Your search keyword '"Lepore F."' showing total 29 results

1. The functional characterization of callosal connections.

Author

Innocenti GM, Schmidt K, Milleret C, Fabri M, Knyazeva MG, Battaglia-Mayer A, Aboitiz F, Ptito M, Caleo M, Marzi CA, Barakovic M, Lepore F, and Caminiti R

Subjects

Animals, Brain, Humans, Neural Pathways physiology, Neurons, Axons physiology, Corpus Callosum physiology

Abstract

The brain operates through the synaptic interaction of distant neurons within flexible, often heterogeneous, distributed systems. Histological studies have detailed the connections between distant neurons, but their functional characterization deserves further exploration. Studies performed on the corpus callosum in animals and humans are unique in that they capitalize on results obtained from several neuroscience disciplines. Such data inspire a new interpretation of the function of callosal connections and delineate a novel road map, thus paving the way toward a general theory of cortico-cortical connectivity. Here we suggest that callosal axons can drive their post-synaptic targets preferentially when coupled to other inputs endowing the cortical network with a high degree of conditionality. This might depend on several factors, such as their pattern of convergence-divergence, the excitatory and inhibitory operation mode, the range of conduction velocities, the variety of homotopic and heterotopic projections and, finally, the state-dependency of their firing. We propose that, in addition to direct stimulation of post-synaptic targets, callosal axons often play a conditional driving or modulatory role, which depends on task contingencies, as documented by several recent studies., (Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2022

2. Altered functional activations of prefrontal brain areas during emotional processing of fear in Inuit adolescents exposed to environmental contaminants.

Author

Lamoureux-Tremblay V, Chauret M, Muckle G, Maheu F, Suffren S, Jacobson SW, Jacobson JL, Ayotte P, Lepore F, and Saint-Amour D

Subjects

Adolescent, Fear psychology, Functional Neuroimaging, Humans, Lead Poisoning, Nervous System, Childhood physiopathology, Lead Poisoning, Nervous System, Childhood psychology, Magnetic Resonance Imaging, Male, Mercury Poisoning, Nervous System physiopathology, Mercury Poisoning, Nervous System psychology, Prefrontal Cortex diagnostic imaging, Prefrontal Cortex drug effects, Young Adult, Emotions physiology, Environmental Exposure adverse effects, Environmental Pollutants adverse effects, Fear physiology, Inuit psychology, Prefrontal Cortex physiopathology

Abstract

Exposure to mercury, lead and polychlorinated biphenyls (PCBs) have been associated with emotional dysregulation, but their neuronal correlates have yet to be examined. Inuit from Nunavik (Northern Quebec, Canada) face internalizing problems and are among the most exposed individuals to these environmental contaminants in the world. The aim of this study was to examine the link between pre- and postnatal exposure to these contaminants and brain fear-circuitry in Inuit adolescents. Facial expression stimuli were presented to participants (mean age = 18.3 years) in a magnetic resonance imaging (MRI) scanner. Fear conditioning and extinction tasks included neutral faces as the conditioned threat and safety cues and a fearful face paired with a shrieking scream as the unconditioned stimulus. Functional MRI data were gathered at the conditioning phase (n = 71) and at the extinction phase (n = 62). Mercury, lead and PCB 153 concentrations were measured in blood samples at birth (cord blood) and at the time of the adolescent testing to estimate pre- and postnatal exposure, respectively. For each time point, exposures were categorized in tertiles (low, moderate and high exposed groups). Mixed analyses of variance were conducted for each contaminant of interest controlling for sex, age, socioeconomic status, drug/alcohol use, food insecurity and contaminant co-exposure. Results revealed greater differential activation during the conditioning phase in the right orbitofrontal cortex in participants with moderate and high concentrations of cord blood PCB 153 compared to those in the low exposure group. During the extinction phase, the high prenatal mercury exposed group showed a lower differential activation in the right and left anterior cingulate cortex compared to those in the low-exposed group; whereas there was a higher differential activation in right dorsolateral prefrontal cortex in the high postnatal lead exposed group compared to the moderate- and low-exposed groups. Our study is the first to show alterations in the prefrontal brain areas in fear conditioning and extinction tasks in relation to environmental contaminant exposures. The observed brain correlates may advance our understanding of the emotional problems associated with environmental chemical toxicity., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

3. Neuronal mechanisms of motion detection underlying blindsight assessed by functional magnetic resonance imaging (fMRI).

Author

Tran A, MacLean MW, Hadid V, Lazzouni L, Nguyen DK, Tremblay J, Dehaes M, and Lepore F

Subjects

Adult, Brain Mapping, Female, Hemianopsia diagnostic imaging, Hemianopsia psychology, Humans, Magnetic Resonance Imaging, Photic Stimulation, Psychomotor Performance, Reaction Time, Visual Cortex diagnostic imaging, Visual Cortex physiopathology, Visual Pathways diagnostic imaging, Visual Pathways physiopathology, Blindness diagnostic imaging, Blindness psychology, Motion Perception, Neurons

Abstract

Brain imaging offers a valuable tool to observe functional brain plasticity by showing how sensory inputs reshape cortical activations after a visual impairment. Following a unilateral post-chiasmatic lesion affecting the visual cortex, patients may suffer a contralateral visual loss referred to homonymous hemianopia. Nevertheless, these patients preserve the ability to unconsciously detect, localize and discriminate visual stimuli presented in their impaired visual field. To investigate this paradox, known as blindsight, we conducted a study using functional magnetic resonance imaging (fMRI) to evaluate the structural and functional impact of such lesion in a 33-year old patient (ML), who suffers a complete right hemianopia without macular sparing and showing strong evidences of blindsight. We thus performed whole brain and sliced thalamic fMRI scan sequences during an event-related motion detection task. We provided evidence of the neuronal fingerprint of blindsight by acquiring and associating neural correlates, specific structures and functional networks of the midbrain during blindsight performances which may help to better understand this condition. Accurate performance demonstrated the presence of residual vision and the ability to unconsciously perceive motion presented in the blind hemifield, although her reaction time was significantly higher in her blind-field. When the normal hemifield was stimulated, we observed significant contralateral activations in primary and secondary visual areas as well as motion specific areas, such as the supramarginal gyrus and middle temporal area. We also demonstrated sub-thalamic activations within the superior colliculi (SC) and the pulvinar. These results suggest a role of secondary subcortical structures in normal spontaneous motion detection. In a similar way, when the lesioned hemifield was stimulated, we observed contralateral activity in extrastriate areas with no activation of the primary lesioned visual cortex. Moreover, we observed activations within the SC when the blind hemifield was stimulated. However, we observed unexpected ipsilateral activations within the same motion specific areas, as well as bilateral frontal activations. These results highlight the importance of abnormal secondary pathways bypassing the primary visual area (V1) in residual vision. This reorganization in the structure and function of the visual pathways correlates with behavioral changes, thus offering a plausible explanation for the blindsight phenomenon. Our results may potentially impact the development of rehabilitation strategies to target subcortical pathways., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

