggall, Laura J., Gunn, Roger N., Irvine, Elaine E., Withers, Dominic J., Wells, Lisa A., Howes, Oliver D., and Vasdev, Neil

Subjects

KETAMINE, DOPAMINE, DOPAMINERGIC neurons, POSITRON emission tomography, INTRACLASS correlation, METHYL aspartate receptors, JUGULAR vein, RADIOACTIVE tracers

Abstract

Positron emission tomography (PET) using the radiotracer [18F]-FDOPA provides a tool for studying brain dopamine synthesis capacity in animals and humans. We have previously standardised a micro-PET methodology in mice by intravenously administering [18F]-FDOPA via jugular vein cannulation and assessment of striatal dopamine synthesis capacity, indexed as the influx rate constant K i Mod of [18F]-FDOPA, using an extended graphical Patlak analysis with the cerebellum as a reference region. This enables a direct comparison between preclinical and clinical output values. However, chronic intravenous catheters are technically difficult to maintain for longitudinal studies. Hence, in this study, intraperitoneal administration of [18F]-FDOPA was evaluated as a less-invasive alternative that facilitates longitudinal imaging. Our experiments comprised the following assessments: (i) comparison of [18F]-FDOPA uptake between intravenous and intraperitoneal radiotracer administration and optimisation of the time window used for extended Patlak analysis, (ii) comparison of K i Mod in a within-subject design of both administration routes, (iii) test-retest evaluation of K i Mod in a within-subject design of intraperitoneal radiotracer administration, and (iv) validation of K i Mod estimates by comparing the two administration routes in a mouse model of hyperdopaminergia induced by subchronic ketamine. Our results demonstrate that intraperitoneal [18F]-FDOPA administration resulted in good brain uptake, with no significant effect of administration route on K i Mod estimates (intraperitoneal: 0.024 ± 0.0047 min − 1 , intravenous: 0.022 ± 0.0041 min − 1 , p = 0.42) and similar coefficient of variation (intraperitoneal: 19.6%; intravenous: 18.4%). The technique had a moderate test-retest validity (intraclass correlation coefficient ICC = 0.52 , N = 6) and thus supports longitudinal studies. Following subchronic ketamine administration, elevated K i Mod as compared to control condition was measured with a large effect size for both methods (intraperitoneal: Cohen's d = 1.3 ; intravenous: Cohen's d = 0.9), providing further evidence that ketamine has lasting effects on the dopamine system, which could contribute to its therapeutic actions and/or abuse liability. [ABSTRACT FROM AUTHOR]

Published

2024

2. Estimation of target occupancy in repeated dosing design studies using positron emission tomography: Biases due to target upregulation.

Author

Rabiner, Eugenii A and Gunn, Roger N

Abstract

Positron emission tomography (PET) has become indispensable in the quantification of target engagement by brain targeting medications. The relationship between the drug plasma concentration (or drug dose administered) and target occupancy determined during a PET occupancy study has provided valuable information for the assessment of novel pharmaceuticals in the early phases of drug development. Such information is also critical for the understanding of the mechanisms of action and side-effect profile of approved medication commonly used in the clinic. Occupancy studies conducted following repeated drug dosing (RD) can produce systematic differences from those conducted following single drug dose (SD), differences that have not been adequately explored. We have hypothesised that when differences are observed between RD and SD studies, they are related to changes in target density induced by repeated drug accumulation. We have developed a modified occupancy model to account for potential changes in target density and tested it on a sample dataset. We found that target upregulation can parsimoniously explain the differences in drug affinity estimated in SD and RD studies. Our findings have implications for the interpretation of RD occupancy data in the literature and the relationship between specific target occupancy levels and drug efficacy and tolerability. [ABSTRACT FROM AUTHOR]

Published

2024

3. Evaluation of Intraperitoneal [ 18 F]-FDOPA Administration for Micro-PET Imaging in Mice and Assessment of the Effect of Subchronic Ketamine Dosing on Dopamine Synthesis Capacity.

Author

Halff, Els F., Natesan, Sridhar, Bonsall, David R., Veronese, Mattia, Garcia-Hidalgo, Anna, Kokkinou, Michelle, Tang, Sac-Pham, Riggall, Laura J., Gunn, Roger N., Irvine, Elaine E., Withers, Dominic J., Wells, Lisa A., and Howes, Oliver D.

Subjects

KETAMINE, DOPAMINE, POSITRON emission tomography, INTRACLASS correlation, DOPAMINERGIC neurons, RADIOACTIVE tracers, JUGULAR vein, MICE, LONGITUDINAL method

Abstract

Positron emission tomography (PET) using the radiotracer [18F]-FDOPA provides a tool for studying brain dopamine synthesis capacity in animals and humans. We have previously standardised a micro-PET methodology in mice by intravenously administering [18F]-FDOPA via jugular vein cannulation and assessment of striatal dopamine synthesis capacity, indexed as the influx rate constant K i Mod of [18F]-FDOPA, using an extended graphical Patlak analysis with the cerebellum as a reference region. This enables a direct comparison between preclinical and clinical output values. However, chronic intravenous catheters are technically difficult to maintain for longitudinal studies. Hence, in this study, intraperitoneal administration of [18F]-FDOPA was evaluated as a less-invasive alternative that facilitates longitudinal imaging. Our experiments comprised the following assessments: (i) comparison of [18F]-FDOPA uptake between intravenous and intraperitoneal radiotracer administration and optimisation of the time window used for extended Patlak analysis, (ii) comparison of K i Mod in a within-subject design of both administration routes, (iii) test-retest evaluation of K i Mod in a within-subject design of intraperitoneal radiotracer administration, and (iv) validation of K i Mod estimates by comparing the two administration routes in a mouse model of hyperdopaminergia induced by subchronic ketamine. Our results demonstrate that intraperitoneal [18F]-FDOPA administration resulted in good brain uptake, with no significant effect of administration route on K i Mod estimates (intraperitoneal: 0.024 ± 0.0047 min − 1 , intravenous: 0.022 ± 0.0041 min − 1 , p = 0.42) and similar coefficient of variation (intraperitoneal: 19.6%; intravenous: 18.4%). The technique had a moderate test-retest validity (intraclass correlation coefficient ICC = 0.52 , N = 6) and thus supports longitudinal studies. Following subchronic ketamine administration, elevated K i Mod as compared to control condition was measured with a large effect size for both methods (intraperitoneal: Cohen's d = 1.3 ; intravenous: Cohen's d = 0.9), providing further evidence that ketamine has lasting effects on the dopamine system, which could contribute to its therapeutic actions and/or abuse liability. [ABSTRACT FROM AUTHOR]

