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1. Amyloid-related changes of basal forebrain volume and precuneus functional connectivity in Subjective Cognitive Decline patients

Author

Daamen, M, additional, Li, S, additional, Scheef, L, additional, Gärtner, F, additional, Amthauer, H, additional, Buchert, R, additional, Bürger, K, additional, Drzezga, A, additional, Ertl-Wagner, B, additional, Essler, M, additional, Haynes, JD, additional, Krause, BJ, additional, Laske, C, additional, Priller, J, additional, Ramirez, A, additional, Reimold, M, additional, Rominger, A, additional, Scheffler, K, additional, Schmitt, A, additional, Schneider, A, additional, Spottke, A, additional, Teipel, SJ, additional, Wagner, M, additional, Düzel, E, additional, Jessen, F, additional, Peters, O, additional, and Boecker, H, additional

Published
2020
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2. Personalized risk prediction of postoperative cognitive impairment - rationale for the EU-funded BioCog project

Author

Winterer, G, Androsova, G, Bender, O, Boraschi, D, Borchers, F, Dschietzig, TB, Feinkohl, I, Fletcher, Paul, Gallinat, J, Hadzidiakos, D, Haynes, JD, Heppner, F, Hetzer, S, Hendrikse, J, Ittermann, B, Kant, IMJ, Kraft, A, Krannich, A, Krause, R, Kühn, S, Lachmann, G, Van Montfort, SJT, Müller, A, Nürnberg, P, Ofosu, K, Pietsch, M, Pischon, T, Preller, J, Renzulli, E, Scheurer, K, Schneider, R, Slooter, AJC, Spies, C, Stamatakis, Emmanuel, Volk, HD, Weber, S, Wolf, A, Yürek, F, Zacharias, N, BioCog Consortium, and the BioCog consortium

Subjects
medicine.medical_specialty, BioCog consortium, Multidisciplinaire, généralités & autres [D99] [Sciences de la santé humaine], Neuroimaging, Aging society, Neuroimaging biomarkers, Risk Assessment, 03 medical and health sciences, 0302 clinical medicine, Postoperative Complications, Risk Factors, medicine, media_common.cataloged_instance, Humans, Cognitive Dysfunction, 030212 general & internal medicine, European Union, European union, Cognitive impairment, Intensive care medicine, Postoperative cognitive dysfunction, health care economics and organizations, Multidisciplinary, general & others [D99] [Human health sciences], media_common, Molecular biomarkers, business.industry, Multivariate prediction algorithm, Postoperative delirium, Anesthésie & soins intensifs [D02] [Sciences de la santé humaine], medicine.disease, Anesthesia & intensive care [D02] [Human health sciences], Biomarker (cell), Europe, Psychiatry and Mental health, Etiology, business, 030217 neurology & neurosurgery, Biomarkers
Abstract

Postoperative cognitive impairment is among the most common medical complications associated with surgical interventions – particularly in elderly patients. In our aging society, it is an urgent medical need to determine preoperative individual risk prediction to allow more accurate cost–benefit decisions prior to elective surgeries. So far, risk prediction is mainly based on clinical parameters. However, these parameters only give a rough estimate of the individual risk. At present, there are no molecular or neuroimaging biomarkers available to improve risk prediction and little is known about the etiology and pathophysiology of this clinical condition. In this short review, we summarize the current state of knowledge and briefly present the recently started BioCog project (Biomarker Development for Postoperative Cognitive Impairment in the Elderly), which is funded by the European Union. It is the goal of this research and development (R&D) project, which involves academic and industry partners throughout Europe, to deliver a multivariate algorithm based on clinical assessments as well as molecular and neuroimaging biomarkers to overcome the currently unsatisfying situation.

Published
2018
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8. Concept combination with logical connectives

Author

Baggio, G, Cherubini, P, Pischedda, D, Görgen, K, Blumenthal, A, Haynes, JD, Reverberi, C, Baggio, G, Cherubini, P, Pischedda, D, Görgen, K, Blumenthal, A, Haynes, J, and Reverberi, C

Subjects
Logic, fMRI, MVPA, Broca's area, connectives
Published
2015
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10. Self-regulation of tasks under dynamic conditions

Author

Wisniewski, D, Haynes, JD, REVERBERI, FRANCO CARLO, Wisniewski, D, Reverberi, F, and Haynes, J

Subjects
Task switching, Executive function, Decoding, Information processing, M-PSI/02 - PSICOBIOLOGIA E PSICOLOGIA FISIOLOGICA, M-PSI/01 - PSICOLOGIA GENERALE, Decision making, Frontal Lobe
Abstract

In changing environments we need to dynamically re-organize our behavior in order to reach desired goals. This requires strategic switches between different tasks. However, little is known about the neural basis of such adaptation processes. We developed a novel, motivated choice paradigm and used multivariate pattern analysis of fMRI data (MVPA) to investigate this. Subjects chose between three different tasks on a trial-by-trial basis. Task difficulty varied independently for all three tasks, increasing for the chosen task set and decreasing for the non-chosen task sets. This created an exploration-exploitation dilemma for which subjects needed to find a solution. To keep difficulty and error rates low, they had to produce a motivated decision on which task to perform next, based on their estimation of the changing environmental variables. Using MVPA, we were able to predict subjects’ choices from medial PFC, and parietal cortex. Furthermore, we could predict the current difficulty level – the motivational factor driving choices – from reward related areas. Interestingly, the ventro-medial PFC (vmPFC) encoded both the choices and the diffi- culty. This area was previously associated with the processing of stimu- lus-values. Our results suggest that vmPFC is also involved in encoding motivated choices. Further planned analyses will investigate the interaction between areas encoding choices and areas encoding motivational factors in more detail. This should provide important clues on how humans endogenously adapt their behavior to cope with changing environments.

Published
2011

11. The neural correlates of self-regulated behavior: Endogenous task switching

Author

Wisniewsky, D, Haynes, JD, REVERBERI, FRANCO CARLO, Wisniewsky, D, Reverberi, F, and Haynes, J

Subjects
Task switching, Decoding analysis, Executive function, fMRI, Frontal lobe, Strategy generation and implementation, M-PSI/02 - PSICOBIOLOGIA E PSICOLOGIA FISIOLOGICA, M-PSI/01 - PSICOLOGIA GENERALE, Decision making
Abstract

In constantly changing environments, we are forced to dynamically re-organize our behavior in order to reach desired goals. Often, there is no obvious way to adapt to these environments, so different alternative courses of action have to be explored. Once a successful strategy is found, it is exploited until the environment changes and the need for behavioral adaptation arises again. This type of behavior requires endogenous and strategic switches between different behavioral sets. However, the neural implementation of these processes remains unclear. We use multivariate pattern classification of functional MRI data to investigate endogenous adaptations to external task demands in a modified task switching paradigm. More specifically, subjects were free to choose between three different task sets on a trial-by-trial basis. Difficulty varied independently in the three tasks, increasing for the chosen task set and decreasing for the non-chosen task sets. This created an exploration-exploitation dilemma in which subjects had to find the time point at which it is optimal to leave the current task set and switch to a different, possibly easier, one. Strategic choices lead to constantly low difficulty while poor choices lead to high difficulty. Therefore, to keep difficulty low, subjects were forced to constantly monitor the task environment and adapt their behavior accordingly. Behavioral results show that subjects cope efficiently with the task after some training. They track the task environment, keeping difficulty low through strategically placed switches between task sets. Crucially, potential confounds such as task preferences or learning effects do not influence choice behavior. While subjects performed the task we acquired functional MRI data. Using a time resolved decoding approach, we are able to decode whether subjects will stay in the current task or switch away from it from frontopolar cortex. This area is known to be involved in free choice processes. Furthermore, we find predictive information about decisions in posterior parietal cortex, part of a fronto-parietal network associated with cognitive control functions. These results suggest that endogenous behavioral adaptations share a common neural substrate with free choice processes and cognitive control functions - such as the preparation and reconfiguration of task sets. Additional experiments will further illuminate how neural representations of choice-relevant task features (i.e. difficulty) interact with representations of actual choices. This will help us understand how humans strategically adapt their behavior to cope with dynamically changing environments.