4. Distinct hemispheric specializations for native and non-native languages in one-day-old newborns identified by fNIRS.

Author

Vannasing P, Florea O, González-Frankenberger B, Tremblay J, Paquette N, Safi D, Wallois F, Lepore F, Béland R, Lassonde M, and Gallagher A

Subjects

Acoustic Stimulation, Brain growth & development, Brain Mapping, Female, Humans, Infant, Newborn, Male, Neuropsychological Tests, Spectroscopy, Near-Infrared methods, Brain physiology, Functional Laterality, Multilingualism, Psycholinguistics, Speech Perception physiology

Abstract

This study assessed whether the neonatal brain recruits different neural networks for native and non-native languages at birth. Twenty-seven one-day-old full-term infants underwent functional near-infrared spectroscopy (fNIRS) recording during linguistic and non-linguistic stimulation. Fourteen newborns listened to linguistic stimuli (native and non-native language stories) and 13 newborns were exposed to non-linguistic conditions (native and non-native stimuli played in reverse). Comparisons between left and right hemisphere oxyhemoglobin (HbO2) concentration changes over the temporal areas revealed clear left hemisphere dominance for native language, whereas non-native stimuli were associated with right hemisphere lateralization. In addition, bilateral cerebral activation was found for non-linguistic stimulus processing. Overall, our findings indicate that from the first day after birth, native language and prosodic features are processed in parallel by distinct neural networks., (Copyright © 2016 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2016

5. Early electrophysiological markers of atypical language processing in prematurely born infants.

Author

Paquette N, Vannasing P, Tremblay J, Lefebvre F, Roy MS, McKerral M, Lepore F, Lassonde M, and Gallagher A

Subjects

Acoustic Stimulation, Age Factors, Auditory Perception, Brain Mapping, Child, Preschool, Electroencephalography, Humans, Infant, Neuropsychological Tests, Phonetics, Reaction Time physiology, Retention, Psychology physiology, Statistics, Nonparametric, Evoked Potentials, Auditory physiology, Infant, Premature physiology, Language, Language Development, Speech physiology

Abstract

Because nervous system development may be affected by prematurity, many prematurely born children present language or cognitive disorders at school age. The goal of this study is to investigate whether these impairments can be identified early in life using electrophysiological auditory event-related potentials (AERPs) and mismatch negativity (MMN). Brain responses to speech and non-speech stimuli were assessed in prematurely born children to identify early electrophysiological markers of language and cognitive impairments. Participants were 74 children (41 full-term, 33 preterm) aged 3, 12, and 36 months. Pre-attentional auditory responses (MMN and AERPs) were assessed using an oddball paradigm, with speech and non-speech stimuli presented in counterbalanced order between participants. Language and cognitive development were assessed using the Bayley Scale of Infant Development, Third Edition (BSID-III). Results show that preterms as young as 3 months old had delayed MMN response to speech stimuli compared to full-terms. A significant negative correlation was also found between MMN latency to speech sounds and the BSID-III expressive language subscale. However, no significant differences between full-terms and preterms were found for the MMN to non-speech stimuli, suggesting preserved pre-attentional auditory discrimination abilities in these children. Identification of early electrophysiological markers for delayed language development could facilitate timely interventions., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

6. Behavioral evidence for a functional link between low- and mid-level visual perception in the autism spectrum.

Author

Perreault A, Habak C, Lepore F, Mottron L, and Bertone A

Subjects

Adolescent, Adult, Female, Humans, Male, Photic Stimulation, Psychological Tests, Young Adult, Autistic Disorder physiopathology, Visual Perception physiology

Abstract

Background: Most investigations of visuo-perceptual abilities in the Autism Spectrum (AS) are level-specific, using tasks that selectively solicit either lower- (i.e., spatial frequency sensitivity), mid- (i.e., pattern discrimination) or higher-level processes (i.e., face identification) along the visual hierarchy. Less is known about how alterations at one level of processing (i.e., low-level) interact with that of another (i.e., mid-level). The aim of this study was to assess whether manipulating the physical properties (luminance vs texture) of local contour elements of a mid-level, visual pattern interferes with the discrimination of that pattern in a differential manner for individuals with AS., Methods: Twenty-nine AS individuals and thirty control participants (range 14-27 years) were asked to discriminate between perfect circles and Radial Frequency Patterns (RFP) of two, three, five, and 10 radial frequencies (RF), or deformations along the pattern's contour. When RFP have few deformations (

Published

2015

7. Social information processing following resection of the insular cortex.

Author

Boucher O, Rouleau I, Lassonde M, Lepore F, Bouthillier A, and Nguyen DK

Subjects

Adult, Cerebral Cortex surgery, Empathy, Epilepsy physiopathology, Epilepsy surgery, Female, Humans, Male, Middle Aged, Neuropsychological Tests, Surveys and Questionnaires, Temporal Lobe physiopathology, Temporal Lobe surgery, Young Adult, Cerebral Cortex physiopathology, Facial Recognition physiology

