Your search keyword '"Pilgramm S"' showing total 23 results

1. The Influence of Perspective and Motor Expertise during Observation of Dance Videos

Author

Pilgramm, S, Lorey, B, Stark, R, Munzert, J, and Zentgraf, K

Published

2009

2. The role of own body-representations in action observation

Author

Lorey, B., Pilgramm, S., Zentgraf, K., Stark, R., and Munzert, J.

Published

2009

3. Modulation of Pain Response During Viewing Erotic Pictures

Author

Walter, B, Borghardt, A, Blecker, C, Brzezina, L, de Haas, B, Firker, A, Hilber, K, Pilgramm, S, Schienle, A, Stark, R, and Vaitl, D

Published

2009

4. Neural correlations of imagery and observation of body movements: The influence of a first- and a third-person perspective

Author

Stark, R., primary, Pilgramm, S., additional, Lorey, B., additional, Zentgraf, K., additional, Munzert, J., additional, and Vaitl, D., additional

Published

2008

5. Differential activation of the lateral premotor cortex during action observation

Author

Stark Rudolf, Lorey Britta, Pilgramm Sebastian, Munzert Jörn, Vaitl Dieter, and Zentgraf Karen

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495

Abstract

Abstract Background Action observation leads to neural activation of the human premotor cortex. This study examined how the level of motor expertise (expert vs. novice) in ballroom dancing and the visual viewpoint (internal vs. external viewpoint) influence this activation within different parts of this area of the brain. Results Sixteen dance experts and 16 novices observed ballroom dance videos from internal or external viewpoints while lying in a functional magnetic resonance imaging scanner. A conjunction analysis of all observation conditions showed that action observation activated distinct networks of premotor, parietal, and cerebellar structures. Experts revealed increased activation in the ventral premotor cortex compared to novices. An internal viewpoint led to higher activation of the dorsal premotor cortex. Conclusions The present results suggest that the ventral and dorsal premotor cortex adopt differential roles during action observation depending on the level of motor expertise and the viewpoint.

Published

2010

6. Perceived Intensity of Emotional Point-Light Displays is Reduced in Subjects with ASD.

Author

Krüger B, Kaletsch M, Pilgramm S, Schwippert SS, Hennig J, Stark R, Lis S, Gallhofer B, Sammer G, Zentgraf K, and Munzert J

Subjects

Adult, Autism Spectrum Disorder diagnosis, Biomechanical Phenomena, Female, Humans, Male, Movement physiology, Perception physiology, Video Recording methods, Young Adult, Autism Spectrum Disorder psychology, Emotions physiology, Interpersonal Relations, Photic Stimulation methods, Visual Perception physiology

Abstract

One major characteristic of autism spectrum disorder (ASD) is problems with social interaction and communication. The present study explored ASD-related alterations in perceiving emotions expressed via body movements. 16 participants with ASD and 16 healthy controls observed video scenes of human interactions conveyed by point-light displays. They rated the valence of the depicted emotions in terms of their intensity and judged their confidence in their ratings. Results showed that healthy participants rated emotional interactions displaying positive emotionality as being more intense and were more confident about their ratings than ASD subjects. Results support the idea that patients with ASD have an altered perception of emotions. This extends research on subjective features (intensity, confidence) of emotion perception to the domain of emotional body movements and kinematics.

Published

2018

7. Motor imagery of hand actions: Decoding the content of motor imagery from brain activity in frontal and parietal motor areas.

Author

Pilgramm S, de Haas B, Helm F, Zentgraf K, Stark R, Munzert J, and Krüger B

Subjects

Adult, Area Under Curve, Electromyography, Evoked Potentials, Motor physiology, Female, Frontal Lobe blood supply, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Oxygen blood, Parietal Lobe blood supply, Photic Stimulation, Young Adult, Brain Mapping, Frontal Lobe physiology, Hand, Imagination physiology, Movement physiology, Parietal Lobe physiology

