Infrared and THz studies of polar phonons and improper magnetodielectric effect in multiferroic BFO3 ceramics

BFO3 ceramics were investigated by means of infrared reflectivity and time domain THz transmission spectroscopy at temperatures 20 - 950 K, and the magnetodielectric effect was studied at 10 - 300 K, with the magnetic field up to 9 T. Below 175 K, the sum of polar phonon contributions into the permittivity corresponds to the value of measured permittivity below 1 MHz. At higher temperatures, a giant low-frequency permittivity was observed, obviously due to the enhanced conductivity and possible Maxwell-Wagner contribution. Above 200 K the observed magnetodielectric effect is caused essentially through the combination of magnetoresistance and the Maxwell-Wagner effect, as recently predicted by Catalan (Appl. Phys. Lett. 88, 102902 (2006)). Since the magnetodielectric effect does not occur due to a coupling of polarization and magnetization as expected in magnetoferroelectrics, we call it improper magnetodielectric effect. Below 175 K the magnetodielectric effect is by several orders of magnitude lower due to the decreased conductivity. Several phonons exhibit gradual softening with increasing temperature, which explains the previously observed high-frequency permittivity increase on heating. The observed non-complete phonon softening seems to be the consequence of the first-order nature of the ferroelectric transition.Comment: subm. to PRB. revised version according to referees' report

Méthodologie et application de l'imagerie de la perfusion cérébrale et de la vasoréactivité par IRM

Le travail méthodologique mis en place durant cette thèse a consisté en l'optimisation des acquisitions et des traitements de données pour l'imagerie quantitative de la perfusion cérébrale et de la vasoréactivité en ASL. Dans un premier temps, une méthode originale pour mesurer la largeur du bolus des spins marqués appelée BoTuS (Bolus Turbo Sampling) a été mise en place et validée afin d'améliorer la quantification de la perfusion cérébrale basale en ASL. Les acquisitions en ASL pulsé ont été comparé aux mesures de perfusion en premier passage gadolinium et en premier passage de produit de contraste iodé en scanner X sur des patients atteints de tumeurs cérébrales. Dans un second temps, afin d'améliorer la qualité des cartes de vasoréactivité en ASL, des analyses des variations physiologiques des sujets ont été implémenté afin d'être utilisé comme modèle dans l'analyse statistique des données. Enfin, ces méthodes optimisées au niveau de l'acquisition et de la chaîne traitement ont été appliquées sur des populations de sujets sains et de patients afin de les valider. Les applications cliniques ont été menées sur des patients porteurs de la maladie d'Alzheimer où l'on a montré une baisse de la vasoréactivité par rapport aux témoins âgés. La perfusion cérébrale et la vasoréactivité de sujets atteints de sténoses a été étudié. Enfin, une étude avant et après acclimatation à l'altitude a montré qu'un séjour de 7 jours à 4365 m augmente le débit sanguin cérébral et diminue la vasoréactivité cérébrale.The methodological aspects implemented during this Ph.D. thesis consisted of the optimization of the acquisitions and data processing of ASL imaging for quantitative assessment of cerebral perfusion and vasoreactivity. First of all, an original technique called BoTuS (Bolus Turbo Sampling) was implemented and validated,with the aim to render the quantification of the pulsed ASL signal more robust. Cerebral blood flow measurements obtained using pulsed ASL were compared to gold standard techniques such as the first passage of gadolinium MRI and CT-scan perfusion in a population of patients with treated brain tumors. Secondly, a new processing technique was tested, taking into account the physiological state of the subject during the exam to model the ASL signal during the vasoreactivity paradigm, and thus to provide more reliable maps at the subject level. Finally, these methods were applied in various studies on healthy subjects and patients. A decrease in vasoreactivity was found in Alzheimer disease patients compared to elderly subjects. Studies on patients with severe stenosis were conducted to test our methods at the subject level. An increase in CBF and a decrease in vasoreactivity in subjects exposed to high altitude at 4365 m during 7 days was demonstrated and correlated to transcranial Doppler results.SAVOIE-SCD - Bib.électronique (730659901) / SudocGRENOBLE1/INP-Bib.électronique (384210012) / SudocGRENOBLE2/3-Bib.électronique (384219901) / SudocSudocFranceF

Bayesian Joint Detection-Estimation of cerebral vasoreactivity from ASL fMRI data

