Inhibiční kontrola u obsedantně-kompulzivní poruchy / Inhibition control in Obsessive-Compulsive Disorder

Francová, Anna

January 2017

The response inhibition ability is part of executive functions, which may be defined as a set of higher cognitive processes particularly located in the frontal-subcortical circuits. Since the main obsessive-compulsive disorder (OCD) symptoms seem to be relevant to the inability of inhibiting certain stimuli, it can be assumed that response inhibition in these patients will be disrupted. Studies related to this topic have brought inconsistent results. Our research dealing with OCD patients has focused on two dimensions of the response inhibition - the behavioral inhibition, which generally includes the behavior control (for instance impulse control), and the cognitive interference, which is considered to be the cognitive component of inhibition process and is mostly associated with the control of internal cognitive processes. The first part of our research included the verification of hypothesis, stating that the increased severity of obsession is associated with the degree of disrupted ability of cognitive interference, while the severity of compulsions correlates with the degree of disrupted performance in tests measuring behavioral inhibition. The second research objective was to clarify whether the inhibition response ability was different between patients when the predominance of symptoms was...

Effects of multisensory integration processes on response inhibition in adolescent autism spectrum disorder

Chmielewski, W. X., Wolff, N., Roessner, V., Mückschel, M., Beste, C.

02 June 2020

Background. In everyday life it is often required to integrate multisensory input to successfully conduct response inhibition (RI) and thus major executive control processes. Both RI and multisensory processes have been suggested to be altered in autism spectrum disorder (ASD). It is, however, unclear which neurophysiological processes relate to changes in RI in ASD and in how far these processes are affected by possible multisensory integration deficits in ASD. Method. Combining high-density EEG recordings with source localization analyses, we examined a group of adolescent ASD patients (n = 20) and healthy controls (n = 20) using a novel RI task. Results. Compared to controls, RI processes are generally compromised in adolescent ASD. This aggravation of RI processes is modulated by the content of multisensory information. The neurophysiological data suggest that deficits in ASD emerge in attentional selection and resource allocation processes related to occipito-parietal and middle frontal regions. Most importantly, conflict monitoring subprocesses during RI were specifically modulated by content of multisensory information in the superior frontal gyrus. Conclusions. RI processes are overstrained in adolescent ASD, especially when conflicting multisensory information has to be integrated to perform RI. It seems that the content of multisensory input is important to consider in ASD and its effects on cognitive control processes.

info:eu-repo/classification/ddc/610

ddc:610

Specific cognitive–neurophysiological processes predict impulsivity in the childhood attention-deficit: hyperactivity disorder combined subtype

Bluschke, A., Roessner, V., Beste, C.

04 June 2020

Background. Attention-deficit/hyperactivity disorder (ADHD) is one of the most prevalent neuropsychiatric disorders in childhood. Besides inattention and hyperactivity, impulsivity is the third core symptom leading to diverse and serious problems. However, the neuronal mechanisms underlying impulsivity in ADHD are still not fully understood. This is all the more the case when patients with the ADHD combined subtype (ADHD-C) are considered who are characterized by both symptoms of inattention and hyperactivity/impulsivity. Method. Combining high-density electroencephalography (EEG) recordings with source localization analyses, we examined what information processing stages are dysfunctional in ADHD-C (n = 20) compared with controls (n = 18). Results. Patients with ADHD-C made more impulsive errors in a Go/No-go task than healthy controls. Neurophysiologically, different subprocesses from perceptual gating to attentional selection, resource allocation and response selection processes are altered in this patient group. Perceptual gating, stimulus-driven attention selection and resource allocation processes were more pronounced in ADHD-C, are related to activation differences in parieto-occipital networks and suggest attentional filtering deficits. However, only response selection processes, associated with medial prefrontal networks, predicted impulsive errors in ADHD-C. Conclusions. Although the clinical picture of ADHD-C is complex and a multitude of processing steps are altered, only a subset of processes seems to directly modulate impulsive behaviour. The present findings improve the understanding of mechanisms underlying impulsivity in patients with ADHD-C and might help to refine treatment algorithms focusing on impulsivity.

info:eu-repo/classification/ddc/610

ddc:610

What Happens Before Chemotherapy?! Neuro-anatomical and -functional MRI Investigations of the Pre-chemotherapy Breast Cancer Brain.