Abstract

How motor maps are organized while imagining actions is an intensely debated issue. It is particularly unclear whether motor imagery relies on action-specific representations in premotor and posterior parietal cortices. This study tackled this issue by attempting to decode the content of motor imagery from spatial patterns of Blood Oxygen Level Dependent (BOLD) signals recorded in the frontoparietal motor imagery network. During fMRI-scanning, 20 right-handed volunteers worked on three experimental conditions and one baseline condition. In the experimental conditions, they had to imagine three different types of right-hand actions: an aiming movement, an extension-flexion movement, and a squeezing movement. The identity of imagined actions was decoded from the spatial patterns of BOLD signals they evoked in premotor and posterior parietal cortices using multivoxel pattern analysis. Results showed that the content of motor imagery (i.e., the action type) could be decoded significantly above chance level from the spatial patterns of BOLD signals in both frontal (PMC, M1) and parietal areas (SPL, IPL, IPS). An exploratory searchlight analysis revealed significant clusters motor- and motor-associated cortices, as well as in visual cortices. Hence, the data provide evidence that patterns of activity within premotor and posterior parietal cortex vary systematically with the specific type of hand action being imagined., (© 2015 The Authors. Human Brain Mapping Published by Wiley Periodicals, Inc.)

Published

2016

8. Anticipating action effects with different attention foci is reflected in brain activation.

Author

Bischoff M, Zentgraf K, Pilgramm S, Krueger B, Balser N, Sauerbier I, Stark R, and Munzert J

Subjects

Adult, Female, Humans, Magnetic Resonance Imaging, Male, Young Adult, Anticipation, Psychological physiology, Attention physiology, Cerebral Cortex physiology, Motor Activity physiology, Psychomotor Performance physiology

Abstract

Anticipation is informed by experience. Having focused on action effects in the past will lead to differences when the focus is now on the effector. Boules-type throwing movements were presented as point-light displays of shoulder and arm-markers. Activation in motor-related areas measured with functional magnetic resonance imaging was compared between two tasks: Task A anticipating action effects and Task B judging the velocity of the hand marker. One group of participants performed a session of Task A followed by a session of Task B; the other group started with Task B followed by Task A. The group starting with Task A exhibited higher brain activation during Task A bilaterally in intraparietal areas and in right hemispheric frontal and premotor areas. These areas are known to be involved in effect estimation and action simulation. The second group showed higher activation during Task B in premotor cortex and human intraparietal area 3 of the right hemisphere. The results suggest that the instruction to focus on anticipating action effects facilitates the recruitment of core components of the simulation network during anticipation and when effect anticipation is not the primary intention.

Published

2015

9. Anticipating action effects recruits audiovisual movement representations in the ventral premotor cortex.

Author

Bischoff M, Zentgraf K, Pilgramm S, Stark R, Krüger B, and Munzert J

Abstract

When table tennis players anticipate the course of the ball while preparing their motor responses, they not only observe their opponents striking the ball but also listen to events such as the sound of racket-ball contact. Because visual stimuli can be detected more easily when accompanied by a sound, we assumed that complementary sensory audiovisual information would influence the anticipation of biological motion, especially when the racket-ball contact is not presented visually, but has to be inferred from continuous movement kinematics and an abrupt sound. Twenty-six observers were examined with fMRI while watching point-light displays (PLDs) of an opposing table tennis player. Their task was to anticipate the resultant ball flight. The sound was presented complementary to the veracious event or at a deviant time point in its kinematics. Results showed that participants performed best in the complementary condition. Using a region-of-interest approach, fMRI data showed that complementary audiovisual stimulation elicited higher activation in the left temporo-occipital middle temporal gyrus (MTGto), the left primary motor cortex, and the right anterior intraparietal sulcus (aIPS). Both hemispheres also revealed higher activation in the ventral premotor cortex (vPMC) and the pars opercularis of the inferior frontal gyrus (BA 44). Ranking the behavioral effect of complementary versus conflicting audiovisual information over participants revealed an association between the complementary information and higher activation in the right vPMC. We conclude that the recruitment of movement representations in the auditory and visual modalities in the vPMC can be influenced by task-relevant cross-modal audiovisual interaction., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

10. Borderline personality disorder is associated with lower confidence in perception of emotional body movements.

Author

Kaletsch M, Krüger B, Pilgramm S, Stark R, Lis S, Gallhofer B, Zentgraf K, Munzert J, and Sammer G