Published

2022

4. Reproducibility of findings in modern PET neuroimaging: insight from the NRM2018 grand challenge.

Author

Veronese, Mattia, Rizzo, Gaia, Belzunce, Martin, Schubert, Julia, Searle, Graham, Whittington, Alex, Mansur, Ayla, Dunn, Joel, Reader, Andrew, and Gunn, Roger N

Abstract

The reproducibility of findings is a compelling methodological problem that the neuroimaging community is facing these days. The lack of standardized pipelines for image processing, quantification and statistics plays a major role in the variability and interpretation of results, even when the same data are analysed. This problem is well-known in MRI studies, where the indisputable value of the method has been complicated by a number of studies that produce discrepant results. However, any research domain with complex data and flexible analytical procedures can experience a similar lack of reproducibility. In this paper we investigate this issue for brain PET imaging. During the 2018 NeuroReceptor Mapping conference, the brain PET community was challenged with a computational contest involving a simulated neurotransmitter release experiment. Fourteen international teams analysed the same imaging dataset, for which the ground-truth was known. Despite a plurality of methods, the solutions were consistent across participants, although not identical. These results should create awareness that the increased sharing of PET data alone will only be one component of enhancing confidence in neuroimaging results and that it will be important to complement this with full details of the analysis pipelines and procedures that have been used to quantify data. [ABSTRACT FROM AUTHOR]

Published

2021

5. Acute acetate administration increases endogenous opioid levels in the human brain: A [ 11 C]carfentanil molecular imaging study.

Author

Ashok, Abhishekh H, Myers, Jim, Frost, Gary, Turton, Samuel, Gunn, Roger N, Passchier, Jan, Colasanti, Alessandro, Marques, Tiago Reis, Nutt, David, Lingford-Hughes, Anne, Howes, Oliver D, and Rabiner, Eugenii A

Subjects

POSITRON emission tomography, ACETATES, SODIUM acetate, DIAGNOSTIC imaging, TEMPORAL lobe

Abstract

Introduction: A recent study has shown that acetate administration leads to a fourfold increase in the transcription of proopiomelanocortin (POMC) mRNA in the hypothalamus. POMC is cleaved to peptides, including β-endorphin, an endogenous opioid (EO) agonist that binds preferentially to the µ-opioid receptor (MOR). We hypothesised that an acetate challenge would increase the levels of EO in the human brain. We have previously demonstrated that increased EO release in the human brain can be detected using positron emission tomography (PET) with the selective MOR radioligand [11C]carfentanil. We used this approach to evaluate the effects of an acute acetate challenge on EO levels in the brain of healthy human volunteers. Methods: Seven volunteers each completed a baseline [11C]carfentanil PET scan followed by an administration of sodium acetate before a second [11C]carfentanil PET scan. Dynamic PET data were acquired over 90 minutes, and corrected for attenuation, scatter and subject motion. Regional [11C] carfentanil BP ND values were then calculated using the simplified reference tissue model (with the occipital grey matter as the reference region). Change in regional EO concentration was evaluated as the change in [11C]carfentanil BP ND following acetate administration. Results: Following sodium acetate administration, 2.5–6.5% reductions in [11C]carfentanil regional BP ND were seen, with statistical significance reached in the cerebellum, temporal lobe, orbitofrontal cortex, striatum and thalamus. Conclusions: We have demonstrated that an acute acetate challenge has the potential to increase EO release in the human brain, providing a plausible mechanism of the central effects of acetate on appetite in humans. [ABSTRACT FROM AUTHOR]

Published

2021

6. Test–retest variability and reference region-based quantification of 18 F-BCPP-EF for imaging mitochondrial complex I in the human brain.

Author

Mansur, Ayla, Rabiner, Eugenii A, Tsukada, Hideo, Comley, Robert A, Lewis, Yvonne, Huiban, Mickael, Passchier, Jan, and Gunn, Roger N

Abstract

Mitochondrial complex I (MC-I) is an essential regulator of brain bioenergetics and can be quantified in the brain using PET radioligand 18F-BCPP-EF. Here we evaluate the test–retest reproducibility of 18F-BCPP-EF in humans, and assess the use of a non-invasive quantification method (standardised uptake value ratio – SUVR). Thirty healthy volunteers had a 90-min dynamic 18F-BCPP-EF scan with arterial blood sampling, five of which received a second scan to be included in the test–retest analysis. Time-activity curves (TAC) were analysed using multilinear analysis 1 (MA1) and the two-tissue compartment model (2TC) to estimate volumes of distribution (VT). Regional SUVR-1 values were calculated from the 70 to 90-min TAC data using the centrum semiovale as a pseudo reference region, and compared to kinetic analysis-derived outcome measures. The mean absolute test–retest variability of VT ranged from 12% to 18% across regions. Both DVR-1and SUVR-1 had improved test–retest variability in the range 2%–7%. SUVR-1 was highly correlated with DVR-1 (r2 = 0.97, n = 30). In conclusion, 18F-BCPP-EF has suitable test–retest reproducibility and can be used to quantify MC-I in clinical studies. [ABSTRACT FROM AUTHOR]

Published

2021

7. Guidelines for the content and format of PET brain data in publications and archives: A consensus paper.

Author

Knudsen, Gitte M, Ganz, Melanie, Appelhoff, Stefan, Boellaard, Ronald, Bormans, Guy, Carson, Richard E, Catana, Ciprian, Doudet, Doris, Gee, Antony D, Greve, Douglas N, Gunn, Roger N, Halldin, Christer, Herscovitch, Peter, Huang, Henry, Keller, Sune H, Lammertsma, Adriaan A, Lanzenberger, Rupert, Liow, Jeih-San, Lohith, Talakad G, and Lubberink, Mark