Published
2010

12. Concept combination with logical connectives

Author

Baggio, G, Cherubini, P, Pischedda, D, Görgen, K, Blumenthal, A, Haynes, J, Reverberi, C, Haynes, JD, Baggio, G, Cherubini, P, Pischedda, D, Görgen, K, Blumenthal, A, Haynes, J, Reverberi, C, and Haynes, JD

Published
2014

14. Overcoming Antigenic Diversity by Enhancing the Immunogenicity of Conserved Epitopes on the Malaria Vaccine Candidate Apical Membrane Antigen-1

Author

Blackman, MJ, Dutta, S, Dlugosz, LS, Drew, DR, Ge, X, Ababacar, D, Rovira, YI, Moch, JK, Shi, M, Long, CA, Foley, M, Beeson, JG, Anders, RF, Miura, K, Haynes, JD, Batchelor, AH, Blackman, MJ, Dutta, S, Dlugosz, LS, Drew, DR, Ge, X, Ababacar, D, Rovira, YI, Moch, JK, Shi, M, Long, CA, Foley, M, Beeson, JG, Anders, RF, Miura, K, Haynes, JD, and Batchelor, AH

Abstract

Malaria vaccine candidate Apical Membrane Antigen-1 (AMA1) induces protection, but only against parasite strains that are closely related to the vaccine. Overcoming the AMA1 diversity problem will require an understanding of the structural basis of cross-strain invasion inhibition. A vaccine containing four diverse allelic proteins 3D7, FVO, HB3 and W2mef (AMA1 Quadvax or QV) elicited polyclonal rabbit antibodies that similarly inhibited the invasion of four vaccine and 22 non-vaccine strains of P. falciparum. Comparing polyclonal anti-QV with antibodies against a strain-specific, monovalent, 3D7 AMA1 vaccine revealed that QV induced higher levels of broadly inhibitory antibodies which were associated with increased conserved face and domain-3 responses and reduced domain-2 response. Inhibitory monoclonal antibodies (mAb) raised against the QV reacted with a novel cross-reactive epitope at the rim of the hydrophobic trough on domain-1; this epitope mapped to the conserved face of AMA1 and it encompassed the 1e-loop. MAbs binding to the 1e-loop region (1B10, 4E8 and 4E11) were ∼10-fold more potent than previously characterized AMA1-inhibitory mAbs and a mode of action of these 1e-loop mAbs was the inhibition of AMA1 binding to its ligand RON2. Unlike the epitope of a previously characterized 3D7-specific mAb, 1F9, the 1e-loop inhibitory epitope was partially conserved across strains. Another novel mAb, 1E10, which bound to domain-3, was broadly inhibitory and it blocked the proteolytic processing of AMA1. By itself mAb 1E10 was weakly inhibitory but it synergized with a previously characterized, strain-transcending mAb, 4G2, which binds close to the hydrophobic trough on the conserved face and inhibits RON2 binding to AMA1. Novel inhibition susceptible regions and epitopes, identified here, can form the basis for improving the antigenic breadth and inhibitory response of AMA1 vaccines. Vaccination with a few diverse antigenic proteins could provide universal coverage

Published
2013

15. Decoding Neural Representations of Rules and Rule Order

Author

Görgen, K, Reverberi, F, Haynes, J, Haynes, JD, REVERBERI, FRANCO CARLO, Görgen, K, Reverberi, F, Haynes, J, Haynes, JD, and REVERBERI, FRANCO CARLO

Abstract

Conditional rules of the form "if x then y" are of vital importance for our everyday life. Recent research has started to investigate the neural substrate underlying conditional rule processing. A critical aspect of rule processing that has so far been neglected is that many situations require the rules to be executed in a specific order. For example, it might be wise to apply the rule “If you don't have any money, go to the ATM machine” BEFORE the rule “If you want ice-cream, go to the ice-cream shop”, instead of applying them vice versa. Here, we present the results from a functional magnetic resonance imaging (fMRI) study in which we successfully decoded the identity of two simultaneously active rules as well as their application order from local patterns of fMRI data. A modified cued task-switching paradigm was administered during fMRI scanning. Participants were required to retrieve, maintain, and apply two conditional rules (e.g. “First, if there is a musical instrument, press left. Second, if there is a food item, press right”) to a set of target stimuli. We identified regions containing representations of rule identity and application order by applying multivariate pattern classifiers on local patterns of activation during the delay period between cue presentation and task execution. Using a redundant coding scheme for the rules (each rule was alternatively represented by one of two visual cues in different trials), we were able to disentangle representations of rules and representations of visual features of the cue. Representations of rule identity were found in bilateral supero-lateral parietal cortices, right dorso-lateral prefrontal cortex (dlPFC), and right anterior cingulate cortex (ACC). Representations of application order were found in bilateral supero-lateral parietal cortices and right ACC. In ACC, we found an overlap between regions that contained representations of rules and rule order. In contrast, a dissociation between both regions was found

Published
2010

22. Content Uniformity

Author

Haynes Jd

Subjects
Information retrieval, Text mining, Computer science, business.industry, Content (measure theory), Pharmaceutical Science, business
Published
1974
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23. Dopamine and deep brain stimulation accelerate the neural dynamics of volitional action in Parkinson's disease.

Author

Köhler RM, Binns TS, Merk T, Zhu G, Yin Z, Zhao B, Chikermane M, Vanhoecke J, Busch JL, Habets JGV, Faust K, Schneider GH, Cavallo A, Haufe S, Zhang J, Kühn AA, Haynes JD, and Neumann WJ

Subjects
Humans, Female, Male, Middle Aged, Aged, Volition, Electrocorticography methods, Electromyography, Movement physiology, Sensorimotor Cortex physiopathology, Parkinson Disease therapy, Parkinson Disease physiopathology, Deep Brain Stimulation methods, Subthalamic Nucleus physiopathology, Dopamine metabolism
Abstract

The ability to initiate volitional action is fundamental to human behaviour. Loss of dopaminergic neurons in Parkinson's disease is associated with impaired action initiation, also termed akinesia. Both dopamine and subthalamic deep brain stimulation (DBS) can alleviate akinesia, but the underlying mechanisms are unknown. An important question is whether dopamine and DBS facilitate de novo build-up of neural dynamics for motor execution or accelerate existing cortical movement initiation signals through shared modulatory circuit effects. Answering these questions can provide the foundation for new closed-loop neurotherapies with adaptive DBS, but the objectification of neural processing delays prior to performance of volitional action remains a significant challenge. To overcome this challenge, we studied readiness potentials and trained brain signal decoders on invasive neurophysiology signals in 25 DBS patients (12 female) with Parkinson's disease during performance of self-initiated movements. Combined sensorimotor cortex electrocorticography and subthalamic local field potential recordings were performed OFF therapy (n = 22), ON dopaminergic medication (n = 18) and on subthalamic deep brain stimulation (n = 8). This allowed us to compare their therapeutic effects on neural latencies between the earliest cortical representation of movement intention as decoded by linear discriminant analysis classifiers and onset of muscle activation recorded with electromyography. In the hypodopaminergic OFF state, we observed long latencies between motor intention and motor execution for readiness potentials and machine learning classifications. Both, dopamine and DBS significantly shortened these latencies, hinting towards a shared therapeutic mechanism for alleviation of akinesia. To investigate this further, we analysed directional cortico-subthalamic oscillatory communication with multivariate granger causality. Strikingly, we found that both therapies independently shifted cortico-subthalamic oscillatory information flow from antikinetic beta (13-35 Hz) to prokinetic theta (4-10 Hz) rhythms, which was correlated with latencies in motor execution. Our study reveals a shared brain network modulation pattern of dopamine and DBS that may underlie the acceleration of neural dynamics for augmentation of movement initiation in Parkinson's disease. Instead of producing or increasing preparatory brain signals, both therapies modulate oscillatory communication. These insights provide a link between the pathophysiology of akinesia and its' therapeutic alleviation with oscillatory network changes in other non-motor and motor domains, e.g. related to hyperkinesia or effort and reward perception. In the future, our study may inspire the development of clinical brain computer interfaces based on brain signal decoders to provide temporally precise support for action initiation in patients with brain disorders., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2024
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24. Dynamic layer-specific processing in the prefrontal cortex during working memory.

Author

Degutis JK, Chaimow D, Haenelt D, Assem M, Duncan J, Haynes JD, Weiskopf N, and Lorenz R

Subjects
Humans, Male, Female, Adult, Young Adult, Dorsolateral Prefrontal Cortex physiology, Dorsolateral Prefrontal Cortex diagnostic imaging, Brain Mapping methods, Memory, Short-Term physiology, Magnetic Resonance Imaging, Prefrontal Cortex physiology, Prefrontal Cortex diagnostic imaging
Abstract

The dorsolateral prefrontal cortex (dlPFC) is reliably engaged in working memory (WM) and comprises different cytoarchitectonic layers, yet their functional role in human WM is unclear. Here, participants completed a delayed-match-to-sample task while undergoing functional magnetic resonance imaging (fMRI) at ultra-high resolution. We examine layer-specific activity to manipulations in WM load and motor response. Superficial layers exhibit a preferential response to WM load during the delay and retrieval periods of a WM task, indicating a lamina-specific activation of the frontoparietal network. Multivariate patterns encoding WM load in the superficial layer dynamically change across the three periods of the task. Last, superficial and deep layers are non-differentially involved in the motor response, challenging earlier findings of a preferential deep layer activation. Taken together, our results provide new insights into the functional laminar circuitry of the dlPFC during WM and support a dynamic account of dlPFC coding., (© 2024. The Author(s).)