Abstract

Much recent research has shown that personality disorders are associated with an altered emotion perception. Whereas most of this research was conducted with stimuli such as faces, the present study examined possible differences in the perception of emotions expressed via body language and body movements. 30 patients with borderline personality disorder (BPD) and 30 non-patients observed video scenes of emotional human interactions conveyed by point-light displays, rated the depicted valence, and judged their confidence in this rating. Patients with BPD showed no altered emotion perception (i.e., no biased perception in either a negative or a positive direction). They did not perceive and evaluate depicted emotions as being more extreme than healthy controls. However, patients with BPD showed less confidence in their perception of depicted emotions, especially when these were difficult to identify. The findings extend insights on altered emotion perception in persons with BPD to include the field of body movements.

Published

2014

11. Parietal and premotor cortices: activation reflects imitation accuracy during observation, delayed imitation and concurrent imitation.

Author

Krüger B, Bischoff M, Blecker C, Langhanns C, Kindermann S, Sauerbier I, Reiser M, Stark R, Munzert J, and Pilgramm S

Subjects

Adult, Female, Humans, Magnetic Resonance Imaging, Male, Young Adult, Functional Neuroimaging methods, Imitative Behavior physiology, Motion Perception physiology, Motor Activity physiology, Motor Cortex physiology, Parietal Lobe physiology

Abstract

This study investigated whether activation within areas belonging to the action observation and imitation network reveals a linear relation to the subsequent accuracy of imitating a bimanual rhythmic movement measured via a motion capturing system. 20 participants were scanned with functional magnetic resonance imaging (fMRI) when asked to imitate observed bimanual movements either concurrently versus with a delay (2s) or simply to observe the movements without imitation. Results showed that action observation relates to activation within classic mirror-related areas. Activation patterns were more widespread when participants were asked to imitate the movement. During observation with concurrent imitation, activation in the left inferior parietal lobe (IPL) was associated negatively with imitation accuracy. During observation in the delayed imitation condition, higher subsequent imitation accuracy was coupled with higher activation in the right superior parietal lobe (SPL) and the left parietal operculum (POp). During the delayed imitation itself, a negative association between imitation accuracy and brain activation was revealed in the right ventral premotor cortex (vPMC). We conclude that the IPL is involved in online comparison and visuospatial attention processes during imitation, the SPL provides a kinesthetic blueprint during movement observation, the POp preserves body identity, and the vPMC recruits motor representations--especially when no concurrent visual guidance is possible., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

12. Prediction of human actions: expertise and task-related effects on neural activation of the action observation network.

Author

Balser N, Lorey B, Pilgramm S, Stark R, Bischoff M, Zentgraf K, Williams AM, and Munzert J

Subjects

Adult, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Neural Pathways physiology, Photic Stimulation, Professional Competence, Space Perception physiology, Video Recording, Young Adult, Anticipation, Psychological physiology, Athletes, Brain physiology, Motion Perception physiology, Motor Skills physiology, Tennis

Abstract

The action observation network (AON) is supposed to play a crucial role when athletes anticipate the effect of others' actions in sports such as tennis. We used functional magnetic resonance imaging to explore whether motor expertise leads to a differential activation pattern within the AON during effect anticipation and whether spatial and motor anticipation tasks are associated with a differential activation pattern within the AON depending on participant expertise level. Expert (N=16) and novice (N=16) tennis players observed video clips depicting forehand strokes with the instruction to either indicate the predicted direction of ball flight (spatial anticipation) or to decide on an appropriate response to the observed action (motor anticipation). The experts performed better than novices on both tennis anticipation tasks, with the experts showing stronger neural activation in areas of the AON, namely, the superior parietal lobe, the intraparietal sulcus, the inferior frontal gyrus, and the cerebellum. When novices were contrasted with experts, motor anticipation resulted in stronger activation of the ventral premotor cortex, the supplementary motor area, and the superior parietal lobe than spatial anticipation task did. In experts, the comparison of motor and spatial anticipation revealed no increased activation. We suggest that the stronger activation of areas in the AON during the anticipation of action effects in experts reflects their use of the more fine-tuned motor representations they have acquired and improved during years of training. Furthermore, results suggest that the neural processing of different anticipation tasks depends on the expertise level., (Copyright © 2014 Wiley Periodicals, Inc.)

