Pr Pierre Aurélien BEURIAT 

Service de neurochirurgie pédiatrique

Le service de neurochirurgie pédiatrique prend en charge toutes les pathologies du système nerveux central qui nécessitent une prise en charge chirurgicale. L’ensemble des interventions chirurgicales se déroule au bloc opératoire de l’HFME qui est dédié aux prises en charge pédiatriques.

Pathologies

  • Les tumeurs cérébrales. Une expertise particulière a été développée pour le traitement chirurgical des tumeurs de la pinéale et de la région pinéale, les tumeurs de la partie antérieure du troisième ventricule et les tumeurs de la fosse cérébrale postérieure de l’enfant. Les tumeurs médullaires
  • L’hydrocéphalie de l’enfant. Le service est en pointe sur l’utilisation de la technique endoscopique dans ce domaine.
  • Les craniosténoses et les craniofaciosténoses que nous traitons dans les formes les plus complexes et syndromiques en double équipe avec les chirurgiens maxillo-faciaux. Le service héberge le centre de référence des craniosténoses et malformations cranio-faciales
  • Les pathologies malformatives du système nerveux central (moelle attachée par lipome, diastematomyélie, méningocele, myélomeningicele, malformation de Chiari etc.)
  • Les malformations vasculaires du système nerveux central. Les pathologies traumatiques cérébrales et rachidiennes. Les pathologies épileptiques qui nécessitent un traitement chirurgical.
neuro-ophtamologie
Pr Pierre Aurélien Beuriat

Projet

Mon activité de recherche s’articule autour de deux axes qui sont liés et indissociables : la recherche clinique et la recherche fondamentale.
Ma thématique principale est l’exploration de l’organisation fonctionnelle des cortex humains (cortex
cérébral et cortex cérébelleux) ainsi que de leur mise en place au cours de la vie (ontogénèse) et de leur réorganisation dans un contexte pathologique (plasticité). De plus, nous travaillons aussi à comprendre les conséquences des lésions cérébrales (tumeur cérébrale, épilepsie) sur l’évolution des fonctions motrices, sensorielles et cognitives au cours de la vie. Le but clinique étant de comprendre les mécanismes influençant la récupération fonctionnelle et donc la qualité de vie des patients. Nous développons une méthodologie d’analyse multimodale. En effet, nous allions une approche d’exploration qui comprend à la fois l’analyse clinique des capacités sensori-motrices, l’exploration des fonctions cognitives, l’analyse de la localisation des lésions cérébrales grâce à l’exploration par IRM et l’exploration électrophysiologique au bloc opératoire.
Parallèlement, je m’intéresse au développement de méthodes d’explorations des lésions cérébrales par des techniques
d’imageries nouvelles de type TEP IRM et IRM haute résolution et de visualisation des lésions cérébrales par fluorescence in situ per opératoire.

Collaborations :
– Jordan GRAFMAN : Cognitive Neuroscience Laboratory, Think and Speak Lab, Shirley Ryan AbilityLab, Feinberg
School of Medicine, Northwestern University, Chicago, USA
– Bassem HIBA : équipe « Brain Imaging Methodological Axis », Institut des Sciences Cognitives Marc Jeannerod,
Lyon
– James BONAIUTO : équipe « Decision, Action, and Neural Computation Lab », Institut des Sciences Cognitives Marc
Jeannerod
– Bruno MONTCEL : Equipe « MAGICS », Laboratoire CREATIS, Université Claude Bernard Lyon 1
– CERMEP Imagerie du Vivant
– Marc JANIER/Anthime FLAUS : Service de Médecine Nucléaire, Hospices Civils de Lyon
– Pierre LEBLOND/Cécile FAURE CONTER : Institut d’Hématologie et d’Oncologie Pédiatrique
-Karine OSTROWSKI-COSTE/Alexandra MONTAVONT/Elenie PANAGIOSTAKAKI, Service d’épileptologie clinique, des troubles du sommeil et de neurologie fonctionnelle de l’enfant, Hospices Civils de Lyon

Publications

1. A New Insight on the Role of the Cerebellum for Executive Functions and Emotion Processing in Adults

Beuriat PA, Cohen-Zimerman S, Smith GNL, Krueger F, Gordon B, Grafman J.

Frontiers in Neurology. 2020 — Résumé

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Objective: We investigated whether the cerebellum plays a critical or supportive role in in executive and emotion processes in adults. Many investigators now espouse the hypothesis that participants with cerebellar lesions experience executive functions and emotions (EE) disorders. But we hypothesized that these disorders would be milder if the damage is relatively limited to the cerebellum compared to damage involving the cerebellum plus additional cortical areas. Methods: We studied veterans with penetrating Traumatic Brain Injury (pTBI) participating in the Vietnam Head Injury Study (VHIS). We selected veterans with a cerebellar lesion (n = 24), a prefrontal cortex lesion (n = 20), along with healthy controls (HC) (n = 55). Tests of executive functions and emotions were analyzed as well as caregiver burden. We performed between-group null hypothesis significance testing, Bayesian hypothesis tests and correlational analyses. Results: Performance of participants with cerebellar lesions which extended to the cerebral cortex was similar to the HC on the Executive Function tests but they were significantly impaired on the Working Memory Index. No differences were found on the emotional processing tasks with one exception-the Facial Expression of Emotion-Test (FEEST). We then examined a sub-group of participants with large cerebellar lesions (>15%) but minimal lesions in the cerebral cortex (<15%). This sub-group of participants performed similarly to the HC on the Working Memory Index and on the FEEST. Conclusions: We suggest that the cerebellar cortex may not be critical for executive functions or processing emotional stimuli in adults as suggested. Instead, we find that the cerebellum has a supportive role characterized by its computing of the motor requirements when EE processing is required.