Published
2024
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26. The precision of signals encoding active self-movement.

Author

Haynes JD, Gallagher M, Culling JF, and Freeman TCA

Subjects
Humans, Adult, Male, Female, Proprioception physiology, Young Adult, Rotation, Auditory Perception physiology, Head Movements physiology, Motion Perception physiology
Abstract

Everyday actions like moving the head, walking around, and grasping objects are typically self-controlled. This presents a problem when studying the signals encoding such actions because active self-movement is difficult to control experimentally. Available techniques demand repeatable trials, but each action is unique, making it difficult to measure fundamental properties like psychophysical thresholds. We present a novel paradigm that recovers both precision and bias of self-movement signals with minimal constraint on the participant. The paradigm relies on linking image motion to previous self-movement, and two experimental phases to extract the signal encoding the latter. The paradigm takes care of a hidden source of external noise not previously accounted for in techniques that link display motion to self-movement in real time (e.g., virtual reality). We use head rotations as an example of self-movement, and show that the precision of the signals encoding head movement depends on whether they are being used to judge visual motion or auditory motion. We find that perceived motion is slowed during head movement in both cases. The "nonimage" signals encoding active head rotation (motor commands, proprioception, and vestibular cues) are therefore biased toward lower speeds and/or displacements. In a second experiment, we trained participants to rotate their heads at different rates and found that the imprecision of the head rotation signal rises proportionally with head speed (Weber's law). We discuss the findings in terms of the different motion cues used by vision and hearing, and the implications they have for Bayesian models of motion perception. NEW & NOTEWORTHY We present a psychophysical technique for measuring the precision of signals encoding active self-movements. Using head movements, we show that 1 ) precision is greater when active head rotation is performed using visual comparison stimuli versus auditory; 2 ) precision decreases with head speed (Weber's law); 3 ) perceived speed is lower during head rotation. The findings may reflect the steps needed to convert different cues into common units, and challenge standard Bayesian models of motion perception.

Published
2024
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27. Nonfrontal Control of Working Memory.

Author

Christophel T, Weber S, Yan C, Stopak L, Hetzer S, and Haynes JD

Subjects
Humans, Male, Female, Adult, Young Adult, Executive Function physiology, Brain Mapping, Photic Stimulation methods, Cues, Parietal Lobe physiology, Neuropsychological Tests, Image Processing, Computer-Assisted, Temporal Lobe physiology, Memory, Short-Term physiology, Magnetic Resonance Imaging
Abstract

Items held in visual working memory can be quickly updated, replaced, removed, and even manipulated in accordance with current behavioral goals. Here, we use multivariate pattern analyses to identify the patterns of neuronal activity that realize the executive control processes supervising these flexible stores. We find that portions of the middle temporal gyrus and the intraparietal sulcus represent what item is cued for continued memorization independently of representations of the item itself. Importantly, this selection-specific activity could not be explained by sensory representations of the cue and is only present when control is exerted. Our results suggest that the selection of memorized items might be controlled in a distributed and decentralized fashion. This evidence provides an alternative perspective to the notion of "domain general" central executive control over memory function., (© 2024 Massachusetts Institute of Technology.)

Published
2024
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28. Have you been there before? Decoding recognition of spatial scenes from fMRI signals in precuneus.

Author

Bogler C, Zangrossi A, Miller C, Sartori G, and Haynes JD

Subjects
Humans, Male, Female, Young Adult, Adult, Photic Stimulation methods, Pattern Recognition, Visual physiology, Space Perception physiology, Memory, Episodic, Magnetic Resonance Imaging, Parietal Lobe physiology, Parietal Lobe diagnostic imaging, Recognition, Psychology physiology, Brain Mapping methods
Abstract

One potential application of forensic "brain reading" is to test whether a suspect has previously experienced a crime scene. Here, we investigated whether it is possible to decode real life autobiographic exposure to spatial locations using fMRI. In the first session, participants visited four out of eight possible rooms on a university campus. During a subsequent scanning session, subjects passively viewed pictures and videos from these eight possible rooms (four old, four novel) without giving any responses. A multivariate searchlight analysis was employed that trained a classifier to distinguish between "seen" versus "unseen" stimuli from a subset of six rooms. We found that bilateral precuneus encoded information that can be used to distinguish between previously seen and unseen rooms and that also generalized to the two stimuli left out from training. We conclude that activity in bilateral precuneus is associated with the memory of previously visited rooms, irrespective of the identity of the room, thus supporting a parietal contribution to episodic memory for spatial locations. Importantly, we could decode whether a room was visited in real life without the need of explicit judgments about the rooms. This suggests that recognition is an automatic response that can be decoded from fMRI data, thus potentially supporting forensic applications of concealed information tests for crime scene recognition., (© 2024 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.)

Published
2024
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29. Working memory signals in early visual cortex are present in weak and strong imagers.

Author

Weber S, Christophel T, Görgen K, Soch J, and Haynes JD

Subjects
Humans, Visual Perception, Imagery, Psychotherapy, Mental Recall, Imagination, Memory, Short-Term, Visual Cortex diagnostic imaging
Abstract

It has been suggested that visual images are memorized across brief periods of time by vividly imagining them as if they were still there. In line with this, the contents of both working memory and visual imagery are known to be encoded already in early visual cortex. If these signals in early visual areas were indeed to reflect a combined imagery and memory code, one would predict them to be weaker for individuals with reduced visual imagery vividness. Here, we systematically investigated this question in two groups of participants. Strong and weak imagers were asked to remember images across brief delay periods. We were able to reliably reconstruct the memorized stimuli from early visual cortex during the delay. Importantly, in contrast to the prediction, the quality of reconstruction was equally accurate for both strong and weak imagers. The decodable information also closely reflected behavioral precision in both groups, suggesting it could contribute to behavioral performance, even in the extreme case of completely aphantasic individuals. Our data thus suggest that working memory signals in early visual cortex can be present even in the (near) absence of phenomenal imagery., (© 2024 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.)

Published
2024
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30. Fronto-striatal alterations correlate with apathy severity in behavioral variant frontotemporal dementia.

Author

Upadhyay N, Spottke A, Schneider A, Hoffmann DC, Frommann I, Ballarini T, Fliessbach K, Bender B, Heekeren HR, Haynes JD, Ewers M, Düzel E, Glanz W, Dobisch L, Buerger K, Janowitz D, Levin J, Danek A, Teipel S, Kilimann I, Synofzik M, Wilke C, Peters O, Preis L, Priller J, Spruth EJ, Jessen F, and Boecker H

Subjects
Humans, Magnetic Resonance Imaging methods, Brain, Gray Matter pathology, Frontotemporal Dementia pathology, Apathy
Abstract

Structural and functional changes in cortical and subcortical regions have been reported in behavioral variant frontotemporal dementia (bvFTD), however, a multimodal approach may provide deeper insights into the neural correlates of neuropsychiatric symptoms. In this multicenter study, we measured cortical thickness (CTh) and subcortical volumes to identify structural abnormalities in 37 bvFTD patients, and 37 age- and sex-matched healthy controls. For seed regions with significant structural changes, whole-brain functional connectivity (FC) was examined in a sub-cohort of N = 22 bvFTD and N = 22 matched control subjects to detect complementary alterations in brain network organization. To explore the functional significance of the observed structural and functional deviations, correlations with clinical and neuropsychological outcomes were tested where available. Significantly decreased CTh was observed in the bvFTD group in caudal middle frontal gyrus, left pars opercularis, bilateral superior frontal and bilateral middle temporal gyrus along with subcortical volume reductions in bilateral basal ganglia, thalamus, hippocampus, and amygdala. Resting-state functional magnetic resonance imaging showed decreased FC in bvFTD between: dorsal striatum and left caudal middle frontal gyrus; putamen and fronto-parietal regions; pallidum and cerebellum. Conversely, bvFTD showed increased FC between: left middle temporal gyrus and paracingulate gyrus; caudate nucleus and insula; amygdala and parahippocampal gyrus. Additionally, cortical thickness in caudal, lateral and superior frontal regions as well as caudate nucleus volume correlated negatively with apathy severity scores of the Neuropsychiatry Inventory Questionnaire. In conclusion, multimodal structural and functional imaging indicates that fronto-striatal regions have a considerable influence on the severity of apathy in bvFTD., (© 2023. The Author(s).)

