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  1. Article: Robust and Fast Markov Chain Monte Carlo Sampling of Diffusion MRI Microstructure Models.

    Harms, Robbert L / Roebroeck, Alard

    Frontiers in neuroinformatics

    2018  Volume 12, Page(s) 97

    Abstract: In diffusion MRI analysis, advances in biophysical multi-compartment modeling have gained popularity over the conventional Diffusion Tensor Imaging (DTI), because they can obtain a greater specificity in relating the dMRI signal to underlying cellular ... ...

    Abstract In diffusion MRI analysis, advances in biophysical multi-compartment modeling have gained popularity over the conventional Diffusion Tensor Imaging (DTI), because they can obtain a greater specificity in relating the dMRI signal to underlying cellular microstructure. Biophysical multi-compartment models require a parameter estimation, typically performed using either the Maximum Likelihood Estimation (MLE) or the Markov Chain Monte Carlo (MCMC) sampling. Whereas, the MLE provides only a point estimate of the fitted model parameters, the MCMC recovers the entire posterior distribution of the model parameters given in the data, providing additional information such as parameter uncertainty and correlations. MCMC sampling is currently not routinely applied in dMRI microstructure modeling, as it requires adjustment and tuning, specific to each model, particularly in the choice of proposal distributions, burn-in length, thinning, and the number of samples to store. In addition, sampling often takes at least an order of magnitude, more time than non-linear optimization. Here we investigate the performance of the MCMC algorithm variations over multiple popular diffusion microstructure models, to examine whether a single, well performing variation could be applied efficiently and robustly to many models. Using an efficient GPU-based implementation, we showed that run times can be removed as a prohibitive constraint for the sampling of diffusion multi-compartment models. Using this implementation, we investigated the effectiveness of different adaptive MCMC algorithms, burn-in, initialization, and thinning. Finally we applied the theory of the Effective Sample Size, to the diffusion multi-compartment models, as a way of determining a relatively general target for the number of samples needed to characterize parameter distributions for different models and data sets. We conclude that adaptive Metropolis methods increase MCMC performance and select the Adaptive Metropolis-Within-Gibbs (AMWG) algorithm as the primary method. We furthermore advise to initialize the sampling with an MLE point estimate, in which case 100 to 200 samples are sufficient as a burn-in. Finally, we advise against thinning in most use-cases and as a relatively general target for the number of samples, we recommend a multivariate Effective Sample Size of 2,200.
    Language English
    Publishing date 2018-12-18
    Publishing country Switzerland
    Document type Journal Article
    ZDB-ID 2452979-5
    ISSN 1662-5196
    ISSN 1662-5196
    DOI 10.3389/fninf.2018.00097
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  2. Article ; Online: Inconsistencies in atlas-based volumetric measures of the human nucleus basalis of Meynert: A need for high-resolution alternatives.

    Wang, Yawen / Zhan, Minye / Roebroeck, Alard / De Weerd, Peter / Kashyap, Sriranga / Roberts, Mark J

    NeuroImage

    2022  Volume 259, Page(s) 119421

    Abstract: The nucleus basalis of Meynert (nbM) is the major source of cortical acetylcholine (ACh) and has been related to cognitive processes and to neurological disorders. However, spatially delineating the human nbM in MRI studies remains challenging. Due to ... ...

    Abstract The nucleus basalis of Meynert (nbM) is the major source of cortical acetylcholine (ACh) and has been related to cognitive processes and to neurological disorders. However, spatially delineating the human nbM in MRI studies remains challenging. Due to the absence of a functional localiser for the human nbM, studies to date have localised it using nearby neuroanatomical landmarks or using probabilistic atlases. To understand the feasibility of MRI of the nbM we set our four goals; our first goal was to review current human nbM region-of-interest (ROI) selection protocols used in MRI studies, which we found have reported highly variable nbM volume estimates. Our next goal was to quantify and discuss the limitations of existing atlas-based volumetry of nbM. We found that the identified ROI volume depends heavily on the atlas used and on the probabilistic threshold set. In addition, we found large disparities even for data/studies using the same atlas and threshold. To test whether spatial resolution contributes to volume variability, as our third goal, we developed a novel nbM mask based on the normalized BigBrain dataset. We found that as long as the spatial resolution of the target data was 1.3 mm isotropic or above, our novel nbM mask offered realistic and stable volume estimates. Finally, as our last goal we tried to discern nbM using publicly available and novel high resolution structural MRI ex vivo MRI datasets. We find that, using an optimised 9.4T quantitative T
    MeSH term(s) Acetylcholine ; Basal Nucleus of Meynert ; Humans ; Magnetic Resonance Imaging ; Radionuclide Imaging
    Chemical Substances Acetylcholine (N9YNS0M02X)
    Language English
    Publishing date 2022-06-30
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1147767-2
    ISSN 1095-9572 ; 1053-8119
    ISSN (online) 1095-9572
    ISSN 1053-8119
    DOI 10.1016/j.neuroimage.2022.119421
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  3. Article ; Online: Corrigendum to "More complex than you might think: Neural representations of food reward value in obesity" [Appetite 178 (2022) 106164].