Abstract

It is a growing concern that outcomes of neuroimaging studies often cannot be replicated. To counteract this, the magnetic resonance (MR) neuroimaging community has promoted acquisition standards and created data sharing platforms, based on a consensus on how to organize and share MR neuroimaging data. Here, we take a similar approach to positron emission tomography (PET) data. To facilitate comparison of findings across studies, we first recommend publication standards for tracer characteristics, image acquisition, image preprocessing, and outcome estimation for PET neuroimaging data. The co-authors of this paper, representing more than 25 PET centers worldwide, voted to classify information as mandatory, recommended, or optional. Second, we describe a framework to facilitate data archiving and data sharing within and across centers. Because of the high cost of PET neuroimaging studies, sample sizes tend to be small and relatively few sites worldwide have the required multidisciplinary expertise to properly conduct and analyze PET studies. Data sharing will make it easier to combine datasets from different centers to achieve larger sample sizes and stronger statistical power to test hypotheses. The combining of datasets from different centers may be enhanced by adoption of a common set of best practices in data acquisition and analysis. [ABSTRACT FROM AUTHOR]

Published

2020

8. Building a database for brain 18 kDa translocator protein imaged using [11C]PBR28 in healthy subjects.

Author

Paul, Soumen, Gallagher, Evan, Liow, Jeih-San, Mabins, Sanche, Henry, Katharine, Zoghbi, Sami S., Gunn, Roger N., Kreisl, William C., Richards, Erica M., Zanotti-Fregonara, Paolo, Morse, Cheryl L., Jinsoo Hong, Kowalski, Aneta, Pike, Victor W., Innis, Robert B., and Fujita, Masahiro

Abstract

Translocator protein 18 kDa (TSPO) has been widely imaged as a marker of neuroinflammation using several radioligands, including [11C]PBR28. In order to study the effects of age, sex, and obesity on TSPO binding and to determine whether this binding can be accurately assessed using fewer radio high-performance liquid chromatography (radio-HPLC) measurements of arterial blood samples, we created a database of 48 healthy subjects who had undergone [11C]PBR28 scans (23 high-affinity binders (HABs) and 25 mixed-affinity binders (MABs), 20 F/28 M, age: 40.6±16.8 years). After analysis by Logan plot using 23 metabolite-corrected arterial samples, total distribution volume (VT) was found to be 1.2-fold higher in HABs across all brain regions. Additionally, the polymorphism plot estimated nondisplaceable uptake (VND) as 1.40 mL ± cm-3, which generated a specific-to-nondisplaceable ratio (BPND) of 1.6±0.6 in HABs and 1.1±0.6 in MABs. VT increased significantly with age in nearly all regions and was well estimated with radio-HPLC measurements from six arterial samples. However, VT did not correlate with body mass index and was not affected by sex. These results underscore which patient characteristics should be accounted for during [11C]PBR28 studies and suggest ways to perform such studies more easily and with fewer blood samples. [ABSTRACT FROM AUTHOR]

Published

2019

9. Quantification of human brain PDE4 occupancy by GSK356278: A [11C](R)-rolipram PET study.

Author

van der Aart, Jasper, Salinas, Cristian, Dimber, Rahul, Pampols-Maso, Sabina, Weekes, Ashley A., Tonkyn, John, Gray, Frank A., Passchier, Jan, Gunn, Roger N., and Rabiner, Eugenii A.

Abstract

We characterized the relationship between the plasma concentration of the phospodiesterase (PDE)-4 inhibitor GSK356278 and occupancy of the PDE4 enzyme in the brain of healthy volunteers, using the positron emission tomography (PET) tracer [11C](R)-rolipram. To this end, PET scans were acquired in eight male volunteers before and at 3 and 8 h after a single 14 mg oral dose of GSK356278. A metabolite-corrected arterial input function was used in conjunction with the dynamic PET emission data to estimate volumes of distribution (VT) from a two-tissue compartment model. The administration of GSK356278 reduced [11C](R)-rolipram whole brain VT by 17% at 3 h post-dose (p = 0.01) and by 4% at 8 h post-dose. The mean plasma Cmax was 42.3 ng/ml, leading to a PDE4 occupancy of 48% at Tmax. The in vivo affinity of GSK356278 was estimated as EC50 = 46 ± 3.6 ng/ml. We present the first report of a direct estimation of PDE4 blockade in the living human brain. In vivo affinity of GSK356278 for the PDE4, estimated in this early phase study, was combined with GSK356278 safety and tolerability data to decide on a therapeutic dose for future clinical development. [ABSTRACT FROM AUTHOR]

Published

2018

10. 11C-DPA-713 has much greater specific binding to translocator protein 18 kDa (TSPO) in human brain than 11C-(R)-PK11195.

Author

Kobayashi, Masato, Jiang, Teresa, Telu, Sanjay, Zoghbi, Sami S., Gunn, Roger N., Rabiner, Eugenii A., Owen, David R., Guo, Qi, Pike, Victor W., Innis, Robert B., and Fujita, Masahiro

Abstract

Positron emission tomography (PET) radioligands for translocator protein 18 kDa (TSPO) are widely used to measure neuroinflammation, but controversy exists whether second-generation radioligands are superior to the prototypical agent 11C-(R)-PK11195 in human imaging. This study sought to quantitatively measure the “signal to background” ratio (assessed as binding potential (BPND)) of 11C-(R)-PK11195 compared to one of the most promising second-generation radioligands, 11C-DPA-713. Healthy subjects had dynamic PET scans and arterial blood measurements of radioligand after injection of either 11C-(R)-PK11195 (16 subjects) or 11C-DPA-713 (22 subjects). To measure the amount of specific binding, a subset of these subjects was scanned after administration of the TSPO blocking drug XBD173 (30–90 mg PO). 11C-DPA-713 showed a significant sensitivity to genotype in brain, whereas 11C-(R)-PK11195 did not. Lassen occupancy plot analysis revealed that the specific binding of 11C-DPA-713 was much greater than that of 11C-(R)-PK11195. The BPND in high-affinity binders was about 10-fold higher for 11C-DPA-713 (7.3) than for 11C-(R)-PK11195 (0.75). Although the high specific binding of 11C-DPA-713 suggests it is an ideal ligand to measure TSPO, we also found that its distribution volume increased over time, consistent with the accumulation of radiometabolites in brain. [ABSTRACT FROM AUTHOR]

Published

2018

11. Translocator positron-emission tomography and magnetic resonance spectroscopic imaging of brain glial cell activation in multiple sclerosis.