Published
2024
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31. Performance reserves in brain-imaging-based phenotype prediction.

Author

Schulz MA, Bzdok D, Haufe S, Haynes JD, and Ritter K

Subjects
Humans, Machine Learning, Phenotype, Emotions, Magnetic Resonance Imaging methods, Brain diagnostic imaging, Neuroimaging methods
Abstract

This study examines the impact of sample size on predicting cognitive and mental health phenotypes from brain imaging via machine learning. Our analysis shows a 3- to 9-fold improvement in prediction performance when sample size increases from 1,000 to 1 M participants. However, despite this increase, the data suggest that prediction accuracy remains worryingly low and far from fully exploiting the predictive potential of brain imaging data. Additionally, we find that integrating multiple imaging modalities boosts prediction accuracy, often equivalent to doubling the sample size. Interestingly, the most informative imaging modality often varied with increasing sample size, emphasizing the need to consider multiple modalities. Despite significant performance reserves for phenotype prediction, achieving substantial improvements may necessitate prohibitively large sample sizes, thus casting doubt on the practical or clinical utility of machine learning in some areas of neuroimaging., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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32. Encoding of continuous perceptual choices in human early visual cortex.

Author

Barbieri R, Töpfer FM, Soch J, Bogler C, Sprekeler H, and Haynes JD

Abstract

Introduction: Research on the neural mechanisms of perceptual decision-making has typically focused on simple categorical choices, say between two alternative motion directions. Studies on such discrete alternatives have often suggested that choices are encoded either in a motor-based or in an abstract, categorical format in regions beyond sensory cortex., Methods: In this study, we used motion stimuli that could vary anywhere between 0° and 360° to assess how the brain encodes choices for features that span the full sensory continuum. We employed a combination of neuroimaging and encoding models based on Gaussian process regression to assess how either stimuli or choices were encoded in brain responses., Results: We found that single-voxel tuning patterns could be used to reconstruct the trial-by-trial physical direction of motion as well as the participants' continuous choices. Importantly, these continuous choice signals were primarily observed in early visual areas. The tuning properties in this region generalized between choice encoding and stimulus encoding, even for reports that reflected pure guessing., Discussion: We found only little information related to the decision outcome in regions beyond visual cortex, such as parietal cortex, possibly because our task did not involve differential motor preparation. This could suggest that decisions for continuous stimuli take can place already in sensory brain regions, potentially using similar mechanisms to the sensory recruitment in visual working memory., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Barbieri, Töpfer, Soch, Bogler, Sprekeler and Haynes.)

Published
2023
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33. Clarifying the nature of stochastic fluctuations and accumulation processes in spontaneous movements.

Author

Bogler C, Grujičić B, and Haynes JD

Abstract

Experiments on choice-predictive brain signals have played an important role in the debate on free will. In a seminal study, Benjamin Libet and colleagues found that a negative-going EEG signal, the readiness potential (RP), can be observed over motor-related brain regions even hundreds of ms before the time of the conscious decision to move. If the early onset of the readiness potential is taken as an indicator of the "brain's decision to move" this could mean that this decision is made early, by unconscious brain activity, rather than later, at the time when the subject believes to have decided. However, an alternative kind of interpretation, involving ongoing stochastic fluctuations, has recently been brought to light. This stochastic decision model (SDM) takes its inspiration from leaky accumulator models of perceptual decision making. It suggests that the RP originates from an accumulation of ongoing stochastic fluctuations. In this view, the decision happens only at a much later stage when an accumulated noisy signal (plus imperative) reaches a threshold. Here, we clarify a number of confusions regarding both the evidence for the stochastic decision model as well as the interpretation that it offers. We will explore several points that we feel are in need of clarification: (a) the empirical evidence for the role of stochastic fluctuations is so far only indirect; (b) the interpretation of animal studies is unclear; (c) a model that is deterministic during the accumulation stage can explain the data in a similar way; (d) the primary focus in the literature has been on the role of random fluctuations whereas the deterministic aspects of the model have been largely ignored; (e) contrary to the original interpretation, the deterministic component of the model is quantitatively the dominant input into the accumulator; and finally (f) there is confusion regarding the role of "imperative" in the SDM and its link to "evidence" in perceptual decision making. Our aim is not to rehabilitate the role of the RP in the free will debate. Rather we aim to address some confusions regarding the evidence for accumulators playing a role in these preparatory brain processes., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Bogler, Grujičić and Haynes.)

Published
2023
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34. Greater maltreatment severity is associated with smaller brain volume with implication for intellectual ability in young children.

Author

Joseph J, Buss C, Knop A, de Punder K, Winter SM, Spors B, Binder E, Haynes JD, and Heim C

Abstract

Background: Childhood maltreatment profoundly alters trajectories of brain development, promoting markedly increased long-term health risks and impaired intellectual development. However, the immediate impact of maltreatment on brain development in children and the extent to which altered global brain volume contributes to intellectual development in children with maltreatment experience is currently unknown. We here utilized MRI data obtained from children within 6 months after the exposure to maltreatment to assess the association of maltreatment severity with global brain volume changes. We further assessed the association between maltreatment severity and intellectual development and tested for the mediating effect of brain volume on this association., Method: We used structural MRI (3T) in a sample of 49 children aged 3-5 years with maltreatment exposure, i.e. emotional and physical abuse and/or neglect within 6 months, to characterize intracranial and tissue-specific volumes. Maltreatment severity was coded using the Maternal Interview for the Classification of Maltreatment. IQ was tested at study entry and after one year using the Snijders Oomen Nonverbal Test., Results: Higher maltreatment severity was significantly correlated with smaller intracranial volume ( r  = -.393, p  = .008), which was mainly driven by lower total brain volume ( r  = -.393, p  = .008), which in turn was primarily due to smaller gray matter volume ( r  = -.454, p  = .002). Furthermore, smaller gray matter volume was associated with lower IQ at study entry (r = -.548, p  < .001) and predicted IQ one year later (r = -.493, p  = .004.). The observed associations were independent of potential confounding variables, including height, socioeconomic status, age and sex., Importance: We provide evidence that greater maltreatment severity in early childhood is related to smaller brain size at a very young age with significant consequences for intellectual ability, likely setting a path for far-reaching long-term disadvantages. Insights into the molecular and neural processes that underlie the impact of maltreatment on brain structure and function are urgently needed to derive mechanism-driven targets for early intervention., Competing Interests: None of the authors declare competing interests., (© 2023 The Authors.)

Published
2023
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35. Functional connectome fingerprinting and stability in multiple sclerosis.

Author

Mantwill M, Asseyer S, Chien C, Kuchling J, Schmitz-Hübsch T, Brandt AU, Haynes JD, Paul F, and Finke C

Abstract

Background: Functional connectome fingerprinting can identify individuals based on their functional connectome. Previous studies relied mostly on short intervals between fMRI acquisitions., Objective: This cohort study aimed to determine the stability of connectome-based identification and their underlying signatures in patients with multiple sclerosis and healthy individuals with long follow-up intervals., Methods: We acquired resting-state fMRI in 70 patients with multiple sclerosis and 273 healthy individuals with long follow-up times (up to 4 and 9 years, respectively). Using functional connectome fingerprinting, we examined the stability of the connectome and additionally investigated which regions, connections and networks supported individual identification. Finally, we predicted cognitive and behavioural outcome based on functional connectivity., Results: Multiple sclerosis patients showed connectome stability and identification accuracies similar to healthy individuals, with longer time delays between imaging sessions being associated with accuracies dropping from 89% to 76%. Lesion load, brain atrophy or cognitive impairment did not affect identification accuracies within the range of disease severity studied. Connections from the fronto-parietal and default mode network were consistently most distinctive, i.e., informative of identity. The functional connectivity also allowed the prediction of individual cognitive performances., Conclusion: Our results demonstrate that discriminatory signatures in the functional connectome are stable over extended periods of time in multiple sclerosis, resulting in similar identification accuracies and distinctive long-lasting functional connectome fingerprinting signatures in patients and healthy individuals., Competing Interests: The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article, (© The Author(s), 2023.)

Published
2023
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36. Categorical working memory codes in human visual cortex.