    Pimpini, Leonardo / Kochs, Sarah / Frannsen, Sieske / van den Hurk, Job / Valente, Giancarlo / Roebroeck, Alard / Jansen, Anita / Roefs, Anne

    Appetite

    2023  , Page(s) 107079

    Language English
    Publishing date 2023-10-17
    Publishing country England
    Document type Published Erratum
    ZDB-ID 1461347-5
    ISSN 1095-8304 ; 0195-6663
    ISSN (online) 1095-8304
    ISSN 0195-6663
    DOI 10.1016/j.appet.2023.107079
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  4. Article ; Online: Efficient 3D light-sheet imaging of very large-scale optically cleared human brain and prostate tissue samples.

    Schueth, Anna / Hildebrand, Sven / Samarska, Iryna / Sengupta, Shubharthi / Kiessling, Annemarie / Herrler, Andreas / Zur Hausen, Axel / Capalbo, Michael / Roebroeck, Alard

    Communications biology

    2023  Volume 6, Issue 1, Page(s) 170

    Abstract: The ability to image human tissue samples in 3D, with both cellular resolution and a large field of view (FOV), can improve fundamental and clinical investigations. Here, we demonstrate the feasibility of light-sheet imaging of ~5 ... ...

    Abstract The ability to image human tissue samples in 3D, with both cellular resolution and a large field of view (FOV), can improve fundamental and clinical investigations. Here, we demonstrate the feasibility of light-sheet imaging of ~5 cm
    MeSH term(s) Male ; Humans ; Prostate/diagnostic imaging ; Microscopy/methods ; Brain/diagnostic imaging ; Prostatic Neoplasms/diagnostic imaging ; Formaldehyde
    Chemical Substances Formaldehyde (1HG84L3525)
    Language English
    Publishing date 2023-02-13
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ISSN 2399-3642
    ISSN (online) 2399-3642
    DOI 10.1038/s42003-023-04536-4
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  5. Article ; Online: It is a matter of perspective: Attentional focus rather than dietary restraint drives brain responses to food stimuli.

    Kochs, Sarah / Franssen, Sieske / Pimpini, Leonardo / van den Hurk, Job / Valente, Giancarlo / Roebroeck, Alard / Jansen, Anita / Roefs, Anne

    NeuroImage

    2023  Volume 273, Page(s) 120076

    Abstract: Brain responses to food are thought to reflect food's rewarding value and to fluctuate with dietary restraint. We propose that brain responses to food are dynamic and depend on attentional focus. Food pictures (high-caloric/low-caloric, palatable/ ... ...

    Abstract Brain responses to food are thought to reflect food's rewarding value and to fluctuate with dietary restraint. We propose that brain responses to food are dynamic and depend on attentional focus. Food pictures (high-caloric/low-caloric, palatable/unpalatable) were presented during fMRI-scanning, while attentional focus (hedonic/health/neutral) was induced in 52 female participants varying in dietary restraint. The level of brain activity was hardly different between palatable versus unpalatable foods or high-caloric versus low-caloric foods. Activity in several brain regions was higher in hedonic than in health or neutral attentional focus (p < .05, FWE-corrected). Palatability and calorie content could be decoded from multi-voxel activity patterns (p < .05, FDR-corrected). Dietary restraint did not significantly influence brain responses to food. So, level of brain activity in response to food stimuli depends on attentional focus, and may reflect salience, not reward value. Palatability and calorie content are reflected in patterns of brain activity.
    MeSH term(s) Female ; Humans ; Food ; Diet ; Brain ; Energy Intake ; Food Preferences ; Cues ; Magnetic Resonance Imaging
    Language English
    Publishing date 2023-03-31
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1147767-2
    ISSN 1095-9572 ; 1053-8119
    ISSN (online) 1095-9572
    ISSN 1053-8119
    DOI 10.1016/j.neuroimage.2023.120076
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  6. Article ; Online: More complex than you might think: Neural representations of food reward value in obesity