International audienceAlthough the study of cerebral vasoreactivity using fMRI is mainly conducted through the BOLD fMRI modality, owing to its relatively high signal-to-noise ratio (SNR), ASL fMRI provides a more interpretable measure of cerebral vasoreactivity than BOLD fMRI. Still, ASL suffers from a low SNR and is hampered by a large amount of physiological noise. The current contribution aims at improving the re- covery of the vasoreactive component from the ASL signal. To this end, a Bayesian hierarchical model is proposed, enabling the recovery of per- fusion levels as well as fitting their dynamics. On a single-subject ASL real data set involving perfusion changes induced by hypercapnia, the approach is compared with a classical GLM-based analysis. A better goodness-of-fit is achieved, especially in the transitions between baseline and hypercapnia periods. Also, perfusion levels are recovered with higher sensitivity and show a better contrast between gray- and white matter

Solitary Metastasis of Bronchogenic Adenocarcinoma to the Internal Auditory Canal: A Case Report

We report a patient with an isolated metastasis to the internal auditory canal (IAC) of bronchogenic adenocarcinoma. A 58-yr-old man who had received 6-cycle of chemotherapy under diagnosis of non-small cell lung carcinoma (T4N2M0) two years ago was referred to our department with vertigo, right-sided facial paralysis and right-sided hearing loss. A provisional diagnosis of vestibular schwannoma or meningioma involving right IAC was made from magnetic resonance imaging. The patient underwent a translabyrinthine removal of the tumor. Histopathological study of the resected lesion showed a poorly differentiated adenocarcinoma compatible with bronchogenic origin. The patient died 9 months after surgery from extensive brain metastasis despite postoperative radiation therapy. In patients with a previous history of treatment of malignancy elsewhere in the body, the possibility of IAC metastasis must be considered when an IAC lesion is detected

Presurgical language fMRI: Mapping of six critical regions.

Language mapping is a key goal in neurosurgical planning. fMRI mapping typically proceeds with a focus on Broca's and Wernicke's areas, although multiple other language-critical areas are now well-known. We evaluated whether clinicians could use a novel approach, including clinician-driven individualized thresholding, to reliably identify six language regions, including Broca's Area, Wernicke's Area (inferior, superior), Exner's Area, Supplementary Speech Area, Angular Gyrus, and Basal Temporal Language Area. We studied 22 epilepsy and tumor patients who received Wada and fMRI (age 36.4[12.5]; Wada language left/right/mixed in 18/3/1). fMRI tasks (two × three tasks) were analyzed by two clinical neuropsychologists who flexibly thresholded and combined these to identify the six regions. The resulting maps were compared to fixed threshold maps. Clinicians generated maps that overlapped significantly, and were highly consistent, when at least one task came from the same set. Cases diverged when clinicians prioritized different language regions or addressed noise differently. Language laterality closely mirrored Wada data (85% accuracy). Activation consistent with all six language regions was consistently identified. In blind review, three external, independent clinicians rated the individualized fMRI language maps as superior to fixed threshold maps; identified the majority of regions significantly more frequently; and judged language laterality to mirror Wada lateralization more often. These data provide initial validation of a novel, clinician-based approach to localizing language cortex. They also demonstrate clinical fMRI is superior when analyzed by an experienced clinician and that when fMRI data is of low quality judgments of laterality are unreliable and should be withheld. Hum Brain Mapp 38:4239-4255, 2017. © 2017 Wiley Periodicals, Inc

Functional imaging reveals rapid reorganization of cortical activity after parietal inactivation in monkeys

Impairments of spatial awareness and decision making occur frequently as a consequence of parietal lesions. Here we used event-related functional MRI (fMRI) in monkeys to investigate rapid reorganization of spatial networks during reversible pharmacological inactivation of the lateral intraparietal area (LIP), which plays a role in the selection of eye movement targets. We measured fMRI activity in control and inactivation sessions while monkeys performed memory saccades to either instructed or autonomously chosen spatial locations. Inactivation caused a reduction of contralesional choices. Inactivation effects on fMRI activity were anatomically and functionally specific and mainly consisted of: (i) activity reduction in the upper bank of the superior temporal sulcus (temporal parietal occipital area) for single contralesional targets, especially in the inactivated hemisphere; and (ii) activity increase accompanying contralesional choices between bilateral targets in several frontal and parieto-temporal areas in both hemispheres. There was no overactivation for ipsilesional targets or choices in the intact hemisphere. Task-specific effects of LIP inactivation on blood oxygen level-dependent activity in the temporal parietal occipital area underline the importance of the superior temporal sulcus for spatial processing. Furthermore, our results agree only partially with the influential interhemispheric competition model of spatial neglect and suggest an additional component of interhemispheric cooperation in the compensation of neglect deficits