Author

Datta, Gourab, Violante, Ines R., Scott, Gregory, Zimmerman, Karl, Santos-Ribeiro, Andre, Rabiner, Eugenii A., Gunn, Roger N., Malik, Omar, Ciccarelli, Olga, Nicholas, Richard, and Matthews, Paul M.

Subjects

MULTIPLE sclerosis, POSITRON emission tomography, MAGNETIC resonance imaging, NEUROGLIA, MICROGLIA, ASTROCYTES, TRANSLOCATOR proteins, INFLAMMATION

Abstract

Background: Multiple sclerosis (MS) is characterised by a diffuse inflammatory response mediated by microglia and astrocytes. Brain translocator protein (TSPO) positron-emission tomography (PET) and [myo-inositol] magnetic resonance spectroscopy (MRS) were used together to assess this. Objective: To explore the in vivo relationships between MRS and PET [11C]PBR28 in MS over a range of brain inflammatory burden. Methods: A total of 23 patients were studied. TSPO PET imaging with [11C]PBR28, single voxel MRS and conventional magnetic resonance imaging (MRI) sequences were undertaken. Disability was assessed by Expanded Disability Status Scale (EDSS) and Multiple Sclerosis Functional Composite (MSFC). Results: [11C]PBR28 uptake and [myo-inositol] were not associated. When the whole cohort was stratified by higher [11C]PBR28 inflammatory burden, [myo-inositol] was positively correlated to [11C]PBR28 uptake (Spearman's ρ = 0.685, p = 0.014). Moderate correlations were found between [11C]PBR28 uptake and both MRS creatine normalised N-acetyl aspartate (NAA) concentration and grey matter volume. MSFC was correlated with grey matter volume (ρ = 0.535, p = 0.009). There were no associations between other imaging or clinical measures. Conclusion: MRS [myo-inositol] and PET [11C]PBR28 measure independent inflammatory processes which may be more commonly found together with more severe inflammatory disease. Microglial activation measured by [11C]PBR28 uptake was associated with loss of neuronal integrity and grey matter atrophy. [ABSTRACT FROM AUTHOR]

Published

2017

12. Quantification of [11C]Ro15-4513 GABAAα5 specific binding and regional selectivity in humans.

Author

Myers, Jim F. M., Comley, Robert A., and Gunn, Roger N.

Abstract

[11C]Ro15-4513 has been introduced as a positron emission tomography radioligand to image the GABAAα5 receptor subtype thought to be important in learning, memory and addiction. However, the in vivo selectivity of the ligand remains unknown and a full assessment of different analysis approaches has yet to be performed. Using human heterologous competition data, with [11C]Ro15-4513 and the highly selective GABAAα5 selective negative allosteric modulator Basmisanil (RG1662), we quantify the GABAAα5 selectivity of [11C]Ro15-4513, assess the validity of reference tissues and evaluate the performance of four different kinetic analysis methods. The results show that [11C]Ro15-4513 has high but not complete selectivity for GABAAα5, with α5 representing around 60-70% of the specific binding in α5 rich regions. Competition data indicate that the cerebellum and pons are essentially devoid of α5 signal and might be used as reference regions under certain conditions. Off-target non-selective binding to other GABAA subtypes means that the choice of analysis method and the interpretation of outcome measures must be considered carefully. We discuss the merits of two tissue compartmental model analyses to derive both VT and VS, band-pass spectral analysis for estimation of Vα5 and the simplified reference tissue model for estimation of BPND. [ABSTRACT FROM AUTHOR]

Published

2017

13. The simplified reference tissue model: model assumption violations and their impact on binding potential.

Author

Salinas, Cristian A, Searle, Graham E, and Gunn, Roger N

Subjects

POSITRON emission tomography, BRAIN imaging, METABOLITES, PARAMETER estimation, DECISION making

Abstract

Reference tissue models have gained significant traction over the last two decades as the methods of choice for the quantification of brain positron emission tomography data because they balance quantitative accuracy with less invasive procedures. The principal advantage is the elimination of the need to perform arterial cannulation of the subject to measure blood and metabolite concentrations for input function generation. In particular, the simplified reference tissue model (SRTM) has been widely adopted as it uses a simplified model configuration with only three parameters that typically produces good fits to the kinetic data and a stable parameter estimation process. However, the model's simplicity and its ability to generate good fits to the data, even when the model assumptions are not met, can lead to misplaced confidence in binding potential (BPND) estimates. Computer simulation were used to study the bias introduced in BPND estimates as a consequence of violating each of the four core SRTM model assumptions. Violation of each model assumption led to bias in BPND (both over and underestimation). Careful assessment of the bias in SRTM BPND should be performed for new tracers and applications so that an appropriate decision about its applicability can be made. [ABSTRACT FROM AUTHOR]

Published

2015

14. A graphical method to compare the in vivo binding potential of PET radioligands in the absence of a reference region: application to [11C]PBR28 and [18F]PBR111 for TSPO imaging.