Abstract

The insula has been implicated in social cognition and empathy in several neuroimaging paradigms. Impairments in social information processing, including specific deficits in disgust recognition, have been described following isolated insular damage, although the evidence remains limited to a few case studies. The present study examines social cognition and empathy in a group of fifteen patients for whom the insula was removed as part of their epilepsy surgery. These patients were compared to a lesion-control group of 15 epileptic patients who had a surgery in the anterior temporal lobe that spared the insula, and to 20 healthy volunteers matched on age, sex, and education. Participants were assessed on an Emotion Recognition Task (ERT), the Reading the Mind in the Eyes test, and a self-administered empathy questionnaire. Patients who underwent insular resection showed poorer ability to recognize facial expressions of emotions and had lower scores of perspective taking on the empathy questionnaire than healthy controls. Using results from healthy controls as normative data, emotion recognition deficits were more frequent in insular patients than in both other groups. Specific emotion analyses revealed impairments in fear recognition in both groups of patients, whereas happiness and surprise recognition was only impaired in patients with insular resection. There was no evidence for a deficit in disgust recognition. The findings suggest that unilateral damage to the operculo-insular region may be associated with subtle impairments in emotion recognition, and provide further clinical evidence of a role of the insula in empathic processes. However, the description of 15 consecutive cases of insula-damaged patients with no specific deficit in disgust recognition seriously challenges the assumptions, based on previous case reports, that the insula is specifically involved in disgust processing., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

8. Developmental patterns of expressive language hemispheric lateralization in children, adolescents and adults using functional near-infrared spectroscopy.

Author

Paquette N, Lassonde M, Vannasing P, Tremblay J, González-Frankenberger B, Florea O, Béland R, Lepore F, and Gallagher A

Subjects

Adolescent, Adult, Age Factors, Child, Child, Preschool, Female, Frontal Lobe growth & development, Humans, Male, Temporal Lobe growth & development, Young Adult, Frontal Lobe physiology, Functional Laterality physiology, Functional Neuroimaging methods, Language Development, Spectroscopy, Near-Infrared methods, Temporal Lobe physiology

Abstract

The development of language hemispheric specialization is not well understood in young children, especially regarding expressive language functions. In this study, we investigated age-related changes in expressive language lateralization patterns in a population of children (3-6 and 7-10 years old), adolescents (11-16 years old), and young adults (19-30 years old). During functional near-infrared spectroscopy recordings, all participants performed a verbal fluency task, which consisted in naming as many words as possible belonging to a given semantic category. Hemoglobin concentration changes were measured in bilateral frontal and temporal cortical areas. During the language task, results showed a strong left hemisphere response along with weaker right hemisphere activation in all groups. Age-related increases in hemodynamic responses were found bilaterally, with younger children showing smaller hemodynamic responses than adolescents and adults in both hemispheres. Overall, these findings confirm that a left hemisphere specialization is already established in young children and persists through adulthood. Early left hemisphere specialization for expressive language suggests that language development hinges on structural and functional properties of the human brain with little reorganization occurring with development., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

9. Multilevel alterations in the processing of audio-visual emotion expressions in autism spectrum disorders.

Author

Charbonneau G, Bertone A, Lepore F, Nassim M, Lassonde M, Mottron L, and Collignon O

Subjects

Acoustic Stimulation, Adolescent, Adult, Affective Symptoms diagnosis, Discrimination, Psychological, Female, Humans, Male, Pattern Recognition, Visual physiology, Photic Stimulation, Young Adult, Affective Symptoms etiology, Autistic Disorder complications, Expressed Emotion physiology, Recognition, Psychology, Sensation physiology

Abstract

The abilities to recognize and integrate emotions from another person's facial and vocal expressions are fundamental cognitive skills involved in the effective regulation of social interactions. Deficits in such abilities have been suggested as a possible source for certain atypical social behaviors manifested by persons with autism spectrum disorders (ASD). In the present study, we assessed the recognition and integration of emotional expressions in ASD using a validated set of ecological stimuli comprised of dynamic visual and auditory (non-verbal) vocal clips. Autistic participants and typically developing controls (TD) were asked to discriminate between clips depicting expressions of disgust and fear presented either visually, auditorily or audio-visually. The group of autistic participants was less efficient to discriminate emotional expressions across all conditions (unimodal and bimodal). Moreover, they necessitated a higher signal-to-noise ratio for the discrimination of visual or auditory presentations of disgust versus fear expressions. These results suggest an altered sensitivity to emotion expressions in this population that is not modality-specific. In addition, the group of autistic participants benefited from exposure to bimodal information to a lesser extent than did the TD group, indicative of a decreased multisensory gain in this population. These results are the first to compellingly demonstrate joint alterations for both the perception and the integration of multisensory emotion expressions in ASD., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

10. Induced gamma-band response to fragmented images: An intracranial EEG study.

Author

Bertrand JA, Tremblay J, Lassonde M, Vannasing P, Khoa Nguyen D, Robert M, Bouthillier A, and Lepore F

Subjects

Adult, Brain physiology, Cerebral Cortex physiology, Data Interpretation, Statistical, Electrodes, Implanted, Female, Humans, Male, Memory, Episodic, Mental Fatigue psychology, Perceptual Closure physiology, Young Adult, Electroencephalography, Photic Stimulation, Visual Perception physiology

Abstract

Induced gamma-band response (iGBR) has been linked to coherent perception of images and is thought to represent the synchronisation of neuronal populations mediating binding of elements composing the image and the comparisons with memory for proper recognition. This study uses fragmented images with intracranial electroencephalography to investigate the precise spatio-temporal dynamic of iGBR elicited by the recognition of objects presented for the first time and 24h later. Results show an increased iGBR at recognition in regions involved in bottom-up processes such as the cuneus and the lateral occipital complex. Top-down facilitation involved the lingual gyrus, the precuneus and the superior parietal lobule when images were presented for the first time. Twenty-four hours later, top-down facilitation was mediated by frontal areas involved in retrieval from episodic memory. This study showed that the classically reported iGBR is related to object recognition and that top-down processes vary according to task demand., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

11. Comprehension of concrete and abstract words in patients with selective anterior temporal lobe resection and in patients with selective amygdalo-hippocampectomy.