Author

Yan C, Christophel TB, Allefeld C, and Haynes JD

Subjects
Humans, Brain, Cognition, Parietal Lobe, Brain Mapping, Magnetic Resonance Imaging, Visual Perception, Memory, Short-Term, Visual Cortex diagnostic imaging
Abstract

Working memory contents are represented in neural activity patterns across multiple regions of the cortical hierarchy. A division of labor has been proposed where more anterior regions harbor increasingly abstract and categorical representations while the most detailed representations are held in primary sensory cortices. Here, using fMRI and multivariate encoding modeling, we demonstrate that for color stimuli categorical codes are already present at the level of extrastriate visual cortex (V4 and VO1), even when subjects are neither implicitly nor explicitly encouraged to categorize the stimuli. Importantly, this categorical coding was observed during working memory, but not during perception. Thus, visual working memory is likely to rely at least in part on categorical representations. SIGNIFICANCE STATEMENT: Working memory is the representational basis for human cognition. Recent work has demonstrated that numerous regions across the human brain can represent the contents of working memory. We use fMRI brain scanning and machine learning methods to demonstrate that different regions can represent the same content differently during working memory. Reading out the neural codes used to store working memory contents, we show that already in sensory cortex, areas V4 and VO1 represent color in a categorical format rather than a purely sensory fashion. Thereby, we provide a better understanding of how different regions of the brain might serve working memory and cognition., Competing Interests: Declaration of Competing Interest The authors have no interests to declare., (Copyright © 2023. Published by Elsevier Inc.)

Published
2023
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37. The effect of context and reason on the neural correlates of intentions.

Author

Uithol S, Görgen K, Pischedda D, Toni I, and Haynes JD

Abstract

Many studies have identified networks in parietal and prefrontal cortex that are involved in intentional action. Yet, our understanding of the way these networks are involved in intentions is still very limited. In this study, we investigate two characteristics of these processes: context- and reason-dependence of the neural states associated with intentions. We ask whether these states depend on the context a person is in and the reasons they have for choosing an action. We used a combination of functional magnetic resonance imaging (fMRI) and multivariate decoding to directly assess the context- and reason-dependency of the neural states underlying intentions. We show that action intentions can be decoded from fMRI data based on a classifier trained in the same context and with the same reason, in line with previous decoding studies. Furthermore, we found that intentions can be decoded across different reasons for choosing an action. However, decoding across different contexts was not successful. We found anecdotal to moderate evidence against context-invariant information in all regions of interest and for all conditions but one. These results suggest that the neural states associated with intentions are modulated by the context of the action., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors. Published by Elsevier Ltd.)

Published
2023
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38. Linking early-life bilingualism and cognitive advantage in older adulthood.

Author

Ballarini T, Kuhn E, Röske S, Altenstein S, Bartels C, Buchholz F, Buerger K, Dechent P, Dobisch L, Ewers M, Fliessbach K, Freiesleben SD, Frommann I, Gabelin T, Glanz W, Görß D, Haynes JD, Incesoy EI, Janowitz D, Kilimann I, Kleineidam L, Kobeleva X, Laske C, Lohse A, Maier F, Munk MH, Perneczky R, Peters O, Priller J, Rauchmann BS, Roy N, Scheffler K, Schneider A, Schott BH, Spottke A, Spruth EJ, Teipel S, Wiltfang J, Wolfsgruber S, Düzel E, Jessen F, and Wagner M

Subjects
Humans, Aged, Cognition, Executive Function, Brain, Multilingualism, Dementia
Abstract

Previous studies have identified bilingualism as a protective factor against dementia. Here we aimed to test whether being bilingual at different life stages impacts cognition and brain structure in older adulthood. We included 746 participants from the DZNE-Longitudinal Cognitive Impairment and Dementia Study (DELCODE). Assessment of bilingualism at 3 life stages (early: 13-30, middle: 30-65 and late: over 65 years old) was determined with the Lifetime of Experiences Questionnaire. Individuals reporting bilingualism (i.e., daily use of L2) in the early life stage outperformed monolinguals on learning & memory, working-memory, executive functions and language. Bilingualism in middle life stage showed a significant advantage on learning & memory, while no effect of bilingualism in old life stage was identified. Brain gray matter volume was not associated with L2 use and did not differ between groups. However, stronger correlations between brain gray matter volume in selected brain regions and cognitive performance were found in bilingual participants in the early and middle life stages. Our results indicate that bilingualism in early life might provide a long-lasting protective effect on cognition and shape the brain to sustain cognitive performance in older adulthood., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2023
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39. Instruction effects on randomness in sequence generation.

Author

Guseva M, Bogler C, Allefeld C, and Haynes JD

Abstract

Randomness is a fundamental property of human behavior. It occurs both in the form of intrinsic random variability, say when repetitions of a task yield slightly different behavioral outcomes, or in the form of explicit randomness, say when a person tries to avoid being predicted in a game of rock, paper and scissors. Randomness has frequently been studied using random sequence generation tasks (RSG). A key finding has been that humans are poor at deliberately producing random behavior. At the same time, it has been shown that people might be better randomizers if randomness is only an implicit (rather than an explicit) requirement of the task. We therefore hypothesized that randomization performance might vary with the exact instructions with which randomness is elicited. To test this, we acquired data from a large online sample ( n  = 388), where every participant made 1,000 binary choices based on one of the following instructions: choose either randomly, freely, irregularly, according to an imaginary coin toss or perform a perceptual guessing task. Our results show significant differences in randomness between the conditions as quantified by conditional entropy and estimated Markov order. The randomization scores were highest in the conditions where people were asked to be irregular or mentally simulate a random event (coin toss) thus yielding recommendations for future studies on randomization behavior., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Guseva, Bogler, Allefeld and Haynes.)

Published
2023
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40. Exploring the ATN classification system using brain morphology.

Author

Heinzinger N, Maass A, Berron D, Yakupov R, Peters O, Fiebach J, Villringer K, Preis L, Priller J, Spruth EJ, Altenstein S, Schneider A, Fliessbach K, Wiltfang J, Bartels C, Jessen F, Maier F, Glanz W, Buerger K, Janowitz D, Perneczky R, Rauchmann BS, Teipel S, Killimann I, Göerß D, Laske C, Munk MH, Spottke A, Roy N, Heneka MT, Brosseron F, Dobisch L, Ewers M, Dechent P, Haynes JD, Scheffler K, Wolfsgruber S, Kleineidam L, Schmid M, Berger M, Düzel E, and Ziegler G

Subjects
Humans, Cross-Sectional Studies, Bayes Theorem, Amyloid beta-Peptides, Brain diagnostic imaging, Amyloidogenic Proteins, tau Proteins, Biomarkers, Alzheimer Disease diagnostic imaging, Cognitive Dysfunction diagnostic imaging
Abstract

Background: The NIA-AA proposed amyloid-tau-neurodegeneration (ATN) as a classification system for AD biomarkers. The amyloid cascade hypothesis (ACH) implies a sequence across ATN groups that patients might undergo during transition from healthy towards AD: A-T-N-➔A+T-N-➔A+T+N-➔A+T+N+. Here we assess the evidence for monotonic brain volume decline for this particular (amyloid-conversion first, tau-conversion second, N-conversion last) and alternative progressions using voxel-based morphometry (VBM) in a large cross-sectional MRI cohort., Methods: We used baseline data of the DELCODE cohort of 437 subjects (127 controls, 168 SCD, 87 MCI, 55 AD patients) which underwent lumbar puncture, MRI scanning, and neuropsychological assessment. ATN classification was performed using CSF-Aβ42/Aβ40 (A+/-), CSF phospho-tau (T+/-), and adjusted hippocampal volume or CSF total-tau (N+/-). We compared voxel-wise model evidence for monotonic decline of gray matter volume across various sequences over ATN groups using the Bayesian Information Criterion (including also ROIs of Braak stages). First, face validity of the ACH transition sequence A-T-N-➔A+T-N-➔A+T+N-➔A+T+N+ was compared against biologically less plausible (permuted) sequences among AD continuum ATN groups. Second, we evaluated evidence for 6 monotonic brain volume progressions from A-T-N- towards A+T+N+ including also non-AD continuum ATN groups., Results: The ACH-based progression A-T-N-➔A+T-N-➔A+T+N-➔A+T+N+ was consistent with cognitive decline and clinical diagnosis. Using hippocampal volume for operationalization of neurodegeneration (N), ACH was most evident in 9% of gray matter predominantly in the medial temporal lobe. Many cortical regions suggested alternative non-monotonic volume progressions over ACH progression groups, which is compatible with an early amyloid-related tissue expansion or sampling effects, e.g., due to brain reserve. Volume decline in 65% of gray matter was consistent with a progression where A status converts before T or N status (i.e., ACH/ANT) when compared to alternative sequences (TAN/TNA/NAT/NTA). Brain regions earlier affected by tau tangle deposition (Braak stage I-IV, MTL, limbic system) present stronger evidence for volume decline than late Braak stage ROIs (V/VI, cortical regions). Similar findings were observed when using CSF total-tau for N instead., Conclusion: Using the ATN classification system, early amyloid status conversion (before tau and neurodegeneration) is associated with brain volume loss observed during AD progression. The ATN system and the ACH are compatible with monotonic progression of MTL atrophy., Trial Registration: DRKS00007966, 04/05/2015, retrospectively registered., (© 2023. The Author(s).)