Author

Guo, Qi, Owen, David R, Rabiner, Eugenii A, Turkheimer, Federico E, and Gunn, Roger N

Subjects

POSITRON emission tomography, CENTRAL nervous system, RADIOACTIVE substances, HEALTH outcome assessment, MEDICAL literature, SEROTONIN, REGRESSION analysis

Abstract

Positron emission tomography (PET) radioligands for a reversible central nervous system (CNS) demand a high specific to nonspecific signal characterized by the binding potential (BPND). The quantification of BPND requires the determination of the nondisplaceable binding usually derived from a reference region devoid of the target of interest. However, for many CNS targets, there is no valid reference region available. In such cases, the total volume of distribution (VT) is often used as the outcome measure, which includes both the specific and nonspecific binding signals. Here we present a graphical method that allows for direct comparison of the binding potential of ligands using the regional VT data alone via linear regression. The method was first validated using literature data for five serotonin transporter ligands, for which a reference region exists, and then applied to two second generation 18 kDa translocator protein radioligands, namely [11C]PBR28 and [18F]PBR111. The analysis determined that [11C]PBR28 had a higher BPND than [18F]PBR111. [ABSTRACT FROM AUTHOR]

Published

2014

15. Determination of [11C]PBR28 binding potential in vivo: a first human TSPO blocking study.

Author

Owen, David R, Guo, Qi, Kalk, Nicola J, Colasanti, Alessandro, Kalogiannopoulou, Dimitra, Dimber, Rahul, Lewis, Yvonne L, Libri, Vincenzo, Barletta, Julien, Ramada-Magalhaes, Joaquim, Kamalakaran, Aruloly, Nutt, David J, Passchier, Jan, Matthews, Paul M, Gunn, Roger N, and Rabiner, Eugenii A

Subjects

POSITRON emission tomography, NEUROLOGICAL disorders, INFLAMMATION, RADIOLIGAND assay, BRAIN physiology, PREDICTION models

Abstract

Positron emission tomography (PET) targeting the 18 kDa translocator protein (TSPO) is used to quantify neuroinflammation. Translocator protein is expressed throughout the brain, and therefore a classical reference region approach cannot be used to estimate binding potential (BPND). Here, we used blockade of the TSPO radioligand [11C]PBR28 with the TSPO ligand XBD173, to determine the non-displaceable volume of distribution (VND), and hence estimate the BPND. A total of 26 healthy volunteers, 16 high-affinity binders (HABs) and 10 mixed affinity binders (MABs) underwent a [11C]PBR28 PET scan with arterial sampling. Six of the HABs received oral XBD173 (10 to 90 mg), 2 hours before a repeat scan. In XBD173-dosed subjects, VND was estimated via the occupancy plot. Values of BPND for all subjects were calculated using this VND estimate. Total volume of distribution (VT) of MABs (2.94±0.31) was lower than VT of HABs (4.33±0.29) (P<0.005). There was dose-dependent occupancy of TSPO by XBD173 (ED50=0.34±0.13 mg/kg). The occupancy plot provided a VND estimate of 1.98 (1.69, 2.26). Based on these VND estimates, BPND for HABs is approximately twice that of MABs, consistent with predictions from in vitro data. Our estimates of [11C]PBR28 VND and hence BPND in the healthy human brain are consistent with in vitro predictions. XBD173 blockade provides a practical means of estimating VND for TSPO targeting radioligands. [ABSTRACT FROM AUTHOR]

Published

2014

16. Characterising the plasma-target occupancy relationship of the neurokinin antagonist GSK1144814 with PET.

Author

Ridler, Khanum, Gunn, Roger N, Searle, Graham E, Barletta, Julien, Passchier, Jan, Dixson, Luanna, Hallett, William A, Ashworth, Sharon, Gray, Frank A, Burgess, Clare, Poggesi, Italo, Bullman, Jonathan N, Ratti, Emiliangelo, Laruelle, Marc A, and Rabiner, Eugenii A

Subjects

*TACHYKININS, *CELL receptors, *PHARMACOKINETICS, *BRAIN research, *DRUG dosage, *CLINICAL trials

Abstract

GSK1144814 is a potent, insurmountable antagonist at human NK1 and NK3 receptors. Understanding the relationship between plasma pharmacokinetics and receptor occupancy in the human brain, was crucial for dose selection in future clinical studies. GSK1144814 occupancy data were acquired in parallel with the first-time-in-human safety and tolerability study. [11C]GR-205171 a selective NK1 receptor PET ligand was used to estimate NK1 occupancy at several time-points following single dose administration of GSK1144814. The time-plasma concentration–occupancy relationship post-single dose administration was assessed, and used to predict the plasma concentration–occupancy relationship following repeat dose administration. Repeat dose predictions were tested in a subsequent cohort of subjects examined following approximately 7 and 14 days dosing with GSK1144814. GSK1144814 was shown to demonstrate a dose-dependent occupancy of the NK1 receptor with an estimated in vivo EC50 ~0.9 ng/mL in the human brain. A direct relationship was seen between the GSK1144814 plasma concentration and its occupancy of the brain NK1 receptor, indicating that in future clinical trials the occupancy of brain receptors can be accurately inferred from the measured plasma concentration. Our data provided support for the further progression of this compound and have optimised the likely therapeutic dose range. [ABSTRACT FROM AUTHOR]

Published

2014

17. Kinetic analysis of drug-target interactions with PET for characterization of pharmacological hysteresis.

Author

Salinas, Cristian, Weinzimmer, David, Searle, Graham, Labaree, David, Ropchan, Jim, Huang, Yiyun, Rabiner, Eugenii A, Carson, Richard E, and Gunn, Roger N

Subjects

TARGETED drug delivery, PHARMACOKINETICS, EFFECT of drugs on the brain, DRUG development, POSITRON emission tomography, DRUG administration, DRUG dosage

Abstract

In vivo characterization of the brain pharmacokinetics of novel compounds provides important information for drug development decisions involving dose selection and the determination of administration regimes. In this context, the compound-target affinity is the key parameter to be estimated. However, if compounds exhibit a dynamic lag between plasma and target bound concentrations leading to pharmacological hysteresis, care needs to be taken to ensure the appropriate modeling approach is used so that the system is characterized correctly and that the resultant estimates of affinity are correct. This work focuses on characterizing different pharmacokinetic models that relate the plasma concentration to positron emission tomography outcomes measurements (e.g., volume of distribution and target occupancy) and their performance in estimating the true in vivo affinity. Measured (histamine H3 receptor antagonist-GSK189254) and simulated data sets enabled the investigation of different modeling approaches. An indirect pharmacokinetic-receptor occupancy model was identified as a suitable model for the calculation of affinity when a compound exhibits pharmacological hysteresis. [ABSTRACT FROM AUTHOR]

Published

2013

18. Combining PET biodistribution and equilibrium dialysis assays to assess the free brain concentration and BBB transport of CNS drugs.