Published

2014

13. The influence of expertise on brain activation of the action observation network during anticipation of tennis and volleyball serves.

Author

Balser N, Lorey B, Pilgramm S, Naumann T, Kindermann S, Stark R, Zentgraf K, Williams AM, and Munzert J

Abstract

In many daily activities, and especially in sport, it is necessary to predict the effects of others' actions in order to initiate appropriate responses. Recently, researchers have suggested that the action-observation network (AON) including the cerebellum plays an essential role during such anticipation, particularly in sport expert performers. In the present study, we examined the influence of task-specific expertise on the AON by investigating differences between two expert groups trained in different sports while anticipating action effects. Altogether, 15 tennis and 16 volleyball experts anticipated the direction of observed tennis and volleyball serves while undergoing functional magnetic resonance imaging (fMRI). The expert group in each sport acted as novice controls in the other sport with which they had only little experience. When contrasting anticipation in both expertise conditions with the corresponding untrained sport, a stronger activation of AON areas (SPL, SMA), and particularly of cerebellar structures, was observed. Furthermore, the neural activation within the cerebellum and the SPL was linearly correlated with participant's anticipation performance, irrespective of the specific expertise. For the SPL, this relationship also holds when an expert performs a domain-specific anticipation task. Notably, the stronger activation of the cerebellum as well as of the SMA and the SPL in the expertise conditions suggests that experts rely on their more fine-tuned perceptual-motor representations that have improved during years of training when anticipating the effects of others' actions in their preferred sport. The association of activation within the SPL and the cerebellum with the task achievement suggests that these areas are the predominant brain sites involved in fast motor predictions. The SPL reflects the processing of domain-specific contextual information and the cerebellum the usage of a predictive internal model to solve the anticipation task.

Published

2014

14. Neural simulation of actions: effector- versus action-specific motor maps within the human premotor and posterior parietal area?

Author

Lorey B, Naumann T, Pilgramm S, Petermann C, Bischoff M, Zentgraf K, Stark R, Vaitl D, and Munzert J

Subjects

Adult, Brain Mapping, Electromyography, Female, Foot physiology, Functional Laterality, Goals, Hand physiology, Humans, Magnetic Resonance Imaging, Male, Neuropsychological Tests, Photic Stimulation, Frontal Lobe physiology, Imagination physiology, Motor Activity physiology, Parietal Lobe physiology, Visual Perception physiology

Abstract

This study addresses the controversy over how motor maps are organized during action simulation by examining whether action simulation states, that is, motor imagery and action observation, run on either effector-specific and/or action-specific motor maps. Subjects had to observe or imagine three types of movements effected by the right hand or the right foot with different action goals. The functional magnetic resonance imaging results showed an action-specific organization within premotor and posterior parietal areas of both hemispheres during action simulation, especially during action observation. There were also less pronounced effector-specific activation sites during both simulation processes. It is concluded that the premotor and parietal areas contain multiple motor maps rather than a single, continuous map of the body. The forms of simulation (observation, imagery), the task contexts (movements related to an object, with usual/unusual effector), and the underlying reason for performing the simulation (rate your subjective success afterwards) lead to the specific use of different representational motor maps within both regions. In our experimental setting, action-specific maps are dominant especially, during action observation, whereas effector-specific maps are recruited to only a lesser degree., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2014

15. Major depressive disorder alters perception of emotional body movements.

Author

Kaletsch M, Pilgramm S, Bischoff M, Kindermann S, Sauerbier I, Stark R, Lis S, Gallhofer B, Sammer G, Zentgraf K, Munzert J, and Lorey B

Abstract

Much recent research has shown an association between mood disorders and an altered emotion perception. However, these studies were conducted mainly with stimuli such as faces. This is the first study to examine possible differences in how people with major depressive disorder (MDD) and healthy controls perceive emotions expressed via body movements. Thirty patients with MDD and thirty healthy controls observed the video scenes of human interactions conveyed by point-light displays (PLDs). They rated the depicted emotions and judged their confidence in their rating. Results showed that patients with MDD rated the depicted interactions more negatively than healthy controls. They also rated interactions with negative emotionality as being more intense and were more confident in their ratings. It is concluded that patients with MDD exhibit an altered emotion perception compared to healthy controls when rating emotions expressed via body movements depicted in PLDs.

