Anke Bresch scite author profile

Purpose The brain noradrenaline (NA) system plays an important role in the central nervous control of energy balance and is thus implicated in the pathogenesis of obesity. The specific processes modulated by this neurotransmitter which lead to obesity and overeating are still a matter of debate. Methods We tested the hypothesis that in vivo NA transporter (NAT) availability is changed in obesity by using positron emission tomography (PET) and S, S-[11C]O-methylreboxetine (MRB) in twenty subjects comprising ten highly obese (body mass index BMI > 35 kg/m2), metabolically healthy, non-depressed individuals and ten non-obese (BMI < 30 kg/m2) healthy controls. Results Overall, we found no significant differences in binding potential (BPND) values between obese and non-obese individuals in the investigated brain regions, including the NAT-rich thalamus (0.40 ± 0.14 vs. 0.41 ± 0.18; p = 0.84) though additional discriminant analysis correctly identified individual group affiliation based on regional BPND in all but one (control) case. Furthermore, inter-regional correlation analyses indicated different BPND patterns between both groups but this did not survive testing for multiple comparions. Conclusions Our data do not find an overall involvement of NAT changes in human obesity. However, preliminary secondary findings of distinct regional and associative patterns warrant further investigation.

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Test–retest measurements of dopamine D1-type receptors using simultaneous PET/MRI imaging

Kaller

Rullmann

Patt

et al. 2017

Eur J Nucl Med Mol Imaging

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Central serotonin transporter availability in highly obese individuals compared with non-obese controls: A [11C] DASB positron emission tomography study

Hesse

Rullmann

Luthardt

et al. 2015

Eur J Nucl Med Mol Imaging

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Post-dexamethasone serum copeptin corresponds to HPA axis responsiveness in human obesity

Schinke

Hesse

Stoppe³

et al. 2017

Psychoneuroendocrinology

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Impact of attenuation correction on clinical [18F]FDG brain PET in combined PET/MRI

et al. 2016

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BackgroundIn PET/MRI, linear photon attenuation coefficients for attenuation correction (AC) cannot be directly derived, and cortical bone is, so far, usually not considered. This results in an underestimation of the average PET signal in PET/MRI. Recently introduced MR-AC methods predicting bone information from anatomic MRI or proton density-weighted zero-time imaging may solve this problem in the future. However, there is an ongoing debate if the current error is acceptable for clinical use and/or research.MethodsWe examined this feature for [18F] fluorodeoxyglucose (FDG) brain PET in 13 patients with clinical signs of dementia or movement disorders who subsequently underwent PET/CT and PET/MRI on the same day. Multiple MR-AC approaches including a CT-derived AC were applied.ResultsThe resulting PET data was compared to the CT-derived standard regarding the quantification error and its clinical impact. On a quantitative level, −11.9 to +2 % deviations from the CT-AC standard were found. These deviations, however, did not translate into a systematic diagnostic error. This, as overall patterns of hypometabolism (which are decisive for clinical diagnostics), remained largely unchanged.ConclusionsDespite a quantitative error by the omission of bone in MR-AC, clinical quality of brain [18F]FDG is not relevantly affected. Thus, brain [18F]FDG PET can already, even now with suboptimal MR-AC, be utilized for clinical routine purposes, even though the MR-AC warrants improvement.

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Anke Bresch

Central noradrenaline transporter availability in highly obese, non-depressed individuals

Test–retest measurements of dopamine D1-type receptors using simultaneous PET/MRI imaging

Central serotonin transporter availability in highly obese individuals compared with non-obese controls: A [11C] DASB positron emission tomography study

Post-dexamethasone serum copeptin corresponds to HPA axis responsiveness in human obesity

Impact of attenuation correction on clinical [18F]FDG brain PET in combined PET/MRI

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