Author

Gunn, Roger N, Summerfield, Scott G, Salinas, Cristian A, Read, Kevin D, Guo, Qi, Searle, Graham E, Parker, Christine A, Jeffrey, Phil, and Laruelle, Marc

Subjects

*POSITRON emission tomography, *BLOOD-brain barrier, *DRUG development, *P-glycoprotein, *THERAPEUTICS, *CENTRAL nervous system diseases, *NEUROPROTECTIVE agents, *MICRODIALYSIS

Abstract

The passage of drugs in and out of the brain is controlled by the blood-brain barrier (BBB), typically, using either passive diffusion across a concentration gradient or active transport via a protein carrier. In-vitro and preclinical measurements of BBB penetration do not always accurately predict the in-vivo situation in humans. Thus, the ability to assay the concentration of novel drug candidates in the human brain in vivo provides valuable information for derisking of candidate molecules early in drug development. Here, positron emission tomography (PET) measurements are combined with in-vitro equilibrium dialysis assays to enable assessment of transport and estimation of the free brain concentration in vivo. The PET and equilibrium dialysis data were obtained for 36 compounds in the pig. Predicted P-glycoprotein (P-gp) status of the compounds was consistent with the PET/equilibrium dialysis results. In particular, Loperamide, a well-known P-gp substrate, exhibited a significant concentration gradient consistent with active efflux and after inhibition of the P-gp process the gradient was removed. The ability to measure the free brain concentration and assess transport of novel compounds in the human brain with combined PET and equilibrium dialysis assays can be a useful tool in central nervous system (CNS) drug development. [ABSTRACT FROM AUTHOR]

Published

2012

19. An 18-kDa Translocator Protein (TSPO) polymorphism explains differences in binding affinity of the PET radioligand PBR28.

Author

Owen, David R, Yeo, Astrid J, Gunn, Roger N, Song, Kijoung, Wadsworth, Graham, Lewis, Andrew, Rhodes, Chris, Pulford, David J, Bennacef, Idriss, Parker, Christine A, StJean, Pamela L, Cardon, Lon R, Mooser, Vincent E, Matthews, Paul M, Rabiner, Eugenii A, and Rubio, Justin P

Subjects

CHROMOSOMAL translocation, GENETIC polymorphisms, PROTEIN binding, POSITRON emission tomography, LIGAND binding (Biochemistry), PHENOTYPES

Abstract

[11C]PBR28 binds the 18-kDa Translocator Protein (TSPO) and is used in positron emission tomography (PET) to detect microglial activation. However, quantitative interpretations of signal are confounded by large interindividual variability in binding affinity, which displays a trimodal distribution compatible with a codominant genetic trait. Here, we tested directly for an underlying genetic mechanism to explain this. Binding affinity of PBR28 was measured in platelets isolated from 41 human subjects and tested for association with polymorphisms in TSPO and genes encoding other proteins in the TSPO complex. Complete agreement was observed between the TSPO Ala147Thr genotype and PBR28 binding affinity phenotype (P value=3.1 × 10−13). The TSPO Ala147Thr polymorphism predicts PBR28 binding affinity in human platelets. As all second-generation TSPO PET radioligands tested hitherto display a trimodal distribution in binding affinity analogous to PBR28, testing for this polymorphism may allow quantitative interpretation of TSPO PET studies with these radioligands. [ABSTRACT FROM AUTHOR]

Published

2012

20. Within-subject comparison of [11C]-(+)-PHNO and [11C]raclopride sensitivity to acute amphetamine challenge in healthy humans.

Author

Shotbolt, Paul, Tziortzi, Andri C, Searle, Graham E, Colasanti, Alessandro, van der Aart, Jasper, Abanades, Sergio, Plisson, Christophe, Miller, Sam R, Huiban, Mickael, Beaver, John D, Gunn, Roger N, Laruelle, Marc, and Rabiner, Eugenii A

Subjects

COMPARATIVE studies, BENZAMIDE, POSITRON emission tomography, DOPAMINE receptors, AMPHETAMINES, RADIOACTIVE tracers

Abstract

[11C]PHNO is a D2/D3 agonist positron emission tomography radiotracer, with higher in vivo affinity for D3 than for D2 receptors. As [11C]-(+)-PHNO is an agonist, its in vivo binding is expected to be more affected by acute fluctuations in synaptic dopamine than that of antagonist radiotracers such as [11C]raclopride. In this study, the authors compared the effects of an oral dose of the dopamine releaser amphetamine (0.3 mg/kg) on in vivo binding of [11C]-(+)-PHNO and [11C]raclopride in healthy subjects, using a within-subjects, counterbalanced, open-label design. In the dorsal striatum, where the density of D3 receptors is negligible and both tracers predominantly bind to D2 receptors, the reduction of [11C]-(+)-PHNO binding potential (BPND) was 1.5 times larger than that of [11C]raclopride. The gain in sensitivity associated with the agonist [11C]-(+)-PHNO implies that ∼65% of D2 receptors are in the high-affinity state in vivo. In extrastriatal regions, where [11C]-(+)-PHNO predominantly binds to D3 receptors, the amphetamine effect on [11C]-(+)-PHNO BPND was even larger, consistent with the higher affinity of dopamine for D3. This study indicates that [11C]-(+)-PHNO is superior to [11C]raclopride for studying acute fluctuations in synaptic dopamine in the human striatum. [11C]-(+)-PHNO also enables measurement of synaptic dopamine in D3 regions. [ABSTRACT FROM AUTHOR]

Published

2012

21. Prediction of repeat-dose occupancy from single-dose data: characterisation of the relationship between plasma pharmacokinetics and brain target occupancy.