    Pimpini, Leonardo / Kochs, Sarah / Franssen, Sieske / van den Hurk, Job / Valente, Giancarlo / Roebroeck, Alard / Jansen, Anita / Roefs, Anne

    Appetite. 2022 Nov., v. 178 p.106164-

    2022  

    Abstract: Obesity reached pandemic proportions and weight-loss treatments are mostly ineffective. The level of brain activity in the reward circuitry is proposed to be proportionate to the reward value of food stimuli, and stronger in people with obesity. However, ...

    Abstract Obesity reached pandemic proportions and weight-loss treatments are mostly ineffective. The level of brain activity in the reward circuitry is proposed to be proportionate to the reward value of food stimuli, and stronger in people with obesity. However, empirical evidence is inconsistent. This may be due to the double-sided nature of high caloric palatable foods: at once highly palatable and high in calories (unhealthy). This study hypothesizes that, viewing high caloric palatable foods, a hedonic attentional focus compared to a health and a neutral attentional focus elicits more activity in reward-related brain regions, mostly in people with obesity. Moreover, caloric content and food palatability can be decoded from multivoxel patterns of activity most accurately in people with obesity and in the corresponding attentional focus. During one fMRI-session, attentional focus (hedonic, health, neutral) was manipulated using a one-back task with individually tailored food stimuli in 32 healthy-weight people and 29 people with obesity. Univariate analyses (p < 0.05, FWE-corrected) showed that brain activity was not different for palatable vs. unpalatable foods, nor for high vs. low caloric foods. Instead, this was higher in the hedonic compared to the health and neutral attentional focus. Multivariate analyses (MVPA) (p < 0.05, FDR-corrected) showed that palatability and caloric content could be decoded above chance level, independently of either BMI or attentional focus. Thus, brain activity to visual food stimuli is neither proportionate to the reward value (palatability and/or caloric content), nor significantly moderated by BMI. Instead, it depends on people's attentional focus, and may reflect motivational salience. Furthermore, food palatability and caloric content are represented as patterns of brain activity, independently of BMI and attentional focus. So, food reward value is reflected in patterns, not levels, of brain activity.
    Keywords appetite ; brain ; energy content ; obesity ; palatability ; pandemic ; people ; weight loss ; fMRI ; Food ; Reward ; MVPA ; Healthy-weight
    Language English
    Dates of publication 2022-11
    Publishing place Elsevier Ltd
    Document type Article ; Online
    Note Use and reproduction
    ZDB-ID 764440-1
    ISSN 0195-6663
    ISSN 0195-6663
    DOI 10.1016/j.appet.2022.106164
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  7. Article: Effects of mindset on hormonal responding, neural representations, subjective experience and intake

    Franssen, Sieske / Jansen, Anita / van den Hurk, Job / Adam, Tanja / Geyskens, Kelly / Roebroeck, Alard / Roefs, Anne

    Physiology & behavior. 2022 May 15, v. 249

    2022  

    Abstract: A person can alternate between food-related mindsets, which in turn may depend on one's emotional state or situation. Being in a certain mindset can influence food-related thoughts, but interestingly it might also affect eating-related physiological ... ...