Published

2014

16. How equivalent are the action execution, imagery, and observation of intransitive movements? Revisiting the concept of somatotopy during action simulation.

Author

Lorey B, Naumann T, Pilgramm S, Petermann C, Bischoff M, Zentgraf K, Stark R, Vaitl D, and Munzert J

Subjects

Adult, Brain Mapping methods, Female, Foot physiology, Hand physiology, Humans, Magnetic Resonance Imaging methods, Male, Young Adult, Imagery, Psychotherapy methods, Motor Cortex physiology, Movement physiology, Psychomotor Performance physiology

Abstract

Jeannerod (2001) hypothesized that action execution, imagery, and observation are functionally equivalent. This led to the major prediction that these motor states are based on the same action-specific and even effector-specific motor representations. The present study examined whether hand and foot movements are represented in a somatotopic manner during action execution, imagery, and action observation. The experiment contained ten conditions: three execution conditions, three imagery conditions, three observation conditions, and one baseline condition. In the nine experimental conditions, participants had to execute, observe, or imagine right-hand extension/flexion movements or right-foot extension/flexion movements. The fMRI results showed a somatotopic organization within the contralateral premotor and primary motor cortex during motor imagery and motor execution. However, there was no clear somatotopic organization of action observation in the given regions of interest within the contralateral hemisphere, although observation of these movements activated these areas significantly., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

17. Motor familiarity: brain activation when watching kinematic displays of one's own movements.

Author

Bischoff M, Zentgraf K, Lorey B, Pilgramm S, Balser N, Baumgartner E, Hohmann T, Stark R, Vaitl D, and Munzert J

Subjects

Biomechanical Phenomena, Brain Mapping, Female, Functional Neuroimaging, Humans, Magnetic Resonance Imaging, Male, Young Adult, Frontal Lobe physiology, Motion Perception physiology, Movement, Parietal Lobe physiology, Recognition, Psychology physiology, Visual Perception physiology

Abstract

The perception of action is influenced by the observer's familiarity with its movement. However, how does motor familiarity with own movement patterns modulate the visual perception of action effects? Cortical activation was examined with fMRI while 20 observers were watching videotaped point-light displays of markers on the shoulders, the right elbow, and wrist of an opposing table tennis player. The racket and ball were not displayed. Participants were asked to predict the invisible effect of the stroke, that is, the ball flight direction. Different table tennis models were used without the observers knowing and being informed in advance that some of the presented videos displayed their own movements from earlier training sessions. Prediction had to be made irrespective of the identity of the player represented by the four moving markers. Results showed that participants performed better when observing their "own" strokes. Using a region-of-interest approach, fMRI data showed that observing own videos was accompanied by stronger activation (compared to other videos) in the left angular gyrus of the inferior parietal lobe and the anterior rostral medial frontal cortex. Other videos elicited stronger activation than own videos in the left intraparietal sulcus and right supramarginal gyrus. We suggest that during action observation of motorically familiar movements, the compatibility between the observed action and the observers' motor representation is already coded in the parietal angular gyrus--in addition to the paracingulate gyrus. The activation in angular gyrus is presumably part of an action-specific effect retrieval that accompanies actor-specific prefrontal processing. The intraparietal sulcus seems to be sensitive to incongruence between observed kinematics and internal model representations, and this also influences processing in the supramarginal gyrus., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

18. Confidence in emotion perception in point-light displays varies with the ability to perceive own emotions.

Author

Lorey B, Kaletsch M, Pilgramm S, Bischoff M, Kindermann S, Sauerbier I, Stark R, Zentgraf K, and Munzert J