Author

Loiselle M, Rouleau I, Nguyen DK, Dubeau F, Macoir J, Whatmough C, Lepore F, and Joubert S

Subjects

Adult, Anterior Temporal Lobectomy adverse effects, Epilepsy, Temporal Lobe surgery, Female, Frontotemporal Lobar Degeneration etiology, Humans, Male, Middle Aged, Neuropsychological Tests, Semantics, Statistics, Nonparametric, Young Adult, Amygdala surgery, Comprehension physiology, Concept Formation physiology, Frontotemporal Lobar Degeneration surgery, Hippocampus surgery, Vocabulary

Abstract

The role of the anterior temporal lobe (ATL) in semantic memory is now firmly established. There is still controversy, however, regarding the specific role of this region in processing various types of concepts. There have been reports of patients suffering from semantic dementia (SD), a neurodegenerative condition in which the ATL is damaged bilaterally, who present with greater semantic impairment for concrete concepts than for abstract concepts, an effect known as reversal of the concreteness effect. This effect has previously been interpreted as reflecting degraded visual-perceptual features of objects due to damage to the inferior temporal lobes such as is observed in SD. Temporal lobe atrophy in SD, however, is bilateral even if it usually predominates to the left ATL, and it has been found to extend beyond the ATL, throughout the temporal lobes including medial and posterior temporal lobe regions. The question therefore remains whether greater impairment for concrete concepts results from damage to the ATL or from damage to the visual association cortex, and if unilateral damage can produce such a deficit. The aim of the present study was to investigate the processing of concrete and abstract words in rare patients who underwent a selective ATL surgical resection, and to compare their performance with that of patients with selective medial temporal lobe damage sparing the ATL region. Seven patients with a selective unilateral anterior temporal resection (ATL), 15 patients with a selective unilateral amygdalo-hippocampectomy (SeAH), and 15 healthy age- and education-matched controls underwent detailed neuropsychological assessment and carried out a semantic similarity judgment task evaluating their comprehension of concrete and abstract words. Results showed that both ATL and SeAH groups were significantly impaired on the semantic task relative to the control group. Within the patient groups, however, comprehension of concrete words was significantly more impaired than that of abstract words in the ATL group, while comprehension of abstract and concrete words was equally affected in the SeAH group. Results of this study suggest that the ATL region may play a critical role in processing concrete concepts, and that the reversal of the concreteness effect observed in ATL patients may result from damage to a categorical organization underlying the representation of concrete concepts., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

12. Language lateralization in individuals with callosal agenesis: an fMRI study.

Author

Pelletier I, Paquette N, Lepore F, Rouleau I, Sauerwein CH, Rosa C, Leroux JM, Gravel P, Valois K, Andermann F, Saint-Amour D, and Lassonde M

Subjects

Abnormalities, Multiple pathology, Adult, Decision Making physiology, Dominance, Cerebral physiology, Educational Status, Female, Humans, Image Processing, Computer-Assisted, Intelligence, Intelligence Tests, Magnetic Resonance Imaging, Male, Middle Aged, Neuropsychological Tests, Verbal Behavior physiology, Young Adult, Acrocallosal Syndrome pathology, Acrocallosal Syndrome psychology, Functional Laterality physiology, Language

Abstract

Since the seminal work of Broca in 1861, it is well established that language is essentially processed in the left hemisphere. However, the origin of hemispheric specialization remains controversial. Some authors posit that language lateralization is genetically determined, while others have suggested that hemispheric specialization develops with age. Tenants of the latter view have further suggested that the adult pattern of left hemispheric specialization is achieved by means of callosal inhibition of homologous speech areas in the right hemisphere during ontogeny. According to this hypothesis, one would expect language to develop bilaterally in the acallosal brain. A recent functional magnetic resonance imaging (fMRI) study in one patient with agenesis of the corpus callosum suggests that this might indeed be the case (Riecker et al., 2007). However, given the large anatomic and functional variability in the population of subjects with agenesis of the corpus callosum, this finding needs to be more extensively replicated. In the present study, we explored language lateralization in six individuals with agenesis of the corpus callosum using an fMRI protocol which included a syntactic decision task and a sub-vocal verbal fluency task. Two neurologically intact control groups, one comparable to the acallosals in terms of IQ, age and education (n=6) and one group with a high IQ (n=5), performed the same tasks. No differences were found between language lateralization of the subjects with agenesis of the corpus callosum and the control groups in the receptive speech task. However, for expressive speech, the groups differed with respect to frontal activations, with the acallosal participants showing a more bilateral pattern of activation than the high-IQ participants only. No differences were found for temporal regions. Overall, these results indicate that the corpus callosum is not essential for the establishment of lateralized language functions., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

13. Functional reorganization of the auditory pathways (or lack thereof) in callosal agenesis is predicted by monaural sound localization performance.

Author

Paiement P, Champoux F, Bacon BA, Lassonde M, Mensour B, Leroux JM, and Lepore F

Subjects

Acoustic Stimulation methods, Adult, Auditory Pathways abnormalities, Auditory Pathways blood supply, Auditory Pathways pathology, Brain Mapping, Case-Control Studies, Corpus Callosum blood supply, Female, Humans, Image Processing, Computer-Assisted methods, Magnetic Resonance Imaging methods, Male, Middle Aged, Oxygen blood, Temporal Lobe physiopathology, Agenesis of Corpus Callosum, Corpus Callosum physiopathology, Functional Laterality physiology, Sound Localization physiology, Temporal Lobe pathology

Abstract

Neuroimaging studies show that permanent peripheral lesions such as unilateral deafness cause functional reorganization in the auditory pathways. However, functional reorganization of the auditory pathways as a result of higher-level damage or abnormalities remains poorly investigated. A relatively recent behavioural study points to functional changes in the auditory pathways in some, but interestingly not in all, of the acallosal individuals that were tested. The present study uses fMRI to investigate auditory activities in both cerebral hemispheres in those same acallosal subjects in order to directly investigate the contributions of ipsilateral and contralateral functional pathways reorganization. Predictions were made that functional reorganization could be predicted from behavioural performance. As reported previously in a number of neuroimaging studies, results showed that in neurologically intact subjects, binaural stimulation induced balanced activities between both hemispheres, while monaural stimulation induced strong contralateral activities and weak ipsilateral activities. In accordance with behavioural predictions, some acallosal subjects showed patterns of auditory cortical activities that were similar to those observed in neurologically intact subjects while others showed functional reorganization of the auditory pathways. Essentially they showed a significant increase and a significant decrease of neural activities in the contralateral and/or ipsilateral pathways, respectively. These findings indicate that at least in some acallosal subjects, functional reorganization inside the auditory pathways does contribute to compensate for the absence of the corpus callosum., (2009 Elsevier Ltd. All rights reserved.)