Author

Abanades, Sergio, van der Aart, Jasper, Barletta, Julien AR, Marzano, Carmine, Searle, Graham E, Salinas, Cristian A, Ahmad, Javaad J, Reiley, Richard R, Pampols-Maso, Sabina, Zamuner, Stefano, Cunningham, Vincent J, Rabiner, Eugenii A, Laruelle, Marc A, and Gunn, Roger N

Subjects

DRUG dosage, PHARMACOKINETICS, BLOOD plasma, POSITRON emission tomography, DRUG development, BIOMATHEMATICS, DULOXETINE

Abstract

Positron emission tomography (PET) is used in drug development to assist dose selection and to establish the relationship between blood and tissue pharmacokinetics (PKs). We present a new biomathematical approach that allows prediction of repeat-dose (RD) brain target occupancy (TO) using occupancy data obtained after administration of a single dose (SD). A PET study incorporating a sequential adaptive design was conducted in 10 healthy male adults who underwent 4 PET scans with [11C]DASB ([11C]N,N-dimethyl-2-(2-amino-4-cyanophenylthio) benzylamine): 1 at baseline, 2 after 20 mg SD of the 5-hydroxytryptamine transporter (5-HTT) inhibitor duloxetine, and 1 after 4 days daily administration of 20 mg duloxetine. An adaptive design was used to select optimal times after SD for measurement of occupancy. Both direct and indirect PK/TO models were fitted to the SD data to characterise the model parameters and then applied to a predicted RD duloxetine plasma time course to predict the 5-HTT occupancy after RD. Repeat-dose prediction from the indirect model (OC50=2.62±0.93 ng/mL) was significantly better (P<0.05) than that from the direct model (OC50=2.29±1.11 ng/mL). This approach increases the value of SD occupancy studies that are performed as part of first time in human drug development programmes by providing an estimate of the dose required to achieve the desired TO at RD. [ABSTRACT FROM AUTHOR]

Published

2011

22. Pittsburgh Compound B (11C-PIB) and Fluorodeoxyglucose (18F-FDG) PET in Patients With Alzheimer Disease, Mild Cognitive Impairment, and Healthy Controls.

Author

Devanand, D. P., Mikhno, Arthur, Pelton, Gregory H., Cuasay, Katrina, Pradhaban, Gnanavalli, Kumar, J. S. Dileep, Upton, Neil, Lai, Robert, Gunn, Roger N., Libri, V., Xinhua Liu, Heertum, Ronald van, Mann, J. John, and Parsey, Ramin V.

Subjects

ALZHEIMER'S patients, MILD cognitive impairment, PREFRONTAL cortex, POSITRON emission tomography, GLUCOSE

Abstract

Amyloid load in the brain using Pittsburgh compound B (11 C-PIB) positron emission tomography (PET) and cerebral glucose metabolism using fluorodeoxyglucose (18 F-FDG) PET were evaluated in patients with mild Alzheimer disease (AD, n = 18), mild cognitive impairment (MCI, n = 24), and controls (CTR, n -18). 11C-PIB binding potential BPND) was higher in prefrontal cortex, cingulate, parietal cortex, and precuneus in AD compared to CTR or MCI and in prefrontal cortex for MCI compared to CTR. For 18F-FDG, regional cerebral metabolic rate for glucose (rCMRGlu) was decreased in precuneus and parietal cortex in AD compared to CTR and MCI, with no MCI-CTR differences. For the AD-CTR comparison, precuneus BPND area under the receiver operating characteristic (ROC) curve (AUC) was 0.938 and parietal cortex rCMRGlu AUC was 0.915; for the combination, AUC was 0.989. 11C-PIB PET BPND clearly distinguished diagnostic groups and combined with 18F-FDG PET rCMRGlu, this effect was stronger. These PET techniques provide complementary information in strongly distinguishing diagnostic groups in cross-sectional comparisons that need testing in longitudinal studies. [ABSTRACT FROM AUTHOR]

Published

2010

23. Two binding sites for [3H]PBR28 in human brain: implications for TSPO PET imaging of neuroinflammation.

Author

Owen, David R., Howell, Owain W., Tang, Sac-Pham, Wells, Lisa A., Bennacef, Idriss, Bergstrom, Mats, Gunn, Roger N., Rabiner, Eugenii A., Wilkins, Martin R., Reynolds, Richard, Matthews, Paul M., and Parker, Christine A.

Subjects

RADIOLIGAND assay, BINDING sites, BIOCHEMISTRY, POSITRON emission tomography, BRAIN imaging, BRAIN research

Abstract

[11C]PBR28, a radioligand targeting the translocator protein (TSPO), does not produce a specific binding signal in approximately 14% of healthy volunteers. This phenomenon has not been reported for [11C]PK11195, another TSPO radioligand. We measured the specific binding signals with [3H]PK11195 and [3H]PBR28 in brain tissue from 22 donors. Overall, 23% of the samples did not generate a visually detectable specific autoradiographic signal with [3H]PBR28, although all samples showed [3H]PK11195 binding. There was a marked reduction in the affinity of [3H]PBR28 for TSPO in samples with no visible [3H]PBR28 autoradiographic signal (Ki=188±15.6 nmol/L), relative to those showing normal signal (Ki=3.4±0.5 nmol/L, P<0.001). Of this latter group, [3H]PBR28 bound with a two-site fit in 40% of cases, with affinities (Ki) of 4.0±2.4 nmol/L (high-affinity site) and 313±77 nmol/L (low-affinity site). There was no difference in Kd or Bmax for [3H]PK11195 in samples showing no [3H]PBR28 autoradiographic signal relative to those showing normal [3H]PBR28 autoradiographic signal. [3H]PK11195 bound with a single site for all samples. The existence of three different binding patterns with PBR28 (high-affinity binding (46%), low-affinity binding (23%), and two-site binding (31%)) suggests that a reduction in [11C]PBR28 binding may not be interpreted simply as a reduction in TSPO density. The functional significance of differences in binding characteristics warrants further investigation. [ABSTRACT FROM AUTHOR]

Published

2010

24. Imaging cortical dopamine D1 receptors using [11C]NNC112 and ketanserin blockade of the 5-HT2A receptors.

Author

Catafau, Ana M., Searle, Graham E., Bullich, Santiago, Gunn, Roger N., Rabiner, Eugenii A., Herance, Raul, Radua, Joaquim, Farre, Magi, and Laruelle, Marc

Subjects

DOPAMINE, KETANSERIN, SEROTONIN uptake inhibitors, MEDICAL imaging systems, TOMOGRAPHY, THERAPEUTICS