Subjects

Adult, Affective Symptoms physiopathology, Biomechanical Phenomena, Facial Expression, Female, Humans, Interpersonal Relations, Male, Personality physiology, Recognition, Psychology physiology, Emotions physiology, Neuropsychological Tests, Perception

Abstract

One central issue in social cognitive neuroscience is that perceiving emotions in others relates to activating the same emotion in oneself. In this study we sought to examine how the ability to perceive own emotions assessed with the Toronto Alexithymia Scale related to both the ability to perceive emotions depicted in point-light displays and the confidence in these perceptions. Participants observed video scenes of human interactions, rated the depicted valence, and judged their confidence in this rating. Results showed that people with higher alexithymia scores were significantly less confident about their decisions, but did not differ from people with lower alexithymia scores in the valence of their ratings. Furthermore, no modulating effect of social context on the effect of higher alexithymia scores was found. It is concluded that the used stimuli are fit to investigate the kinematic aspect of emotion perception and possibly separate people with high and low alexithymia scores via confidence differences. However, a general difference in emotion perception was not detected in the present setting.

Published

2012

19. Activation of the parieto-premotor network is associated with vivid motor imagery--a parametric FMRI study.

Author

Lorey B, Pilgramm S, Bischoff M, Stark R, Vaitl D, Kindermann S, Munzert J, and Zentgraf K

Subjects

Adult, Brain physiology, Brain Mapping, Female, Humans, Male, Young Adult, Imagination physiology, Magnetic Resonance Imaging methods, Motor Cortex physiology, Movement physiology

Abstract

The present study examined the neural basis of vivid motor imagery with parametrical functional magnetic resonance imaging. 22 participants performed motor imagery (MI) of six different right-hand movements that differed in terms of pointing accuracy needs and object involvement, i.e., either none, two big or two small squares had to be pointed at in alternation either with or without an object grasped with the fingers. After each imagery trial, they rated the perceived vividness of motor imagery on a 7-point scale. Results showed that increased perceived imagery vividness was parametrically associated with increasing neural activation within the left putamen, the left premotor cortex (PMC), the posterior parietal cortex of the left hemisphere, the left primary motor cortex, the left somatosensory cortex, and the left cerebellum. Within the right hemisphere, activation was found within the right cerebellum, the right putamen, and the right PMC. It is concluded that the perceived vividness of MI is parametrically associated with neural activity within sensorimotor areas. The results corroborate the hypothesis that MI is an outcome of neural computations based on movement representations located within motor areas.

Published

2011

20. Differential activation of the lateral premotor cortex during action observation.

Author

Pilgramm S, Lorey B, Stark R, Munzert J, Vaitl D, and Zentgraf K

Subjects

Adult, Analysis of Variance, Brain Mapping, Dancing physiology, Female, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Photic Stimulation, Recognition, Psychology physiology, Surveys and Questionnaires, Motion Perception physiology, Motor Cortex physiology, Movement physiology

Abstract

Background: Action observation leads to neural activation of the human premotor cortex. This study examined how the level of motor expertise (expert vs. novice) in ballroom dancing and the visual viewpoint (internal vs. external viewpoint) influence this activation within different parts of this area of the brain., Results: Sixteen dance experts and 16 novices observed ballroom dance videos from internal or external viewpoints while lying in a functional magnetic resonance imaging scanner. A conjunction analysis of all observation conditions showed that action observation activated distinct networks of premotor, parietal, and cerebellar structures. Experts revealed increased activation in the ventral premotor cortex compared to novices. An internal viewpoint led to higher activation of the dorsal premotor cortex., Conclusions: The present results suggest that the ventral and dorsal premotor cortex adopt differential roles during action observation depending on the level of motor expertise and the viewpoint.