Published

2010

14. Women process multisensory emotion expressions more efficiently than men.

Author

Collignon O, Girard S, Gosselin F, Saint-Amour D, Lepore F, and Lassonde M

Subjects

Acoustic Stimulation methods, Adolescent, Adult, Analysis of Variance, Bias, Female, Humans, Male, Nonlinear Dynamics, Photic Stimulation methods, Probability, Reaction Time physiology, Sex Factors, Young Adult, Auditory Perception physiology, Emotions physiology, Facial Expression, Pattern Recognition, Visual physiology

Abstract

Despite claims in the popular press, experiments investigating whether female are more efficient than male observers at processing expression of emotions produced inconsistent findings. In the present study, participants were asked to categorize fear and disgust expressions displayed auditorily, visually, or audio-visually. Results revealed an advantage of women in all the conditions of stimulus presentation. We also observed more nonlinear probabilistic summation in the bimodal conditions in female than male observers, indicating greater neural integration of different sensory-emotional informations. These findings indicate robust differences between genders in the multisensory perception of emotion expression.

Published

2010

15. Early visual deprivation alters multisensory processing in peripersonal space.

Author

Collignon O, Charbonneau G, Lassonde M, and Lepore F

Subjects

Adult, Age of Onset, Female, Humans, Male, Middle Aged, Models, Psychological, Perceptual Masking physiology, Physical Stimulation methods, Reaction Time physiology, Attention physiology, Blindness physiopathology, Hearing physiology, Perception physiology, Touch physiology

Abstract

Multisensory peripersonal space develops in a maturational process that is thought to be influenced by early sensory experience. We investigated the role of vision in the effective development of audiotactile interactions in peripersonal space. Early blind (EB), late blind (LB) and sighted control (SC) participants were asked to lateralize auditory, tactile and audiotactile stimuli. The experiment was conducted with the hands uncrossed or crossed over the body midline in order to alter the relationship between personal and peripersonal spatial representations. First, we observed that the crossed posture results in a greater detrimental effect for tactile performance in sighted subjects but a greater deficit in auditory performance in early blind ones. This result is interpreted as evidence for a visually driven developmental process that automatically remaps tactile and proprioceptive spatial representation into an external framework. Second, we demonstrate that improved reaction times observed in the bimodal conditions in SC and LB exceeds that predicted by probability summation in both conditions of postures, indicating neural integration of different sensory information. In EB, nonlinear summation was obtained in the uncrossed but not in the crossed posture. We argue that the default use of an anatomically anchored reference system in EB prevents effective audiotactile interactions in the crossed posture due to the poorly aligned spatial coordinates of these two modalities in such conditions. Altogether, these results provide compelling evidence for the critical role of early vision in the development of multisensory perception and action control in peripersonal space.

Published

2009

16. Voice perception in blind persons: a functional magnetic resonance imaging study.

Author

Gougoux F, Belin P, Voss P, Lepore F, Lassonde M, and Zatorre RJ

Subjects

Adult, Blindness congenital, Case-Control Studies, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Recruitment, Neurophysiological physiology, Voice, Auditory Perception physiology, Blindness physiopathology, Cerebral Cortex physiopathology, Visually Impaired Persons

Abstract

Early blind persons have often been shown to be superior to sighted ones across a wide range of non-visual perceptual abilities, which in turn are often explained by the functionally relevant recruitment of occipital areas. While voice stimuli are known to involve voice-selective areas of the superior temporal sulcus (STS) in sighted persons, it remains unknown if the processing of vocal stimuli involves similar brain regions in blind persons, or whether it benefits from cross-modal processing. To address these questions, we used fMRI to measure cerebral responses to voice and non-voice stimuli in blind (congenital and acquired) and sighted subjects. The global comparison of all sounds vs. silence showed a different pattern of activation between blind (pooled congenital and acquired) and sighted groups, with blind subjects showing stronger activation of occipital areas but weaker activation of temporal areas centered around Heschl's gyrus. In contrast, the specific comparison of vocal vs. non-vocal sounds did not isolate activations in the occipital areas in either of the blind groups. In the congenitally blind group, however, it led to a stronger activation in the left STS, and to a lesser extent in the fusiform cortex, compared to both sighted participants and those with acquired blindness. Moreover, STS activity in congenital blind participants significantly correlated with performance in a voice discrimination task. This increased recruitment of STS areas in the blind for voice processing is in marked contrast with the usual cross-modal recruitment of occipital cortex.