Scherling, Carole Susan

17 November 2011

The side-effects of chemotherapy treatment are an increasingly important research focus as more cancer patients are reaching survivorship. While treatment allows for survival, it can also lead to problems which can significantly affect quality of life. Cognitive impairments after chemotherapy treatment are one such factor. First presented as anecdotal patient reports, over the last decade empirical evidence for this cognitive concern has been obtained. Much attention has been focused on post-chemotherapy research, yet little attention has been granted to these same patients’ cognition before treatment commences. Breast cancer (BC) patients face many obstacles before chemotherapy treatment such as: surgery and side-effects of anesthesia, increased cytokine activity, stress of a new disease diagnosis and upcoming challenges, and emotional burdens such as depression and anxiety. Many of these factors have independently been shown to affect cognitive abilities in both healthy populations as well as other patient groups. Therefore, the pre-treatment (or baseline) BC patient status warrants systematic study. This would then reduce mistakenly attributing carried-over cognitive deficits to side effects of chemotherapy. As well, it is possible that certain confounding variables may have neural manifestations at baseline that could be exacerbated by chemotherapy agents. The following thesis first presents a review paper which critically describes the current literature examining chemotherapy-related cognitive impairments (CRCIs), as well as possible confound variables affecting this population. Subsequently, three original research papers present pre-chemotherapy data showing significant neuroanatomical and neurofunctional differences in BC patients compared to controls. In particular, these neural differences are present in brain regions that have been reported in post-chemotherapy papers. This, as well as the effects of variables such as the number of days since surgery, depression and anxiety scores and more, support the initiative that research attention should increase focus on these patients at baseline in order to better understand their post-chemotherapy results.

Cognitive impairment

magnetic resonance imaging (MRI)

pre-treatment effects

breast cancer

chemotherapy

chemofog

chemobrain

surgery

neuropsychology

working memory

response inhibition

voxel-based morphometry (VBM)

cortisol

What Happens Before Chemotherapy?! Neuro-anatomical and -functional MRI Investigations of the Pre-chemotherapy Breast Cancer Brain.

Scherling, Carole Susan

17 November 2011

The side-effects of chemotherapy treatment are an increasingly important research focus as more cancer patients are reaching survivorship. While treatment allows for survival, it can also lead to problems which can significantly affect quality of life. Cognitive impairments after chemotherapy treatment are one such factor. First presented as anecdotal patient reports, over the last decade empirical evidence for this cognitive concern has been obtained. Much attention has been focused on post-chemotherapy research, yet little attention has been granted to these same patients’ cognition before treatment commences. Breast cancer (BC) patients face many obstacles before chemotherapy treatment such as: surgery and side-effects of anesthesia, increased cytokine activity, stress of a new disease diagnosis and upcoming challenges, and emotional burdens such as depression and anxiety. Many of these factors have independently been shown to affect cognitive abilities in both healthy populations as well as other patient groups. Therefore, the pre-treatment (or baseline) BC patient status warrants systematic study. This would then reduce mistakenly attributing carried-over cognitive deficits to side effects of chemotherapy. As well, it is possible that certain confounding variables may have neural manifestations at baseline that could be exacerbated by chemotherapy agents. The following thesis first presents a review paper which critically describes the current literature examining chemotherapy-related cognitive impairments (CRCIs), as well as possible confound variables affecting this population. Subsequently, three original research papers present pre-chemotherapy data showing significant neuroanatomical and neurofunctional differences in BC patients compared to controls. In particular, these neural differences are present in brain regions that have been reported in post-chemotherapy papers. This, as well as the effects of variables such as the number of days since surgery, depression and anxiety scores and more, support the initiative that research attention should increase focus on these patients at baseline in order to better understand their post-chemotherapy results.