Keywords: brain network; cerebellum; emotion; executive functions; traumatic brain injury.

2. Evidence of the role of the cerebellum in cognitive theory of mind using voxel-based lesion mapping

Beuriat PA, Cohen-Zimerman S, Smith GNL, Krueger F, Gordon B, Grafman.

Scientific Reports 2022 — Résumé

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Theory of Mind (ToM) is a social-cognitive skill that allows the understanding of the intentions, beliefs, and desires of others. There is a distinction between affective and cognitive ToM, with evidence showing that these processes rely on partially distinct neural networks. The role of the cerebellum in social cognition has only been rarely explored. In this study, we tested whether the cerebellum is necessary for cognitive and affective ToM performance. We investigated adults with traumatic brain injury (n = 193) and healthy controls (n = 52) using voxel-based lesion-symptom mapping (VLSM) and by measuring the impact on functional connectivity. First, we observed that damage to the cerebellum affected pure Cognitive ToM processing. Further, we found a lateralization effect for the role of the cerebellum in cognitive ToM with participants with left cerebellar injury performing worse than those with right cerebellar injury. Both VLSM and standard statistical analysis provided evidence that left cerebellar Crus I and lobule VI contributed to ToM processing. Lastly, we found that disconnection of the left thalamic projection and the left fronto-striatal fasciculus was associated with poor cognitive ToM performance. Our study is the first to reveal direct causal neuropsychological evidence for a role of the cerebellum in some but not all types of ToM, processing. It reinforces the idea that social cognition relies on a complex network functionally connected through white matter pathways that include the cerebellum. It supports evidence that the neural networks underpinning the different types of ToM can be differentiated.

3. The shifting role of the cerebellum in executive, emotional and social processing across the lifespan.

Beuriat PA, Cristofori, Gordon B, Grafman.

Behavioural and Brain Function 2022 — Résumé

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The cerebellum’s anatomical and functional organization and network interactions between the cerebellum and the cerebral cortex and subcortical structures are dynamic across the lifespan. Executive, emotional and social (EES) functions have likewise evolved during human development from contributing to primitive behaviors during infancy and childhood to being able to modulate complex actions in adults. In this review, we address how the importance of the cerebellum in the processing of EES functions might change across development. This evolution is driven by the macroscopic and microscopic modifications of the cerebellum that are occurring during development including its increasing connectivity with distant supra-tentorial cortical and sub-cortical regions. As a result of anatomical and functional changes, neuroimaging and clinical data indicate that the importance of the role of the cerebellum in human EES-related networks shifts from being crucial in newborns and young children to being only supportive later in life. In early life, given the immaturity of cortically mediated EES functions, EES functions and motor control and perception are more closely interrelated. At that time, the cerebellum due to its important role in motor control and sequencing makes EES functions more reliant on these computational properties that compute spatial distance, motor intent, and assist in the execution of sequences of behavior related to their developing EES expression. As the cortical brain matures, EES functions and decisions become less dependent upon these aspects of motor behavior and more dependent upon high-order cognitive and social conceptual processes. At that time, the cerebellum assumes a supportive role in these EES-related behaviors by computing their motor and sequential features. We suspect that this evolving role of the cerebellum has complicated the interpretation of its contribution to EES computational demands.

Keywords: Adults; Cerebellum; Children; Emotion; Executive functions; Social behaviors.

4. Cerebellar lesions at a young age predict poorer long-term functional recovery.

 Beuriat PA, Cristofori I, Richard N, Bardi L, Szathmari A, Di Rocco F. Leblond P, Frappaz, D, Faure-Conter C,
Claude C, Mottolese C, Desmurget M.

Brain Communication 2020 — Résumé

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Early studies on long-term functional recovery after motor and premotor lesions showed better outcomes in younger monkeys than in older monkeys. This finding led to the widespread belief that brain injuries cause less impairment in children than adults. However, this view has limitations and a large body of evidence now indicates that cerebral damages can be more harmful when inflicted at young age, during critical periods of neural development. To date, this issue has been mainly investigated in the context of focal and diffuse cortical lesions. Much less is known about the potential influence of early cerebellar damages. Several studies exist in survivor of posterior fossa tumours. However, in these studies, critical confounders were not always considered and contradictory conclusions were provided. We studied the impact or early cerebellar damage on long-term functional recovery in three groups of 15 posterior fossa survivors, comparable with respect to their tumour characteristics (type, size and location) but operated at different ages: young (≤7 years), middle (>7 and ≤13 years) and older (>13 years). Daily (health-related quality of life scale, performance status scale), motor (International Cooperative Ataxia Rating Scale, Pegboard Purdue Test) and cognitive (full-scale intelligence quotient) functioning were assessed. A general linear model controlling for age at surgery, radiotherapy, preservation of deep cerebellar nuclei, tumour volume and delay between surgery and assessment was used to investigate significant variations in outcome measures. Early age at surgery, lesion of deep cerebellar nuclei and postoperative radiotherapy had a significant, independent negative influence on long-term recovery. Tumour volume and delay between surgery and assessment had no statistically detectable impact. The negative influence of early age at surgery was significant in all domains: daily functioning (health-related quality of life scale, performance status scale), motor functioning (International Cooperative Ataxia Rating Scale, Pegboard Purdue Test) and cognitive functioning (full-scale intelligence quotient). These results support the existence of an early critical period of development during which the cerebellar ‘learning machine’ is of critical importance. Although the extent to which the early deficits here observed can be reversed needs now to be established, our data plead for the implementation of prompt and intense rehabilitation interventions in children operated before 7 years of age.

Keywords: Kennard principle; age at surgery; posterior fossa tumour; quality of life; recovery.