Published

2009

17. Tactile acuity in the blind: a closer look reveals superiority over the sighted in some but not all cutaneous tasks.

Author

Alary F, Duquette M, Goldstein R, Elaine Chapman C, Voss P, La Buissonnière-Ariza V, and Lepore F

Subjects

Adolescent, Adult, Age of Onset, Blindness psychology, Female, Fingers, Humans, Light, Male, Middle Aged, Neuropsychological Tests, Orientation physiology, Photic Stimulation, Psychophysics, Reaction Time physiology, Signal Detection, Psychological, Vibration, Young Adult, Blindness physiopathology, Discrimination, Psychological physiology, Sensory Thresholds physiology, Skin innervation, Touch physiology

Abstract

Previous studies have shown that blind subjects may outperform the sighted on certain tactile discrimination tasks. We recently showed that blind subjects outperformed the sighted in a haptic 2D-angle discrimination task. The purpose of this study was to compare the performance of the same blind (n=16) and sighted (n=17, G1) subjects in three tactile discrimination tasks dependent solely on cutaneous inputs from the fingertip of the index finger, D2. A second group of sighted subjects (n=30, G2) were also tested. Texture discrimination thresholds were 0.62 (G1)-0.80 mm (G2) for the sighted subjects, and 0.64 mm for the blind (standard, 2mm spatial period). Grating orientation thresholds were 0.99 (G1)-1.12 mm (G2) for the sighted subjects, and 0.96 mm for the blind. Finally, vibrotactile frequency discrimination thresholds (100 Hz standard) were 19.5 (G2) and 20.0 Hz (G1) for the sighted, and 16.5 Hz for the blind subjects. There were no significant differences in performance between the blind and the sighted subjects for the grating orientation or vibrotactile frequency discrimination tasks. In contrast, blind subjects outperformed the sighted for the texture discrimination task (G2 only), possibly reflecting the fact that the raised dot surfaces were similar to the dots forming Braille characters (all were fluent Braille readers).

Published

2009

18. Visual stimuli can impair auditory processing in cochlear implant users.

Author

Champoux F, Lepore F, Gagné JP, and Théoret H

Subjects

Acoustic Stimulation methods, Adult, Aged, Auditory Threshold physiology, Case-Control Studies, Female, Humans, Male, Middle Aged, Psychoacoustics, Visual Perception physiology, Young Adult, Auditory Perceptual Disorders etiology, Cochlear Implantation methods, Deafness physiopathology, Deafness surgery, Photic Stimulation adverse effects

Abstract

It has been shown that visual stimulation can activate cortical regions normally devoted to auditory processing in deaf individuals. This neural activity can persist even when audition is restored through the implantation of a cochlear implant, raising the possibility that cross-modal plasticity can be detrimental to auditory performance in cochlear implant users. To determine the influence of visual information on auditory performance after restoration of hearing in deaf individuals, the ability to segregate conflicting auditory and visual information was assessed in fourteen cochlear implant users with varied degree of expertise and an equal number of participants with normal-hearing matched for gender, age and hearing performance. An auditory speech recognition task was administered in the presence of three incongruent visual stimuli (color-shift, random-dot motion and lip movement). For proficient cochlear implant users, auditory performance was equal to that of controls in the three experimental conditions where visual stimuli were presented simultaneously with auditory information. For non-proficient cochlear implant users, performance did not differ from that of matched controls when the auditory stimulus was paired with a visual stimulus that was color-shifted. However, significant differences were observed between the non-proficient cochlear implant users and their matched controls when the accompanying visual stimuli consisted of a moving random-dot pattern or incongruent lip movements. These findings raise several questions with regards to the rehabilitation of cochlear implant users.

Published

2009

19. Functional reorganization of the human auditory pathways following hemispherectomy: an fMRI demonstration.

Author

Paiement P, Champoux F, Bacon BA, Lassonde M, Gagné JP, Mensour B, Leroux JM, and Lepore F

Subjects

Adaptation, Physiological, Adult, Auditory Pathways anatomy & histology, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Auditory Pathways physiology, Brain Mapping, Functional Laterality physiology, Hemispherectomy, Neuronal Plasticity physiology

Abstract

The present study investigated the functional reorganization of ipsilateral and contralateral auditory pathways in hemispherectomized subjects. Functional reorganization was assessed using functional Magnetic Resonance Imaging (fMRI) and stimulation with complex sounds presented binaurally and monaurally. For neurologically intact control subjects, results showed that binaural stimulations evoked balanced activity in both hemispheres while monaural stimulations induced strong contralateral activity and weak ipsilateral activity. The results obtained from hemispherectomized subjects were substantially different from those obtained from control subjects. Specifically, activity in the intact hemisphere showed a significant decrease in response to contralateral stimulation but, concomitantly, an increase in response to ipsilateral stimulation. The present findings suggest that a substantial functional reorganization takes place in the auditory pathways following an early hemispherectomy. The exact nature of this functional reorganization remains to be specified.

Published

2008

20. Alternative mode of presentation of Kanizsa figures sheds new light on the chronometry of the mechanisms underlying the perception of illusory figures.

Author

Brodeur M, Lepore F, Lepage M, Bacon BA, Jemel B, and Debruille JB

Subjects

Adult, Analysis of Variance, Female, Humans, Male, Reference Values, Time Factors, Visual Perception physiology, Evoked Potentials, Visual physiology, Illusions physiology, Perceptual Closure physiology, Photic Stimulation methods, Reaction Time physiology

Abstract

The mechanisms responsible for the perception of illusory modal figures are usually studied by presenting entire Kanizsa figures at stimulus onset. However, with this mode of presentation, the brain activity generated by the inducers (the 'pacmen') is difficult to differentiate from the activity underlying the perception of the illusory figure. Therefore, in addition to this usual presentation mode, we used an alternative presentation mode. Inducer disks remained permanently on the screen and the illusory figure was induced by just removing the notches from the disks. The results support the heuristic value of this alternative mode of presentation. The P1 deflection of the visual evoked potentials (VEPs) was found to be greater for the illusory modal figure than for its control and for an amodal figure. This modulation is one of the earliest direct evidences for a low-level processing of illusory forms in the human brain. Meanwhile, larger N1s were obtained for the control figures than for the illusory figures in the notch mode of presentation. While this new type of N1 modulation could shed some light on the stage of processing indexed by this deflection, several propositions are put forward to account for the P1 and N1 variations found.