Cognitive impairment

magnetic resonance imaging (MRI)

pre-treatment effects

breast cancer

chemotherapy

chemofog

chemobrain

surgery

neuropsychology

working memory

response inhibition

voxel-based morphometry (VBM)

cortisol

What Happens Before Chemotherapy?! Neuro-anatomical and -functional MRI Investigations of the Pre-chemotherapy Breast Cancer Brain.

Scherling, Carole Susan

17 November 2011

The side-effects of chemotherapy treatment are an increasingly important research focus as more cancer patients are reaching survivorship. While treatment allows for survival, it can also lead to problems which can significantly affect quality of life. Cognitive impairments after chemotherapy treatment are one such factor. First presented as anecdotal patient reports, over the last decade empirical evidence for this cognitive concern has been obtained. Much attention has been focused on post-chemotherapy research, yet little attention has been granted to these same patients’ cognition before treatment commences. Breast cancer (BC) patients face many obstacles before chemotherapy treatment such as: surgery and side-effects of anesthesia, increased cytokine activity, stress of a new disease diagnosis and upcoming challenges, and emotional burdens such as depression and anxiety. Many of these factors have independently been shown to affect cognitive abilities in both healthy populations as well as other patient groups. Therefore, the pre-treatment (or baseline) BC patient status warrants systematic study. This would then reduce mistakenly attributing carried-over cognitive deficits to side effects of chemotherapy. As well, it is possible that certain confounding variables may have neural manifestations at baseline that could be exacerbated by chemotherapy agents. The following thesis first presents a review paper which critically describes the current literature examining chemotherapy-related cognitive impairments (CRCIs), as well as possible confound variables affecting this population. Subsequently, three original research papers present pre-chemotherapy data showing significant neuroanatomical and neurofunctional differences in BC patients compared to controls. In particular, these neural differences are present in brain regions that have been reported in post-chemotherapy papers. This, as well as the effects of variables such as the number of days since surgery, depression and anxiety scores and more, support the initiative that research attention should increase focus on these patients at baseline in order to better understand their post-chemotherapy results.

Cognitive impairment

magnetic resonance imaging (MRI)

pre-treatment effects

breast cancer

chemotherapy

chemofog

chemobrain

surgery

neuropsychology

working memory

response inhibition

voxel-based morphometry (VBM)

cortisol

What Happens Before Chemotherapy?! Neuro-anatomical and -functional MRI Investigations of the Pre-chemotherapy Breast Cancer Brain.

Scherling, Carole Susan

January 2011

The side-effects of chemotherapy treatment are an increasingly important research focus as more cancer patients are reaching survivorship. While treatment allows for survival, it can also lead to problems which can significantly affect quality of life. Cognitive impairments after chemotherapy treatment are one such factor. First presented as anecdotal patient reports, over the last decade empirical evidence for this cognitive concern has been obtained. Much attention has been focused on post-chemotherapy research, yet little attention has been granted to these same patients’ cognition before treatment commences. Breast cancer (BC) patients face many obstacles before chemotherapy treatment such as: surgery and side-effects of anesthesia, increased cytokine activity, stress of a new disease diagnosis and upcoming challenges, and emotional burdens such as depression and anxiety. Many of these factors have independently been shown to affect cognitive abilities in both healthy populations as well as other patient groups. Therefore, the pre-treatment (or baseline) BC patient status warrants systematic study. This would then reduce mistakenly attributing carried-over cognitive deficits to side effects of chemotherapy. As well, it is possible that certain confounding variables may have neural manifestations at baseline that could be exacerbated by chemotherapy agents. The following thesis first presents a review paper which critically describes the current literature examining chemotherapy-related cognitive impairments (CRCIs), as well as possible confound variables affecting this population. Subsequently, three original research papers present pre-chemotherapy data showing significant neuroanatomical and neurofunctional differences in BC patients compared to controls. In particular, these neural differences are present in brain regions that have been reported in post-chemotherapy papers. This, as well as the effects of variables such as the number of days since surgery, depression and anxiety scores and more, support the initiative that research attention should increase focus on these patients at baseline in order to better understand their post-chemotherapy results.