Abstract

[11C]NNC112 (8-chloro-7-hydroxy-3-methyl-5-(7-benzofuranyl)-2,3,4,5-tetrahydro-IH-3-benzazepine), a selective positron-emission tomography (PET) ligand for the D1 receptor (R) over the 5-HT2A R in vitro, has shown lower selectivity in vivo, hampering measurement of D1 R in the cortex. [11C]NNC112 PET and intravenous (i.v) ketanserin challenge were used to (1) confirm the previous findings of [11C]NNC112 in vivo D1 R selectivity, and (2) develop a feasible methodology for imaging cortical D1 R without contamination by 5-HT2A R. Seven healthy volunteers underwent [11C]NNC112 PET scans at baseline and after a 5-HT2A R-blocking dose of ketanserin (0.15 mg/kg, i.v.). Percent BPND change between the post-ketanserin and baseline scans was calculated. Irrespective of the quantification method used, ketanserin pretreatment led to significant decrease of BPND in the cortical (∼30%) and limbic regions (∼20%) but not in the striatum, which contains a much lower amount of 5-HT2A R. Therefore, ketanserin allows D1 R signal to be detected by [11C]NNC112 PET without significant 5-HT2A R contamination. These data confirm the presence of a significant 5-HT2A R contribution to cortical [11C]NNC112 signal, and call for caution in the interpretation of published [11C]NNC112 PET findings on cortical D1 R in humans. In the absence of more selective ligands, [11C]NNC112 PET with ketanserin can be used for cortical D1 R imaging in vivo. [ABSTRACT FROM AUTHOR]

Published

2010

25. Measuring drug occupancy in the absence of a reference region: the Lassen plot re-visited.

Author

Cunningham, Vincent J., Rabiner, Eugenii A., Slifstein, Mark, Laruelle, Marc, and Gunn, Roger N.

Subjects

POSITRON emission tomography, NEURAL receptors, DRUG administration, DIAGNOSTIC imaging, NERVE endings

Abstract

Quantitative estimation of neuroreceptor occupancy by exogenous drugs using positron emission tomography is based on the reduction in the total volume of distribution (VT) of site-specific radioligands after drug administration. An estimate of the distribution volume of free and nonspecifically bound radioligand (VND) is also required to distinguish specific from total binding. However, a true reference region, devoid of specific binding, is often not available. We present a transformation of a graphical method, originally introduced by Lassen, using regional estimates of VT alone to determine occupancy, together with an extension that does not require baseline data. [ABSTRACT FROM AUTHOR]

Published

2010

26. Consensus nomenclature for in vivo imaging of reversibly binding radioligands.

Author

Innis, Robert B., Cunningham, Vincent J., Delforge, Jacques, Fujita, Masahiro, Gjedde, Albert, Gunn, Roger N., Holden, James, Houle, Sylvain, Sung-Cheng Huang, Ichise, Masanori, Iida, Hidehiro, Ito, Hiroshi, Kimura, Yuichi, Koeppe, Robert A., Knudsen, Gitte M., Knuuti, Juhani, Lammertsma, Adriaan A., Laruelle, Marc, Logan, Jean, and Maguire, Ralph Paul

Subjects

PHARMACOKINETICS, NAMES, IMAGING systems, RADIOLIGAND assay, CHEMICAL kinetics

Abstract

An international group of experts in pharmacokinetic modeling recommends a consensus nomenclature to describe in vivo molecular imaging of reversibly binding radioligands.Journal of Cerebral Blood Flow & Metabolism (2007) 27, 1533–1539; doi:10.1038/sj.jcbfm.9600493; published online 9 May 2007 [ABSTRACT FROM AUTHOR]

Published

2007

27. Positron Emission Tomography Compartmental Models: A Basis Pursuit Strategy for Kinetic Modeling.

Author

Gunn, Roger N, Gunn, Steve R, Turkheimer, Federico E, Aston, John A D, and Cunningham, Vincent J

Published

2002

28. Evaluation of EMD 128 130 occupancy of the 5-HT1A and the D2 receptor: a human PET study with [11C]WAY-100635 and [11C]raclopride.

Author

Rabiner, Eugenii, Gunn, Roger n., Wilkins, Martin R., Sedman, Ewen, Grasby, Paul, Rabiner, Eugenii A, and Grasby, Paul M

Subjects

*DRUG receptors, *ANTIPSYCHOTIC agents, *POSITRON emission tomography

Abstract

The use of so-called, atypical antipsychotic medication is becoming more widespread in the treatment of psychotic disorders. EMD 128 130 is a novel compound acting as an agonist at the 5-HT1A receptor, and as an antagonist at the dopamine-2 (D2) receptor. This dual action may confer additional benefits over selective D2 antagonists in the treatment of psychotic disorders. In this study, we investigated the occupancy of EMD 128 130 in vivo at the human D2 and 5-HT1A receptors with positron emission tomography using the radiotracers [11C]raclopride and [11C]WAY-100635. Seven healthy volunteers were examined before and after 5 days of treatment with EMD 128 130, administered in an incremental dose building up to 50 mg, b.d. A significant occupancy was demonstrated at the human D2 receptor (40% following a dose of 50 mg, b.d.) while there was no consistent effect observed at the 5-HT1A receptor, despite a similar affinity of EMD 128 130 for cloned human D2 and 5-HT1A receptors, and the presence of typical, central 5-HT1A agonist side-effects. The differential effects of EMD 128 130 at the D2 and the 5-HT1A receptor (antagonist at D2 receptor, agonist at the 5-HTIA receptor) may explain the differences in occupancy observed. [ABSTRACT FROM AUTHOR]

Published

2002

29. Positron Emission Tomography Partial Volume Correction: Estimation and Algorithms.

Author

Aston, John A D, Cunningham, Vincent J, Asselin, Marie-Claude, Hammers, Alexander, Evans, Alan C, and Gunn, Roger N

Published

2002

30. Positron Emission Tomography Compartmental Models.

Author

Gunn, Roger N, Gunn, Steve R, and Cunningham, Vincent J

Published

2001