Brain activations in speech recovery process after intra-oral surgery: an fMRI study

International audienceThis study aims at describing cortical and subcortical activation patterns associated with functional recovery of speech production after reconstructive mouth surgery. Our ultimate goal is the understanding of how the brain deals with altered relationships between motor commands and auditory/orosensory feedback, and establishes new inter-articulatory coordination to preserve speech communication abilities. A longitudinal sparse-sampling fMRI study involving orofacial, vowel and syllable production tasks on 9 patients and in three different sessions (one week before, one month and three months after surgery) was conducted. Healthy subjects were recorded in parallel. Results show that for patients in the pre-surgery session, activation patterns are in good agreement with the classical speech production network. Crucially, lower activity in sensorimotor control brain areas during orofacial and speech production movements is observed for patients in all sessions. One month after surgery, the superior parietal lobule is more activated for simple vowel production suggesting a strong involvement of a multimodal integration process to compensate for loss of tongue motor control. Altogether, these results indicate both altered and adaptive sensorimotor control mechanisms in these patients. Index Terms: Neurophonetics, fMRI, speech recovery, motor control, glossectomy, whole-brain analysis, sparse-sampling

Evolution des activations cérébrales lors de la production de parole après exérèse au niveau de la cavité orale

International audienceUsing functional MRI, acoustic data and motor oral assessment, brain correlates of speech recovery after dramatic structural changes in the vocal tract have been investigated during three tasks: orofacial movements and speech production (vowels and syllables). Eleven patients were recorded during three sessions, preoperatively and postoperatively, 1 month and 3 months after surgery (for seven of them also 9 months after surgery). Eleven healthy subjects were recorded in parallel. A "whole brain" group analysis (patients/healthy subjects) reveals a specific activation pattern for patients, in particular during vowel task, which is session-dependent. Moreover, global lower brain activation compared to healthy subjects was found for all tasks in primary, secondary and integrative sensorimotor regions. Differences are interpreted in relation with the emergence of new speech motor goals and changes in the internal models.A partir de données d'IRM fonctionnelle, acoustiques et praxiques, nous avons étudié les corrélats cérébraux de l'adaptation de la parole après une modification structurelle importante du conduit vocal lors de trois tâches : mouvements oro-faciaux silencieux, voyelles et syllabes. Onze patients ont été enregistrés lors de trois sessions, pré-opératoire et post-opératoire à 1 mois et 3 mois (pour sept d'entre eux aussi à 9 mois). Onze sujets contrôles ont été enregistrés en parallèle. Une analyse de groupe (patients/contrôles) " cerveau entier " révèle des patrons d'activation spécifiques aux patients au cours des différentes sessions en particulier pour la tâche de production de voyelles. De plus, une moindre activation cérébrale par rapport aux sujets sains a été observée pour toutes les tâches dans des régions motrices, sensorielles et d'intégration sensori-motrice. Nous interprétons ces résultats en relation avec la redéfinition des buts de parole et l'adaptation de modèles internes du système moteur périphérique

Transcranial Doppler ultrasound to assess cerebrovascular reactivity: reliability, reproducibility and effect of posture

Transcranial Doppler ultrasound (TCD) allows measurement of blood flow velocities in the intracranial vessels, and can be used to assess cerebral vasodilator responses to a hypercapnic stimulus. The reliability of this technique has not been established, nor is there agreement about whether the technique should be performed in sitting or lying postures. We tested the intra- and inter-rater reliability of measures of cerebrovascular reactivity (CVR) in 10 healthy adults, in sitting and lying postures. Participants underwent triplicate bilateral ultrasound assessment of flow velocities in the middle cerebral arteries whilst sitting and lying supine prior to and during inhalation of Carbogen (5% CO2, 95% O2) for 2 min. This procedure was performed twice by each of two raters for a total of four sessions. CVR was calculated as the difference between baseline and the peak blood flow velocity attained during CO2 inhalation. Intraclass correlation coefficients (ICCs) for intra-rater reliability were greater sitting than lying for both raters (e.g. Rater 1 ICC sitting = 0.822, lying = 0.734), and inter-rater reliability was also greater in sitting (e.g. sitting ICC = 0.504, lying = 0.081). These results suggest that assessment of CVR using TCD should be performed with participants sitting in order to maximise CVR measurement reliability