Published

2008

21. Ipsilateral cortical representation of tactile and painful information in acallosal and callosotomized subjects.

Author

Duquette M, Rainville P, Alary F, Lassonde M, and Lepore F

Subjects

Adult, Brain Diseases pathology, Brain Diseases physiopathology, Brain Diseases surgery, Cerebral Cortex blood supply, Corpus Callosum blood supply, Humans, Image Processing, Computer-Assisted, Male, Oxygen blood, Pain Measurement methods, Brain Mapping, Cerebral Cortex physiopathology, Corpus Callosum physiopathology, Pain pathology, Touch

Abstract

Previous studies have shown that unilateral painful but not tactile stimulation produces ipsilateral cortical activation in callosotomized patients. Here, we used functional magnetic resonance imaging (fMRI) to compare activation evoked by tactile and thermal pain stimulation in two individuals with callosal agenesis, one callosotomized patient, and six control subjects. Bilateral tactile activation was found in S1 and/or S2 of both hemispheres in control and acallosal subjects whereas no ipsilateral activation was detected in these structures in the callosotomized participant. In contrast, although there was some inter-individual variability in the pattern of responses to pain, all subjects including the callosotomized patient showed ipsilateral responses in at least two of the target pain-related areas (S1, S2, insula and/or cingulate cortex). These findings are consistent with the plasticity of the touch system in callosal agenesis and further confirm that ipsilateral activation of pain-related regions does not require the integrity of the corpus callosum.

Published

2008

22. Effective binocular integration at the midline requires the corpus callosum.

Author

Saint-Amour D, Lepore F, Lassonde M, and Guillemot JP

Subjects

Adult, Agenesis of Corpus Callosum, Case-Control Studies, Discrimination, Psychological, Electroencephalography methods, Electrophysiology methods, Evoked Potentials, Visual, Humans, Male, Photic Stimulation, Psychophysics methods, Size Perception, Visual Fields, Corpus Callosum physiology, Depth Perception physiology, Motion Perception physiology, Vision, Binocular physiology

Abstract

To study the role of the corpus callosum (CC) in midline binocular integration, the effects of late callosotomy and congenital CC agenesis on the ability to perceive dichoptic plaid motion was assessed. Coherent motion was well perceived at all locations in the visual field under dioptic viewing but not along the vertical meridian (VM) when the components were dichoptically presented. This deficit was totally abolished in the agenesis subject and reduced in the callosotomized individual when stimulus size was increased beyond the VM. Electrophysiological correlates were also examined by recording visual evoked potentials and these showed that the P1/N2 components were abnormal for small dichoptic stimuli presented on the midline. These findings attest to the importance of the contribution of CC to midline binocular integration and the effects of cerebral plasticity.

Published

2004

23. Unilateral and bilateral temperature comparisons in acallosal and split-brain subjects.

Author

Lepore F, Lassonde M, Veillette N, and Guillemot JP

Subjects

Adolescent, Adult, Differential Threshold, Female, Humans, Intelligence, Male, Touch, Agenesis of Corpus Callosum, Corpus Callosum surgery, Functional Laterality, Perceptual Disorders diagnosis, Thermosensing

Abstract

Therapeutic section of the corpus callosum in adult epileptic patients typically results in their incapacity to carry out interhemispheric comparisons of lateralized information. The fact that acallosal and early split-brain subjects display few of these symptoms when tested in the tactile modality has led to the suggestion that these patients may use ipsilateral projections of the somatosensory system more effectively. Compensation, however, is limited by the fact that the lemniscal pathway is strongly lateralized, especially for the distal parts of the body, where few ipsilaterally projecting fibres have been demonstrated. The pathway carrying temperature information has a larger ipsilateral component. Bilateral comparisons within the same hemisphere in subjects who are lacking the corpus callosum should be more common and the development of compensatory mechanisms in early-sectioned or acallosal subjects should be more likely. The objective of the present experiment was to evaluate differential thresholds for thermal stimuli applied on a number of regions either on the same side or on corresponding sites on opposite sides of the body. One subject callosotomized as an adult and one split-brain subject who underwent callosotomy in childhood, as well as three acallosal subjects, were compared to IQ-matched and normal-IQ control subjects. The fingers, forearm and trunk were tested. The comparison temperature was 30 degrees C and the other was varied in an ascending or descending fashion using a modified method of limits. Differential thresholds were similar for within- and between-side comparisons, and comparable to those of the IQ-matched subjects. The results indicate that comparisons involving temperature discrimination for stimuli applied to the two sides of the body do not require the integrity of the corpus callosum.

Published

1997

24. Extent and limits of callosal plasticity: presence of disconnection symptoms in callosal agenesis.

Author

Lassonde M, Sauerwein HC, and Lepore F

Subjects

Adolescent, Adult, Corpus Callosum physiopathology, Corpus Callosum surgery, Depth Perception physiology, Female, Functional Laterality physiology, Humans, Male, Middle Aged, Neural Pathways physiopathology, Postoperative Complications physiopathology, Psychomotor Performance physiology, Touch physiology, Visual Fields physiology, Agenesis of Corpus Callosum, Attention physiology, Dominance, Cerebral physiology, Neuronal Plasticity physiology

Abstract

Although earlier studies have emphasized the absence of 'split-brain' symptoms in callosal agenesis patients, the notion of an 'asymptomatic' acallosal brain has lately been challenged. We report a number of findings that are indicative of an interruption of interhemispheric communication and integration in individuals lacking the corpus callosum. Several groups of patients with callosal pathology (acallosals, patients with commissurotomy or callosotomy, either complete or partial) were compared to matched controls. Interhemispheric transfer was tested in two different experiments involving pointing to a light source while maintaining central fixation. In the first experiment, a learning paradigm was used to measure transfer of a motor skill from the trained to the untrained hand. In the second experiment, subjects pointed to visual targets at different locations on a perimeter. Midline fusion, a recurrent theme when describing callosal function, was assessed using tasks which included depth perception with binocular and/or monocular cues, two-point discrimination thresholds and sound localization in the peri-central and lateral fields. Subjects with callosal pathology were impaired on all tasks involving transfer of motor and visuo-spatial skills and on some of the tasks requiring sensory integration of visual and tactile information across the body midline. We conclude that these functions require an intact corpus callosum since none of these deficits were seen in controls equated for IQ.

