Your search keyword '"Ter Minassian A"' showing total 7 results

1. Specific age-correlated activation of top hierarchical motor control areas during gait-like plantar stimulation: An fMRI study

Author

Henry, Jeanvoine, Matthieu, Labriffe, Thomas, Tannou, Nastassia, Navasiolava, Aram, Ter Minassian, Jean-Baptiste, Girot, Louis-Marie, Leiber, Marc-Antoine, Custaud, Cédric, Annweiler, and Mickaël, Dinomais

Subjects

Adult, Male, Brain Mapping, Aging, brain, Putamen, Prefrontal Cortex, Forefoot, Human, functional neuroimaging, Middle Aged, Globus Pallidus, gait, Magnetic Resonance Imaging, functional magnetic resonance imaging, Young Adult, Thalamus, motor cortex, Physical Stimulation, Humans, Female, human activities, Research Articles, Research Article, Aged, Visual Cortex

Abstract

A better understanding of gait disorders that are associated with aging is crucial to prevent adverse outcomes. The functional study of gait remains a thorny issue due to technical constraints inherent to neuroimaging procedures, as most of them require to stay supine and motionless. Using an MRI‐compatible system of boots reproducing gait‐like plantar stimulation, we investigated the correlation between age and brain fMRI activation during simulated gait in healthy adults. Sixty‐seven right‐handed healthy volunteers aged between 20 and 77 years old (49.2 ± 18.0 years; 35 women) were recruited. Two paradigms were assessed consecutively: (a) gait‐like plantar stimulation and (b) chaotic and not gait‐related plantar stimulation. Resulting statistical parametric maps were analyzed with a multiple‐factor regression that included age and a threshold determined by Monte‐Carlo simulation to fulfill a family‐wise error rate correction of p, Gait decline during normal aging is a key public health concern. This fMRI study addresses the question of brain activation evolution with advance in age in healthy adults. We highlight a gradual and specific overactivation of top hierarchical cortical motor control areas in simulated gait during advance in age. Our results support the theory of a progressive loss of automation of gait in older healthy adults.

Published

2021

2. Specific age‐correlated activation of top hierarchical motor control areas during gait‐like plantar stimulation: An fMRI study

Author

Jeanvoine, Henry, primary, Labriffe, Matthieu, additional, Tannou, Thomas, additional, Navasiolava, Nastassia, additional, Ter Minassian, Aram, additional, Girot, Jean‐Baptiste, additional, Leiber, Louis‐Marie, additional, Custaud, Marc‐Antoine, additional, Annweiler, Cédric, additional, and Dinomais, Mickaël, additional

Published

2021

3. Dissociating anticipation from perception: Acute pain activates default mode networκ

Author

Ter Minassian, Aram, Ricalens, Emmanuel, Humbert, Stanislas, Duc, Flavie, Aubé, Christophe, and Beydon, Laurent

Published

2013

4. Specific age‐correlated activation of top hierarchical motor control areas during gait‐like plantar stimulation: An fMRI study.

Author

Jeanvoine, Henry, Labriffe, Matthieu, Tannou, Thomas, Navasiolava, Nastassia, Ter Minassian, Aram, Girot, Jean‐Baptiste, Leiber, Louis‐Marie, Custaud, Marc‐Antoine, Annweiler, Cédric, and Dinomais, Mickaël

Subjects

FUNCTIONAL magnetic resonance imaging, OLDER people, GAIT disorders, MONTE Carlo method, PREFRONTAL cortex