Cognitive impairment

magnetic resonance imaging (MRI)

pre-treatment effects

breast cancer

chemotherapy

chemofog

chemobrain

surgery

neuropsychology

working memory

response inhibition

voxel-based morphometry (VBM)

cortisol

A comparative study on the neurophysiological mechanisms underlying effects of methylphenidate and neurofeedback on inhibitory control in attention deficit hyperactivity disorder

Bluschke, Annet, Friedrich, Julia, Schreiter, Marie Luise, Roessner, Veit, Beste, Christian

28 December 2018

In Attention Deficit Hyperactivity Disorder (AD(H)D), treatments using methylphenidate (MPH) and behavioralinterventions like neurofeedback (NF) reflect major therapeutic options. These treatments also ameliorate ex-ecutive dysfunctions in AD(H)D. However, the mechanisms underlying effects of MPH and NF on executivefunctions in AD(H)D (e.g. the ability to inhibit prepotent responses) are far from understood. It is particularlyunclear whether these interventions affect similar or dissociable neural mechanisms and associated functionalneuroanatomical structures. This, however, is important when aiming to further improve these treatments. Wecompared the neurophysiological mechanisms of MPH and theta/beta NF treatments on inhibitory control on the basis of EEG recordings and source localization analyses. The data show that MPH and theta/beta NF bothincrease the ability to inhibit pre-potent responses to a similar extent. However, the data suggest that MPH andNF target different neurophysiological mechanisms, especially when it comes to functional neuroanatomicalstructures associated with these effects. Both treatments seem to affect neurophysiological correlates of a‘braking function’ in medial frontal areas. However, in case of the NF intervention, inferior parietal areas are alsoinvolved. This likely reflects the updating and stabilisation of efficient internal representations in order to in-itiate appropriate actions. No effects were seen in correlates of perceptual and attentional selection processes.Notably, reliable effects were only obtained after accounting for intra-individual variability in the neurophy-siological data, which may also explain the diversity of findings in studies on treatment effects in AD(H)D,especially concerning neurofeedback.

info:eu-repo/classification/ddc/610

ddc:610

Les liens entre l’impulsivité et la coercition sexuelle : les apports d’un modèle multidimensionnel et de tâches comportementales

Carrier Emond, Fannie

09 1900

No description available.

Coercition sexuelle

Impulsivité

UPPS-P

Prise de décision

Inhibition de la réponse automatique

Tâche du signal-stop

Spécificité au domaine

Psychologie clinique

Sexual coercion

Impulsivity

Response inhibition

Delay discounting

Stop-signal task

Domain-specificity

Clinical psychology

Perception-action integration during inhibitory control is reflected in a concomitant multi-region processing of specific codes in the neurophysiological signal

Gholamipourbarogh, Negin, Prochnow, Astrid, Frings, Christian, Münchau, Alexander, Mückschel, Moritz, Beste, Christian

04 April 2024

The integration of perception and action has long been studied in psychological science using overarching cognitive frameworks. Despite these being very successful in explaining perception-action integration, little is known about its neurophysiological and especially the functional neuroanatomical foundations. It is unknown whether distinct brain structures are simultaneously involved in the processing of perception-action integration codes and also to what extent demands on perception-action integration modulate activities in these structures. We investigate these questions in an EEG study integrating temporal and ICA-based EEG signal decomposition with source localization. For this purpose, we used data from 32 healthy participants who performed a ‘TEC Go/Nogo’ task. We show that the EEG signal can be decomposed into components carrying different informational aspects or processing codes relevant for perception-action integration. Importantly, these specific codes are processed independently in different brain structures, and their specific roles during the processing of perception-action integration differ. Some regions (i.e., the anterior cingulate and insular cortex) take a ‘default role’ because these are not modulated in their activity by demands or the complexity of event file coding processes. In contrast, regions in the motor cortex, middle frontal, temporal, and superior parietal cortices were not activated by ‘default’ but revealed modulations depending on the complexity of perception-action integration (i.e., whether an event file has to be reconfigured). Perception-action integration thus reflects a multi-region processing of specific fractions of information in the neurophysiological signal. This needs to be taken into account when further developing a cognitive science framework detailing perception-action integration.

info:eu-repo/classification/ddc/150

ddc:150

info:eu-repo/classification/ddc/610

ddc:610