Published

2010

21. Your mind's hand: motor imagery of pointing movements with different accuracy.

Author

Lorey B, Pilgramm S, Walter B, Stark R, Munzert J, and Zentgraf K

Subjects

Adult, Female, Humans, Male, Brain Mapping methods, Evoked Potentials, Motor physiology, Hand physiology, Imagination physiology, Magnetic Resonance Imaging methods, Motor Cortex physiology, Movement physiology, Task Performance and Analysis

Abstract

Jeannerod (2001) postulated that motor control and motor simulation states are functionally equivalent. If this is the case, the specifically relevant task parameters in online motor control should also be represented in motor imagery. We tested whether the different spatial accuracy demands of manual pointing movements are reflected on a neural level in motor imagery. During functional magnetic resonance imaging (fMRI) scanning, 23 participants imagined hand movements that differed systematically in terms of pointing accuracy needs (i.e., none, low, high). In a low-accuracy condition, two big squares were presented visually prior to the imagery phase. These squares had to be pointed at alternately on a mental level. In the high-accuracy condition, two little squares had to be hit. As expected on the basis of speed-accuracy trade-off principles, results showed that participants required more time when accuracy of the imagined movements increased. The fMRI results showed a stepwise increase in activation in the anterior cerebellum and the anterior part of the superior parietal lobe (SPL) with rising accuracy needs. Moreover, we found increased activation of the anterior part of the SPL and of the dorsal premotor cortex (dPMC) when imagery included a square (i.e., in the low- and high-accuracy conditions) compared to the no-square condition. These areas have also been discussed in relation to online motor control, suggesting that specific task parameters relevant in the domain of motor control are also coded in motor imagery. We suggest that the functional equivalence of action states is due mostly to internal estimations of the expected sensory feedback in both motor control and motor imagery., (Copyright 2009 Elsevier Inc. All rights reserved.)

Published

2010

22. The role of own-body representations in action observation: a functional MRI study.

Author

Pilgramm S, Lorey B, Stark R, Munzert J, and Zentgraf K

Subjects

Brain Mapping, Female, Frontal Lobe physiology, Hand, Humans, Magnetic Resonance Imaging, Parietal Lobe physiology, Photic Stimulation, Posture, Prefrontal Cortex physiology, Young Adult, Body Image, Brain physiology, Imitative Behavior physiology, Psychomotor Performance physiology, Visual Perception physiology

Abstract

Does own-body information matter during the observation of another person? Using functional MRI, we sought to determine whether incompatibility between observed hand movements and the observer's hand posture leads to differential neural activation compared with compatibility. Twenty participants were asked to observe videos of human hand movements while their hand was placed in a compatible or an incompatible posture. Subsequently, they performed motor imagery of the observed movement. Conjunction analysis of both observation conditions revealed activation in the ventral premotor cortex and the inferior parietal cortex. Observing movements with incompatible hand position elicited higher activation in the left dorsolateral prefrontal cortex and the inferior parietal cortex of both hemispheres. These findings suggest a tight interplay between body representations and action observation.

Published

2009

23. The embodied nature of motor imagery: the influence of posture and perspective.

Author

Lorey B, Bischoff M, Pilgramm S, Stark R, Munzert J, and Zentgraf K

Subjects

Analysis of Variance, Brain Mapping, Electromyography, Female, Humans, Magnetic Resonance Imaging, Muscle, Skeletal physiology, Video Recording, Young Adult, Brain physiology, Hand, Imagination physiology, Posture, Proprioception physiology

Abstract

It is assumed that imagining oneself from a first-person perspective (1PP) is more embodied than a third-person perspective (3PP). Therefore, 1PP imagery should lead to more activity in motor and motor-related structures, and the postural configuration of one's own body should be particularly relevant in 1PP simulation. The present study investigated whether proprioceptive information on hand position is integrated similarly in 1PP and 3PP imagery of hand movements. During functional magnetic resonance imaging (fMRI) scanning, 20 right-handed female college students watched video sequences of different hand movements with their right hand in a compatible versus incompatible posture and subsequently performed 1PP or 3PP imagery of the movement. Results showed stronger activation in left hemisphere motor and motor-related structures, especially the inferior parietal lobe, on 1PP compared with 3PP trials. Activation in the left inferior parietal lobe (parietal operculum, SII) and the insula was stronger in 1PP trials with compatible compared with incompatible posture. Thus, proprioceptive information on actual body posture is more relevant for 1PP imagery processes. Results support the embodied nature of 1PP imagery and indicate possible applications in athletic training or rehabilitation.

Published

2009