Published
2023
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41. A tightly controlled fMRI dataset for receptive field mapping in human visual cortex.

Author

Soch J, Görgen K, Heinzle J, and Haynes JD

Abstract

Four right-handed, healthy subjects participated in a visual stimulation experiment. Subjects were viewing a dartboard-shaped flickering checkerboard stimulus, divided into 4 rings and 12 segments, defining 48 sectors in the visual field. Local contrast in each sector was continuously varying across four levels and updated every 3 s. To maintain fixation, subjects had to respond to a stimulus at the center of the visual field. During the entire experiment, in which subjects performed 8 runs, each consisting of 100 trials, brain activity was measured with functional magnetic resonance imaging (MRI). Using a 3-T Siemens Trio MRI scanner, 220 echo-planar images were acquired in each run, with a repetition time of 1.5 s and voxel size of 3 x 3 x 3 mm. The dataset is publicly available from OpenNeuro and additionally includes region of interest maps for visual areas V1 to V4, left and right, obtained from another retinotopic mapping experiment. As such, the dataset allows for accurate mapping of receptive fields and their properties across several stages of human visual cortex., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Author(s).)

Published
2023
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42. Lifelong experiences as a proxy of cognitive reserve moderate the association between connectivity and cognition in Alzheimer's disease.

Author

Ersoezlue E, Rauchmann BS, Schneider-Axmann T, Wagner M, Ballarini T, Tato M, Utecht J, Kurz C, Papazov B, Guersel S, Burow L, Koller G, Stöcklein S, Keeser D, Bartels C, Brosseron F, Buerger K, Cetindag AC, Dechent P, Dobisch L, Ewers M, Fliessbach K, Frommann I, Haynes JD, Heneka MT, Janowitz D, Kilimann I, Kleinedam L, Laske C, Maier F, Metzger CD, Munk MH, Peters O, Preis L, Priller J, Ramirez A, Roeske S, Roy N, Scheffler K, Schneider A, Spottke A, Spruth EJ, Teipel S, Wiltfang J, Wolfsgruber S, Yakupov R, Duezel E, Jessen F, and Perneczky R

Subjects
Humans, Brain Mapping, Cognition, Brain diagnostic imaging, Amyloid beta-Peptides, Magnetic Resonance Imaging, Alzheimer Disease, Cognitive Reserve, Cognitive Dysfunction
Abstract

Alzheimer's disease (AD) is associated with alterations in functional connectivity (FC) of the brain. The FC underpinnings of CR, that is, lifelong experiences, are largely unknown. Resting-state FC and structural MRI were performed in 76 CSF amyloid-β (Aβ) negative healthy controls and 152 Aβ positive individuals as an AD spectrum cohort (ADS; 55 with subjective cognitive decline, SCD; 52 with mild cognitive impairment; 45 with AD dementia). Following a region-of-interest (ROI) FC analysis, intrinsic network connectivity within the default-mode network (INC-DMN) and anti-correlation in INC between the DMN and dorsal attention network (DMN:DAN) were obtained as composite scores. CR was estimated by education and Lifetime Experiences Questionnaire (LEQ). The association between INC-DMN and MEM was attenuated by higher LEQ scores in the entire ADS group, particularly in SCD. In ROI analyses, higher LEQ scores were associated with higher FC within the DMN in ADS group. INC-DMN remains relatively intact despite memory decline in individuals with higher lifetime activity estimates, supporting a role for functional networks in maintaining cognitive function in AD., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2023
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43. Performance evaluation of automated white matter hyperintensity segmentation algorithms in a multicenter cohort on cognitive impairment and dementia.

Author

Gaubert M, Dell'Orco A, Lange C, Garnier-Crussard A, Zimmermann I, Dyrba M, Duering M, Ziegler G, Peters O, Preis L, Priller J, Spruth EJ, Schneider A, Fliessbach K, Wiltfang J, Schott BH, Maier F, Glanz W, Buerger K, Janowitz D, Perneczky R, Rauchmann BS, Teipel S, Kilimann I, Laske C, Munk MH, Spottke A, Roy N, Dobisch L, Ewers M, Dechent P, Haynes JD, Scheffler K, Düzel E, Jessen F, and Wirth M

Abstract

Background: White matter hyperintensities (WMH), a biomarker of small vessel disease, are often found in Alzheimer's disease (AD) and their advanced detection and quantification can be beneficial for research and clinical applications. To investigate WMH in large-scale multicenter studies on cognitive impairment and AD, appropriate automated WMH segmentation algorithms are required. This study aimed to compare the performance of segmentation tools and provide information on their application in multicenter research., Methods: We used a pseudo-randomly selected dataset ( n = 50) from the DZNE-multicenter observational Longitudinal Cognitive Impairment and Dementia Study (DELCODE) that included 3D fluid-attenuated inversion recovery (FLAIR) images from participants across the cognitive continuum. Performances of top-rated algorithms for automated WMH segmentation [Brain Intensity Abnormality Classification Algorithm (BIANCA), lesion segmentation toolbox (LST), lesion growth algorithm (LGA), LST lesion prediction algorithm (LPA), pgs, and sysu&#95;media] were compared to manual reference segmentation (RS)., Results: Across tools, segmentation performance was moderate for global WMH volume and number of detected lesions. After retraining on a DELCODE subset, the deep learning algorithm sysu&#95;media showed the highest performances with an average Dice's coefficient of 0.702 (±0.109 SD) for volume and a mean F1-score of 0.642 (±0.109 SD) for the number of lesions. The intra-class correlation was excellent for all algorithms (>0.9) but BIANCA (0.835). Performance improved with high WMH burden and varied across brain regions., Conclusion: To conclude, the deep learning algorithm, when retrained, performed well in the multicenter context. Nevertheless, the performance was close to traditional methods. We provide methodological recommendations for future studies using automated WMH segmentation to quantify and assess WMH along the continuum of cognitive impairment and AD dementia., Competing Interests: MDu received fees for consultation and lectures from Roche, Bayer, Hovid Berhad, and Sanofi. OP received fees for consultation and lectures from Biogen, Eisai, Griffols, MSD, Roche, and Schwabe. JP received fees for consultation, lectures, patents from Neurimmune, Axon, Desitin, and Epomedics. JW was an honorary speaker for Actelion, Amgen, Beeijing Yibai Science and Technology Ltd., Janssen Cilag, Med Update GmbH, Pfizer, Roche Pharma, and was a member of the advisory boards of Abbott, Biogen, Boehringer Ingelheim, Lilly, MSD Sharp & Dohme, and Roche Pharma and received fees as a consultant for Immungenetics and Roboscreen. FJ received fees for consultation from Eli Lilly, Novartis, Roche, BioGene, MSD, Piramal, Janssen, and Lundbeck. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Gaubert, Dell’Orco, Lange, Garnier-Crussard, Zimmermann, Dyrba, Duering, Ziegler, Peters, Preis, Priller, Spruth, Schneider, Fliessbach, Wiltfang, Schott, Maier, Glanz, Buerger, Janowitz, Perneczky, Rauchmann, Teipel, Kilimann, Laske, Munk, Spottke, Roy, Dobisch, Ewers, Dechent, Haynes, Scheffler, Düzel, Jessen and Wirth.)

Published
2023
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44. Serum IL-6, sAXL, and YKL-40 as systemic correlates of reduced brain structure and function in Alzheimer's disease: results from the DELCODE study.