Published

1995

25. Sound localization in hemispherectomized patients.

Author

Poirier P, Lassonde M, Villemure JG, Geoffroy G, and Lepore F

Subjects

Adolescent, Adult, Brain Damage, Chronic physiopathology, Brain Damage, Chronic psychology, Cerebral Cortex physiopathology, Corpus Callosum physiopathology, Corpus Callosum surgery, Epilepsy physiopathology, Epilepsy psychology, Female, Humans, Male, Neuropsychological Tests, Orientation physiology, Postoperative Complications psychology, Psychoacoustics, Psychomotor Performance physiology, Attention physiology, Cerebral Decortication, Dominance, Cerebral physiology, Epilepsy surgery, Postoperative Complications physiopathology, Sound Localization physiology

Abstract

In order to precisely evaluate the consequences of cortical damage on free-field sound localization in humans, the present study examined response accuracy to auditory targets in three hemispherectomized patients and IQ-matched controls. Listeners reported sound location by pointing with their dominant hand to the apparent sound location in an anechoic chamber. Two conditions were tested: (i) localization of a fixed-sound source and (ii) localization of the beginning and the end of a simulated moving stimulus. In both conditions, the responses of the patients were less accurate than those of the controls in the hemifield contralateral to their removed hemisphere. Moreover, the single-case analyses revealed that the performances obtained with fixed sources were generally more precise than those obtained with moving sources. This result is discussed in terms of a differential involvement of cortical and subcortical pathways in the processing of stationary and moving sounds. Finally, the age at surgery and the post-surgical interval were related with the magnitude of the deficits, suggesting the possible influences of functional reorganization and cerebral plasticity.

Published

1994

26. Somesthetic discrimination thresholds in the absence of the corpus callosum.

Author

Schiavetto A, Lepore F, and Lassonde M

Subjects

Adult, Afferent Pathways physiopathology, Agenesis of Corpus Callosum, Body Surface Area, Corpus Callosum surgery, Epilepsy physiopathology, Epilepsy surgery, Female, Humans, Male, Postoperative Complications physiopathology, Sensory Thresholds physiology, Corpus Callosum physiopathology, Dominance, Cerebral physiology, Mechanoreceptors physiopathology, Skin innervation, Touch physiology

Abstract

The aim of this study was to investigate how the absence of the corpus callosum affects somesthetic sensation on the axial midline and in proximal and distal body regions. For this purpose, two-point discrimination ability was evaluated in four acallosal subjects, four callosotomized subjects, six IQ-matched subjects and 10 control subjects with average and above average IQ. Sensory thresholds were established in the distal (index, palm), proximal (forearm), cranio-axial (forehead) and axial (dorsal trunk) body regions. The threshold was defined as the smallest separation at which the two points were perceived at a 70% accuracy level. Results showed that the thresholds of the acallosal and the callosotomized subjects were not significantly different from those of the IQ-matched control groups in the distal, proximal and cranio-axial body regions. However, thresholds in the dorsal trunk were significantly higher in the two experimental groups. It thus appears that the axial regions of the body that are normally densely represented in the corpus callosum function abnormally when this structure is absent or transected. Moreover, compensatory mechanisms normally seen in cases of early brain injury do not seem to apply in the present case since the acallosals showed the same impairments as the callosotomized subjects.

Published

1993

27. Stereopsis in the cat: behavioral demonstration and underlying mechanisms.

Author

Ptito M, Lepore F, and Guillemot JP

Subjects

Animals, Brain Mapping, Cats, Corpus Callosum physiology, Dominance, Cerebral physiology, Evoked Potentials, Visual physiology, Neurons physiology, Optic Chiasm physiology, Vision Disparity physiology, Visual Pathways physiology, Attention physiology, Depth Perception physiology, Orientation physiology, Pattern Recognition, Visual physiology, Visual Cortex physiology

Abstract

The neural substrates subserving stereopsis were investigated behaviorally and electrophysiologically in the cat. In one set of studies, we examined behaviorally the ability of normal cats to perceive depth on the sole basis of spatial disparity using random-dot stereograms. Results showed that the animals were able to carry out this discrimination. We then evaluated the contribution of the optic chiasm, the corpus callosum and the primary visual cortex to this function. Results indicated that: (1) chiasma transection drastically reduced the ability of the animals to solve the random-dot problem; (2) a callosal split had little or no effect on their ability to relearn the same discrimination; (3) a section of both the corpus callosum and optic chiasm abolished this ability; and (4) bilateral lesions of areas 17-18 also abolished it. In another set of studies, we examined electrophysiologically the properties of neurons in the various visual cortical areas where disparity-based depth discrimination processes are presumed to take place. We recorded from areas 17, 18 and 19 of normal and split-chiasm cats. Results showed that: (1) the primary visual cortex of the normal cat contained cells sensitive to stimulus disparity; (2) these disparity sensitive neurons were also present in area 19 although in a much lower proportion and were more widely tuned than those in areas 17-18; and (3) following the section of the optic chiasm, there was a significant decrease in the number of disparity sensitive cells in areas 17-18, whereas in area 19 they were nearly completely absent. The results obtained from the lesion studies and from the single unit recording experiments indicate that stereoscopic depth perception is highly dependent in the cat upon the integrity of the through-the-chiasm geniculo-striate pathway and its target primary visual cortex.

Published

1991

28. Effects of ablations of the superior colliculi on spectral sensitivity in monkeys.

Author

Cardu B, Ptito M, Dumont M, and Lepore F

Subjects

Animals, Brain Mapping, Color Perception physiology, Dark Adaptation, Eye Movements, Female, Haplorhini, Light, Macaca mulatta, Male, Photic Stimulation, Saccades, Superior Colliculi physiology, Visual Perception physiology

Published

1975

29. Calcium-induced phase separation in phospholipid bilayers. A fluorescence anisotropy study.

Author

Parasassi T, de Felip E, Lepore F, and Conti F

Subjects

Fluorescence Polarization, Calcium, Dimyristoylphosphatidylcholine, Lipid Bilayers, Phosphatidylethanolamines

Published

1986