    Abstract A person can alternate between food-related mindsets, which in turn may depend on one's emotional state or situation. Being in a certain mindset can influence food-related thoughts, but interestingly it might also affect eating-related physiological responses. The current study investigates the influence of an induced ‘loss of control’ mindset as compared to an ‘in control’ mindset on hormonal, neural and behavioural responses to chocolate stimuli. Mindsets were induced by having female chocolate lovers view a short movie during two sessions in a within-subjects design. Neural responses to visual chocolate stimuli were measured using an ultra-high field (7T) scanner. Momentary ghrelin and glucagon-like peptide 1 (GLP-1) levels were determined on five moments and were simultaneously assessed with self-reports on perceptions of chocolate craving, hunger and feelings of control. Furthermore, chocolate intake was measured using a bogus chocolate taste test. It was hypothesized that the loss of control mindset would lead to hormonal, neural and behavioural responses that prepare for ongoing food intake, even after eating, while the control mindset would lead to responses reflecting satiety. Results show that neural activity in the mesocorticolimbic system was stronger for chocolate stimuli than for neutral stimuli and that ghrelin and GLP-1 levels responded to food intake, irrespective of mindset. Self-reported craving and actual chocolate intake were affected by mindset, in that cravings and intake were higher with a loss of control mindset than with a control mindset. Interestingly, these findings suggest that physiology on the one hand (hormonal and neural responses) and behavior and subjective experience (food intake and craving) on the other hand are not in sync, are not equally affected by mindset.
    Keywords behavior ; chocolate ; females ; food intake ; ghrelin ; glucagon-like peptide 1 ; hunger ; satiety ; scanners ; sensory evaluation
    Language English
    Dates of publication 2022-0515
    Publishing place Elsevier Inc.
    Document type Article
    ZDB-ID 3907-x
    ISSN 1873-507X ; 0031-9384
    ISSN (online) 1873-507X
    ISSN 0031-9384
    DOI 10.1016/j.physbeh.2022.113746
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  8. Article ; Online: Dedicated container for postmortem human brain ultra-high field magnetic resonance imaging.

    Boonstra, Jackson Tyler / Michielse, Stijn / Roebroeck, Alard / Temel, Yasin / Jahanshahi, Ali

    NeuroImage

    2021  Volume 235, Page(s) 118010

    Abstract: Background: The emerging field of ultra-high field MRI (UHF-MRI, 7 Tesla and higher) provides the opportunity to image human brains at a higher resolution and with higher signal-to-noise ratios compared to the more widely available 1.5 and 3T scanners. ... ...

    Abstract Background: The emerging field of ultra-high field MRI (UHF-MRI, 7 Tesla and higher) provides the opportunity to image human brains at a higher resolution and with higher signal-to-noise ratios compared to the more widely available 1.5 and 3T scanners. Scanning postmortem tissue additionally allows for greatly increased scan times and fewer movement issues leading to improvements in image quality. However, typical postmortem neuroimaging routines involve placing the tissue within plastic bags that leave room for susceptibility artifacts from tissue-air interfaces, inadequate submersion, and leakage issues. To address these challenges in postmortem imaging, a custom-built nonferromagnetic container was developed that allows whole brain hemispheres to be scanned at sub-millimeter resolution within typical head-coils.
    Method: The custom-built polymethylmethacrylaat container consists of a cylinder with a hemispheric side and a lid with valves on the adjacent side. This shape fits within common MR head-coils and allows whole hemispheres to be submerged and vacuum sealed within it reducing imaging artifacts that would otherwise arise at air-tissue boundaries. Two hemisphere samples were scanned on a Siemens 9.4T Magnetom MRI scanner. High resolution T2* weighted data was obtained with a custom 3D gradient echo (GRE) sequence and diffusion-weighted imaging (DWI) scans were obtained with a 3D kT-dSTEAM sequence along 48 directions.
    Results: The custom-built container proved to submerge and contain tissue samples effectively and showed no interferences with MR scanning acquisition. The 3D GRE sequence provided high resolution isotropic T2* weighted data at 250 μm which showed a clear visualization of gray and white matter structures. DWI scans allowed for dense reconstruction of structural white matter connections via tractography.
    Conclusion: Using this custom-built container worked towards achieving high quality MR images of postmortem brain material. This procedure can have advantages over traditional schemes including utilization of a standardized protocol and the reduced likelihood of leakage. This methodology could be adjusted and used to improve typical postmortem imaging routines.
    MeSH term(s) Artifacts ; Autopsy/instrumentation ; Autopsy/methods ; Brain/physiopathology ; Brain Diseases/diagnosis ; Diffusion Magnetic Resonance Imaging/methods ; Echo-Planar Imaging/methods ; Humans ; Image Processing, Computer-Assisted/methods ; Magnetic Resonance Imaging/instrumentation ; Magnetic Resonance Imaging/methods ; Neuroimaging/methods ; Signal-To-Noise Ratio
    Language English
    Publishing date 2021-04-02
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1147767-2
    ISSN 1095-9572 ; 1053-8119
    ISSN (online) 1095-9572
    ISSN 1053-8119
    DOI 10.1016/j.neuroimage.2021.118010
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  9. Article: Power of mind: Attentional focus rather than palatability dominates neural responding to visual food stimuli in females with overweight