Author

Brosseron F, Maass A, Kleineidam L, Ravichandran KA, Kolbe CC, Wolfsgruber S, Santarelli F, Häsler LM, McManus R, Ising C, Röske S, Peters O, Cosma NC, Schneider LS, Wang X, Priller J, Spruth EJ, Altenstein S, Schneider A, Fliessbach K, Wiltfang J, Schott BH, Buerger K, Janowitz D, Dichgans M, Perneczky R, Rauchmann BS, Teipel S, Kilimann I, Görß D, Laske C, Munk MH, Düzel E, Yakupow R, Dobisch L, Metzger CD, Glanz W, Ewers M, Dechent P, Haynes JD, Scheffler K, Roy N, Rostamzadeh A, Spottke A, Ramirez A, Mengel D, Synofzik M, Jucker M, Latz E, Jessen F, Wagner M, and Heneka MT

Subjects
Humans, Amyloid beta-Peptides cerebrospinal fluid, Biomarkers blood, Brain pathology, tau Proteins cerebrospinal fluid, Alzheimer Disease blood, Alzheimer Disease pathology, Chitinase-3-Like Protein 1 blood, Cognitive Dysfunction blood, Cognitive Dysfunction diagnosis, Interleukin-6 blood
Abstract

Background: Neuroinflammation constitutes a pathological hallmark of Alzheimer's disease (AD). Still, it remains unresolved if peripheral inflammatory markers can be utilized for research purposes similar to blood-based beta-amyloid and neurodegeneration measures. We investigated experimental inflammation markers in serum and analyzed interrelations towards AD pathology features in a cohort with a focus on at-risk stages of AD., Methods: Data of 74 healthy controls (HC), 99 subjective cognitive decline (SCD), 75 mild cognitive impairment (MCI), 23 AD relatives, and 38 AD subjects were obtained from the DELCODE cohort. A panel of 20 serum biomarkers was determined using immunoassays. Analyses were adjusted for age, sex, APOE status, and body mass index and included correlations between serum and CSF marker levels and AD biomarker levels. Group-wise comparisons were based on screening diagnosis and routine AD biomarker-based schematics. Structural imaging data were combined into composite scores representing Braak stage regions and related to serum biomarker levels. The Preclinical Alzheimer's Cognitive Composite (PACC5) score was used to test for associations between the biomarkers and cognitive performance., Results: Each experimental marker displayed an individual profile of interrelations to AD biomarkers, imaging, or cognition features. Serum-soluble AXL (sAXL), IL-6, and YKL-40 showed the most striking associations. Soluble AXL was significantly elevated in AD subjects with pathological CSF beta-amyloid/tau profile and negatively related to structural imaging and cognitive function. Serum IL-6 was negatively correlated to structural measures of Braak regions, without associations to corresponding IL-6 CSF levels or other AD features. Serum YKL-40 correlated most consistently to CSF AD biomarker profiles and showed the strongest negative relations to structure, but none to cognitive outcomes., Conclusions: Serum sAXL, IL-6, and YKL-40 relate to different AD features, including the degree of neuropathology and cognitive functioning. This may suggest that peripheral blood signatures correspond to specific stages of the disease. As serum markers did not reflect the corresponding CSF protein levels, our data highlight the need to interpret serum inflammatory markers depending on the respective protein's specific biology and cellular origin. These marker-specific differences will have to be considered to further define and interpret blood-based inflammatory profiles for AD research., (© 2023. The Author(s).)

Published
2023
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45. A Residual Marker of Cognitive Reserve Is Associated with Resting-State Intrinsic Functional Connectivity Along the Alzheimer's Disease Continuum.

Author

Ersoezlue E, Perneczky R, Tato M, Utecht J, Kurz C, Häckert J, Guersel S, Burow L, Koller G, Stoecklein S, Keeser D, Papazov B, Totzke M, Ballarini T, Brosseron F, Buerger K, Dechent P, Dobisch L, Ewers M, Fliessbach K, Glanz W, Haynes JD, Heneka MT, Janowitz D, Kilimann I, Kleineidam L, Laske C, Maier F, Munk MH, Peters O, Priller J, Ramirez A, Roeske S, Roy N, Scheffler K, Schneider A, Schott BH, Spottke A, Spruth EJ, Teipel S, Unterfeld C, Wagner M, Wang X, Wiltfang J, Wolfsgruber S, Yakupov R, Duezel E, Jessen F, and Rauchmann BS

Subjects
Humans, Cognition, Neural Pathways, Nerve Net, Magnetic Resonance Imaging, Brain diagnostic imaging, Alzheimer Disease pathology, Cognitive Reserve
Abstract

Background: Cognitive reserve (CR) explains inter-individual differences in the impact of the neurodegenerative burden on cognitive functioning. A residual model was proposed to estimate CR more accurately than previous measures. However, associations between residual CR markers (CRM) and functional connectivity (FC) remain unexplored., Objective: To explore the associations between the CRM and intrinsic network connectivity (INC) in resting-state networks along the neuropathological-continuum of Alzheimer's disease (ADN)., Methods: Three hundred eighteen participants from the DELCODE cohort were stratified using cerebrospinal fluid biomarkers according to the A(myloid-β)/T(au)/N(eurodegeneration) classification. CRM was calculated utilizing residuals obtained from a multilinear regression model predicting cognition from markers of disease burden. Using an independent component analysis in resting-state fMRI data, we measured INC of resting-state networks, i.e., default mode network (DMN), frontoparietal network (FPN), salience network (SAL), and dorsal attention network. The associations of INC with a composite memory score and CRM and the associations of CRM with the seed-to-voxel functional connectivity of memory-related were tested in general linear models., Results: CRM was positively associated with INC in the DMN in the entire cohort. The A+T+N+ group revealed an anti-correlation between the SAL and the DMN. Furthermore, CRM was positively associated with anti-correlation between memory-related regions in FPN and DMN in ADN and A+T/N+., Conclusion: Our results provide evidence that INC is associated with CRM in ADN defined as participants with amyloid pathology with or without cognitive symptoms, suggesting that the neural correlates of CR are mirrored in network FC in resting-state.

Published
2023
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46. Psychophysics and computational modeling of feature-continuous motion perception.

Author

Töpfer FM, Barbieri R, Sexton CM, Wang X, Soch J, Bogler C, and Haynes JD

Subjects
Humans, Psychophysics, Computer Simulation, Motion Perception physiology
Abstract

Sensory decision-making is frequently studied using categorical tasks, even though the feature space of most stimuli is continuous. Recently, it has become more common to measure feature perception in a gradual fashion, say when studying motion perception across the full space of directions. However, continuous reports can be contaminated by perceptual or motor biases. Here, we examined such biases on perceptual reports by comparing two response methods. With the first method, participants reported motion direction in a motor reference frame by moving a trackball. With the second method, participants used a perceptual frame of reference with a perceptual comparison stimulus. We tested biases using three different versions of random dot kinematograms. We found strong and systematic biases in responses when reporting the direction in a motor frame of reference. For the perceptual frame of reference, these systematic biases were not evident. Independent of the response method, we also detected a systematic misperception where subjects sometimes confuse the physical stimulus direction with its opposite direction. This was confirmed using a von Mises mixture model that estimated the contribution of veridical perception, misperception, and guessing. Importantly, the more sensitive perceptual reporting method revealed that, with increasing levels of sensory evidence, perceptual performance increases not only in the form of higher detection probability, but under certain conditions also in the form of increased precision.

Published
2022
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47. Strategic complexity and cognitive skills affect brain response in interactive decision-making.

Author

Reverberi C, Pischedda D, Mantovani M, Haynes JD, and Rustichini A

Subjects
Cognition physiology, Emotions physiology, Humans, Morals, Brain, Decision Making physiology
Abstract

Deciding the best action in social settings requires decision-makers to consider their and others' preferences, since the outcome depends on the actions of both. Numerous empirical investigations have demonstrated variability of behavior across individuals in strategic situations. While prosocial, moral, and emotional factors have been intensively investigated to explain this diversity, neuro-cognitive determinants of strategic decision-making and their relation with intelligence remain mostly unknown. This study presents a new model of the process of strategic decision-making in repeated interactions, first providing a precise measure of the environment's complexity, and then analyzing how this complexity affects subjects' performance and neural response. The results confirm the theoretical predictions of the model. The frequency of deviations from optimal behavior is explained by a combination of higher complexity of the strategic environment and cognitive skills of the individuals. Brain response correlates with strategic complexity, but only in the subgroups with higher cognitive skills. Furthermore, neural effects were only observed in a fronto-parietal network typically involved in single-agent tasks (the Multiple Demand Network), thus suggesting that neural processes dealing with cognitively demanding individual tasks also have a central role in interactive decision-making. Our findings contribute to understanding how cognitive factors shape strategic decision-making and may provide the neural pathway of the reported association between strategic sophistication and fluid intelligence., (© 2022. The Author(s).)

Published
2022
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48. Immediate impact of child maltreatment on mental, developmental, and physical health trajectories.