Abstract

A better understanding of gait disorders that are associated with aging is crucial to prevent adverse outcomes. The functional study of gait remains a thorny issue due to technical constraints inherent to neuroimaging procedures, as most of them require to stay supine and motionless. Using an MRI‐compatible system of boots reproducing gait‐like plantar stimulation, we investigated the correlation between age and brain fMRI activation during simulated gait in healthy adults. Sixty‐seven right‐handed healthy volunteers aged between 20 and 77 years old (49.2 ± 18.0 years; 35 women) were recruited. Two paradigms were assessed consecutively: (a) gait‐like plantar stimulation and (b) chaotic and not gait‐related plantar stimulation. Resulting statistical parametric maps were analyzed with a multiple‐factor regression that included age and a threshold determined by Monte‐Carlo simulation to fulfill a family‐wise error rate correction of p <.05. In the first paradigm, there was an age‐correlated activation of the right pallidum, thalamus and putamen. The second paradigm showed an age‐correlated deactivation of both primary visual areas (V1). The subtraction between results of the first and second paradigms showed age‐correlated activation of the right presupplementary motor area (Brodmann Area [BA] 6) and right mid‐dorsolateral prefrontal cortex (BA9‐10). Our results show age‐correlated activity in areas that have been associated with the control of gait, highlighting the relevance of this simulation model for functional gait study. The specific progressive activation of top hierarchical control areas in simulated gait and advancing age corroborate a progressive loss of automation in healthy older adults. [ABSTRACT FROM AUTHOR]

Published

2022

5. Dissociating anticipation from perception: Acute pain activates default mode network

Author

Flavie Duc, Aram Ter Minassian, Laurent Beydon, Christophe Aubé, Stanislas Humbert, and Emmanuel Ricalens

Subjects

Fusiform gyrus, Radiological and Ultrasound Technology, medicine.diagnostic_test, media_common.quotation_subject, Chronic pain, medicine.disease, Anticipation, medicine.anatomical_structure, Neurology, Perception, medicine, Radiology, Nuclear Medicine and imaging, Neurology (clinical), Anatomy, Psychology, Functional magnetic resonance imaging, Neuroscience, Acute pain, Anterior cingulate cortex, Default mode network, media_common

Abstract

Few studies have explored the effect of acute pain on attentional networks and on the default mode network. Moreover, these studies convey conflicting results, seemingly caused by design. To reassess this issue, we studied 20 healthy subjects with functional magnetic resonance imaging while delivering painful electric shocks. The design was purposely constructed to separate rest, anticipation, and pain perception. We found that default mode network activity in response to pain was biphasic. It deactivated during anticipation when the dorsal attentional network was activated. During pain perception, the default mode network was activated, as were attentional networks. The left posterior fusiform gyrus showed the same dynamics as the default mode network, and its activity was negatively correlated to the subject's pain intensity rating. The associative pregenual anterior cingulate cortex seemed to play a key role in these coactivations. These results concur with data from the literature showing that enhanced pain perception results in greater default mode network activity and that the anticorrelation between the default mode network and the dorsal attentional network disappears in chronic pain patients.

Published

2012

6. Dissociating anticipation from perception: Acute pain activates default mode network

Author

Aram, Ter Minassian, Emmanuel, Ricalens, Stanislas, Humbert, Flavie, Duc, Christophe, Aubé, and Laurent, Beydon

Subjects

Adult, Male, Brain Mapping, Rest, Pain Perception, Middle Aged, Anticipation, Psychological, Gyrus Cinguli, Magnetic Resonance Imaging, Electric Stimulation, Neural Pathways, Image Processing, Computer-Assisted, Humans, Attention, Female, Research Articles

Abstract

Few studies have explored the effect of acute pain on attentional networks and on the default mode network. Moreover, these studies convey conflicting results, seemingly caused by design. To reassess this issue, we studied 20 healthy subjects with functional magnetic resonance imaging while delivering painful electric shocks. The design was purposely constructed to separate rest, anticipation, and pain perception. We found that default mode network activity in response to pain was biphasic. It deactivated during anticipation when the dorsal attentional network was activated. During pain perception, the default mode network was activated, as were attentional networks. The left posterior fusiform gyrus showed the same dynamics as the default mode network, and its activity was negatively correlated to the subject's pain intensity rating. The associative pregenual anterior cingulate cortex seemed to play a key role in these coactivations. These results concur with data from the literature showing that enhanced pain perception results in greater default mode network activity and that the anticorrelation between the default mode network and the dorsal attentional network disappears in chronic pain patients. Hum Brain Mapp 34:2228–2243, 2013. © 2012 Wiley Periodicals, Inc.

Published

2011

7. Dissociating anticipation from perception: Acute pain activates default mode network

Author

Ter Minassian, Aram, primary, Ricalens, Emmanuel, additional, Humbert, Stanislas, additional, Duc, Flavie, additional, Aubé, Christophe, additional, and Beydon, Laurent, additional

Published

2012