    Franssen, Sieske / Jansen, Anita / van den Hurk, Job / Roebroeck, Alard / Roefs, Anne

    Appetite. 2020 May 01, v. 148

    2020  

    Abstract: Research investigating neural responses to visual food stimuli has produced inconsistent results. Crucially, high-caloric palatable foods have a double-sided nature – they are often craved but are also considered unhealthy – which may have contributed to ...

    Abstract Research investigating neural responses to visual food stimuli has produced inconsistent results. Crucially, high-caloric palatable foods have a double-sided nature – they are often craved but are also considered unhealthy – which may have contributed to the inconsistency in the literature. Taking this double-sided nature into account in the current study, neural responses to individually tailored palatable and unpalatable high caloric food stimuli were measured, while participants’ (females with overweight: n = 23) attentional focus was manipulated to be either hedonic or neutral. Notably, results showed that the level of neural activity was not significantly different for palatable than for unpalatable food stimuli. Instead, independent of food palatability, several brain regions (including regions in the mesocorticolimbic system) responded more strongly when attentional focus was hedonic than when neutral (p < 0.05, cluster-based FWE corrected). Multivariate analyses showed that food palatability could be decoded from multi-voxel patterns of neural activity (p < 0.05, FDR corrected), mostly with a hedonic attentional focus. These findings illustrate that the level of neural activity might not be proportionate to the palatability of foods, but that food palatability can be decoded from multi-voxel patterns of neural activity. Moreover, they underline the importance of considering attentional focus when measuring food-related neural responses.
    Keywords brain ; females ; foods ; multivariate analysis ; neurophysiology ; overweight ; palatability
    Language English
    Dates of publication 2020-0501
    Publishing place Elsevier Ltd
    Document type Article
    ZDB-ID 764440-1
    ISSN 0195-6663
    ISSN 0195-6663
    DOI 10.1016/j.appet.2020.104609
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  10. Article ; Online: Ex vivo diffusion MRI of the human brain: Technical challenges and recent advances.

    Roebroeck, Alard / Miller, Karla L / Aggarwal, Manisha

    NMR in biomedicine

    2018  Volume 32, Issue 4, Page(s) e3941

    Abstract: This review discusses ex vivo diffusion magnetic resonance imaging (dMRI) as an important research tool for neuroanatomical investigations and the validation of in vivo dMRI techniques, with a focus on the human brain. We review the challenges posed by ... ...

    Abstract This review discusses ex vivo diffusion magnetic resonance imaging (dMRI) as an important research tool for neuroanatomical investigations and the validation of in vivo dMRI techniques, with a focus on the human brain. We review the challenges posed by the properties of post-mortem tissue, and discuss state-of-the-art tissue preparation methods and recent advances in pulse sequences and acquisition techniques to tackle these. We then review recent ex vivo dMRI studies of the human brain, highlighting the validation of white matter orientation estimates and the atlasing and mapping of large subcortical structures. We also give particular emphasis to the delineation of layered gray matter structure with ex vivo dMRI, as this application illustrates the strength of its mesoscale resolution over large fields of view. We end with a discussion and outlook on future and potential directions of the field.
    MeSH term(s) Brain/anatomy & histology ; Brain/diagnostic imaging ; Diffusion Magnetic Resonance Imaging ; Diffusion Tensor Imaging ; Gray Matter/diagnostic imaging ; Humans ; Visual Cortex/diagnostic imaging
    Language English
    Publishing date 2018-06-04
    Publishing country England
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 1000976-0
    ISSN 1099-1492 ; 0952-3480
    ISSN (online) 1099-1492
    ISSN 0952-3480
    DOI 10.1002/nbm.3941
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