Author

Winter SM, Dittrich K, Dörr P, Overfeld J, Moebus I, Murray E, Karaboycheva G, Zimmermann C, Knop A, Voelkle M, Entringer S, Buss C, Haynes JD, Binder EB, and Heim C

Subjects
Child, Emotions, Humans, Longitudinal Studies, Physical Abuse, Child Abuse psychology, Mental Disorders psychology
Abstract

Objective: The immediate impact of child maltreatment on health and developmental trajectories over time is unknown. Longitudinal studies starting in the direct aftermath of exposure with repeated follow-up are needed., Method: We assessed health and developmental outcomes in 6-month intervals over 2 years in 173 children, aged 3-5 years at study entry, including 86 children with exposure to emotional and physical abuse or neglect within 6 months and 87 nonmaltreated children. Assessments included clinician-administered, self- and parent-report measures of psychiatric and behavioral symptoms, development, and physical health. Linear mixed models and latent growth curve analyses were used to contrast trajectories between groups and to investigate the impact of maltreatment features on trajectories., Results: Maltreated children exhibited greater numbers of psychiatric diagnoses (b = 1.998, p < .001), externalizing (b = 13.29, p < .001) and internalizing (b = 11.70, p < .001) symptoms, impairments in cognitive (b = -11.586, p < .001), verbal (b = -10.687, p < .001), and motor development (b = -7.904, p = .006), and greater numbers of medical symptoms (b = 1.021, p < .001) compared to nonmaltreated children across all time-points. Lifetime maltreatment severity and/or age at earliest maltreatment exposure predicted adverse outcomes over time., Conclusion: The profound, immediate, and stable impact of maltreatment on health and developmental trajectories supports a biological embedding model and provides foundation to scrutinize the precise underlying mechanisms. Such knowledge will enable the development of early risk markers and mechanism-driven interventions that mitigate adverse trajectories in maltreated children., (© 2022 The Authors. Journal of Child Psychology and Psychiatry published by John Wiley & Sons Ltd on behalf of Association for Child and Adolescent Mental Health.)

Published
2022
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49. Musical Activity During Life Is Associated With Multi-Domain Cognitive and Brain Benefits in Older Adults.

Author

Böttcher A, Zarucha A, Köbe T, Gaubert M, Höppner A, Altenstein S, Bartels C, Buerger K, Dechent P, Dobisch L, Ewers M, Fliessbach K, Freiesleben SD, Frommann I, Haynes JD, Janowitz D, Kilimann I, Kleineidam L, Laske C, Maier F, Metzger C, Munk MHJ, Perneczky R, Peters O, Priller J, Rauchmann BS, Roy N, Scheffler K, Schneider A, Spottke A, Teipel SJ, Wiltfang J, Wolfsgruber S, Yakupov R, Düzel E, Jessen F, Röske S, Wagner M, Kempermann G, and Wirth M

Abstract

Regular musical activity as a complex multimodal lifestyle activity is proposed to be protective against age-related cognitive decline and Alzheimer's disease. This cross-sectional study investigated the association and interplay between musical instrument playing during life, multi-domain cognitive abilities and brain morphology in older adults (OA) from the DZNE-Longitudinal Cognitive Impairment and Dementia Study (DELCODE) study. Participants reporting having played a musical instrument across three life periods ( n = 70) were compared to controls without a history of musical instrument playing ( n = 70), well-matched for reserve proxies of education, intelligence, socioeconomic status and physical activity. Participants with musical activity outperformed controls in global cognition, working memory, executive functions, language, and visuospatial abilities, with no effects seen for learning and memory. The musically active group had greater gray matter volume in the somatosensory area, but did not differ from controls in higher-order frontal, temporal, or hippocampal volumes. However, the association between gray matter volume in distributed frontal-to-temporal regions and cognitive abilities was enhanced in participants with musical activity compared to controls. We show that playing a musical instrument during life relates to better late-life cognitive abilities and greater brain capacities in OA. Musical activity may serve as a multimodal enrichment strategy that could help preserve cognitive and brain health in late life. Longitudinal and interventional studies are needed to support this notion., Competing Interests: OP received fees for consultation from Abbvie, Biogen, Eisai, Griffols, MSD Roche, and Schwabe. JP received fees for consultation, lectures, and patents from Neurimmune, Axon, Desitin, and Epomedics. JW was an advisory board member of Abbott, Biogen, Boehringer Ingelheim, Immunogenetics, Lilly, MSD Sharp & Dohme, and Roche Pharma and received honoraria for lectures from Actelion, Amgen, Beeijing Yibai Science and Technology Ltd., Janssen Cilag, Med Update GmbH, Pfizer, Roche Pharma and holds the following patents: PCT/EP 2011 001724 and PCT/EP 2015 052945. JW was supported by an Ilidio Pinho professorship, iBiMED (UIDB/04501/2020) at the University of Aveiro, Portugal. ED received fees for consultation from Roche, Biogen, RoxHealth and holds shares in neotiv. FJ received fees for consultation from Eli Lilly, Novartis, Roche, BioGene, MSD, Piramal, Janssen, and Lundbeck. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Böttcher, Zarucha, Köbe, Gaubert, Höppner, Altenstein, Bartels, Buerger, Dechent, Dobisch, Ewers, Fliessbach, Freiesleben, Frommann, Haynes, Janowitz, Kilimann, Kleineidam, Laske, Maier, Metzger, Munk, Perneczky, Peters, Priller, Rauchmann, Roy, Scheffler, Schneider, Spottke, Teipel, Wiltfang, Wolfsgruber, Yakupov, Düzel, Jessen, Röske, Wagner, Kempermann and Wirth.)

Published
2022
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50. Novelty-Related fMRI Responses of Precuneus and Medial Temporal Regions in Individuals at Risk for Alzheimer Disease.

Author

Billette OV, Ziegler G, Aruci M, Schütze H, Kizilirmak JM, Richter A, Altenstein S, Bartels C, Brosseron F, Cardenas-Blanco A, Dahmen P, Dechent P, Dobisch L, Fliessbach K, Freiesleben SD, Glanz W, Göerß D, Haynes JD, Heneka MT, Kilimann I, Kimmich O, Kleineidam L, Laske C, Lohse A, Rostamzadeh A, Metzger C, Munk MH, Peters O, Preis L, Priller J, Scheffler K, Schneider A, Spottke A, Spruth EJ, Ramirez A, Röske S, Roy N, Teipel S, Wagner M, Wiltfang J, Wolfsgruber S, Yakupov R, Zeidman P, Jessen F, Schott BH, Düzel E, and Maass A

Subjects
Amyloid beta-Peptides, Biomarkers, Humans, Magnetic Resonance Imaging methods, Parietal Lobe diagnostic imaging, Temporal Lobe diagnostic imaging, Alzheimer Disease diagnosis, Cognitive Dysfunction diagnostic imaging
Abstract

Background and Objectives: We assessed whether novelty-related fMRI activity in medial temporal lobe regions and the precuneus follows an inverted U-shaped pattern across the clinical spectrum of increased Alzheimer disease (AD) risk as previously suggested. Specifically, we tested for potentially increased activity in individuals with a higher AD risk due to subjective cognitive decline (SCD) or mild cognitive impairment (MCI). We further tested whether activity differences related to diagnostic groups were accounted for by CSF markers of AD or brain atrophy., Methods: We studied 499 participants aged 60-88 years from the German Center for Neurodegenerative Diseases Longitudinal Cognitive Impairment and Dementia Study (DELCODE) who underwent task-fMRI. Participants included 163 cognitively normal (healthy control, HC) individuals, 222 SCD, 82 MCI, and 32 patients with clinical diagnosis of mild AD. CSF levels of β-amyloid 42/40 ratio and phosphorylated-tau181 were available from 232 participants. We used region-based analyses to assess novelty-related activity (novel > highly familiar scenes) in entorhinal cortex, hippocampus, and precuneus as well as whole-brain voxel-wise analyses. First, general linear models tested differences in fMRI activity between participant groups. Complementary regression models tested quadratic relationships between memory impairment and activity. Second, relationships of activity with AD CSF biomarkers and brain volume were analyzed. Analyses were controlled for age, sex, study site, and education., Results: In the precuneus, we observed an inverted U-shaped pattern of novelty-related activity across groups, with higher activity in SCD and MCI compared with HC, but not in patients with AD who showed relatively lower activity than MCI. This nonlinear pattern was confirmed by a quadratic relationship between memory impairment and precuneus activity. Precuneus activity was not related to AD biomarkers or brain volume. In contrast to the precuneus, hippocampal activity was reduced in AD dementia compared with all other groups and related to AD biomarkers., Discussion: Novelty-related activity in the precuneus follows a nonlinear pattern across the clinical spectrum of increased AD risk. Although the underlying mechanism remains unclear, increased precuneus activity might represent an early signature of memory impairment. Our results highlight the nonlinearity of activity alterations that should be considered in clinical trials using functional outcome measures or targeting hyperactivity., (Copyright © 2022 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published
2022
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