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@INPROCEEDINGS{RgioBrambilla:908213,
author = {Régio Brambilla, Claudia and Matusch, Andreas and Mauler,
Jörg and Rajkumar, Ravichandran and Rota Kops, Elena and
Boers, Frank and Herzog, Hans and Shah, N. J. and Lerche,
Christoph and Neuner, Irene},
title = {{S}ignificant decreases in [11{C}]{ABP}688 binding after a
mismatch negativity paradigm - {B}rain {PET} {P}oster
{S}essions {PP}01-{M}01 to {PP}02-{N}07},
issn = {1559-7016},
reportid = {FZJ-2022-02464},
year = {2019},
abstract = {The present work explores a novel estimation method based
on a Markov-Chain Monte-Carlo (MCMC) sampling in a Bayesian
context. This new methodology allows the integration of
prior knowledge on parameters that constrain the available
solutions, which alleviates the identifia-bility problem. It
also quantifies the uncertainty of the parameters and does
not rely on a set of chosen basis functions as the original
method does. Methods: The proposed method relies on a
stochastic approach which consists in assessing the whole
posterior distribution of the parameters, i.e. estimating
the probability of the parameters given the measurements.
According to Bayes rule, the posterior distribution is
proportional to the product of the likelihood and the prior.
The likelihood, which corresponds to the noise model, is
here considered normally distributed with the variance at
each time point scaled by the decay factor and the frame
duration. The prior is a uniform distribution in an interval
of plausible values for each parameter. The posterior
distribution is then approximated with MCMC using a hybrid
Metropolis-within-Gibbs sampler, 2 where the step size of
each chain is adjusted to ensure an optimal mixing behavior.
For performance evaluation of the method, realistic dynamic
whole brain PET data of a 90-minute bolus-infusion [ 11
C]raclopride protocol have been simulated using PET-SORTEO 3
for 21 structurally different subjects. Time activity curves
(TAC) used as input for simulations included a dopamine
release at 40 minutes in specific regions (Caudate,
Accumbens and Putamen), with four different magnitudes of
TAC decrease (0, 5, 10 and $25\%$ of the basal TAC,
respectively named placebo, stim05, stim10, stim25). To fit
the lp-ntPET model on the reconstructed TACs, 5000 samples
have been drawn with the proposed MCMC sampler. This few
amount of samples has been shown to be sufficient
considering the early convergence of the chains. Results:
The maximum a-posteriori (MAP) estimates of each parameter
have been derived from the marginal distributions for each
condition and each region over the 21 subjects. Figure 1
shows the Displacement Ratio 4 calculated from these
estimates. Results show that the obtained DRs allow to
better distinguish the four simulated experimental
conditions than the original method, even on small noisy
regions such as the Accumbens. Conclusions: The early
results show promising potential for estimating the
parameters of the lp-ntPET model in a Bayesian framework.
Current work explores the resolution of lp-ntPET at a voxel
level, by integrating prior knowledge on spatial regularity
with or without the use of anatomical MRI. Abstract
Objectives: The glutamatergic receptor (mGluR5) is under
investigation in clinical neurology and of great interest in
several lines of research [1-3]. We assessed the feasibility
of using [ 11 C]ABP688 to evaluate changes in glutamate
levels through the Mismatch Negativity (MMN) auditory
paradigm 4 as a part of a multimodal study. 5 Methods: Five
healthy, male, non-smoking subjects were scanned with a
Siemens 3 T MR-BrainPET insert. We analyzed the effect of
MMN comparing the changes in non-displaceable binding
potential (BP ND) prior, during and after the MMN with a
bolus/infusion protocol during the tracer steady-state
$(50\%$ of the total injected activity (446.4 AE 106.0 MBq)
was infused during 65 minutes after bolus injection). Image
reconstruction was performed with 3D-OP-OSEM (2 subsets, 32
iterations), isotropic Abstracts 545 voxel ¼ 1.25 mm 3 ,
153 slices, matrix of 256 Â 256 pixels, and a frame scheme
of 2 minutes. PET frames were synchronized with the
different acquisition moments. The images were corrected for
attenuation [6], random and scattered coincidences, and dead
time. Post processing with a 2.5 mm 3D Gaussian filter and
motion correction were performed. Anatomical images were
acquired with T1 MPRAGE sequence (TR ¼ 2250 ms, TE ¼ 3.03
ms, 176 slices, 1 mm slice thickness). The MMN paradigm
consisted of changes in tone duration and was presented in
alternating sequences. The deviant positions were
pseudo-randomized and a silent video was presented to the
subject. PMOD software was used to define the volumes of
interest (VOIs) with T1 images serving as the anatomical
reference. All images were finally processed in the PET
subject's space, and the Hammers atlas 7 was used for
activity concentration analysis. The maximum probability
operation was applied to generate the VOIs in the grey
matter cortex (GM). Furthermore, functional network regions,
8 GM corrected, were also applied. Cerebellum GM was chosen
as the reference region. Statistical analysis was performed
using repeated ANOVA with inter-subject corrections. 9
Results: There was a significant ÁBP ND between conditions.
On average, the reductions across all regions and subjects
were of À11.46 AE $3.39\%,$ F (2,6) ¼ 7.471; P < 0.05 in
anatomical [FIGURE 1 (a)] and À10.37 AE $4.33\%,$ F (2,8)
¼ 6.674; P < 0.05 in functional VOIs [FIGURE 1 (b)].},
month = {Jul},
date = {2019-07-04},
organization = {BrainPET 2019, Yokohama (Japan), 4 Jul
2019 - 7 Jul 2019},
cin = {INM-4 / INM-11 / JARA-BRAIN},
ddc = {610},
cid = {I:(DE-Juel1)INM-4-20090406 / I:(DE-Juel1)INM-11-20170113 /
I:(DE-Juel1)VDB1046},
pnm = {5253 - Neuroimaging (POF4-525)},
pid = {G:(DE-HGF)POF4-5253},
typ = {PUB:(DE-HGF)1},
pubmed = {31265793},
UT = {WOS:000473954100004},
doi = {10.1177/0271678X19851018},
url = {https://juser.fz-juelich.de/record/908213},
}
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