References of "Bahri, Mohamed Ali"
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See detailNeural correlates of consciousness in patients who have emerged from a minimally conscious state: A cross-sectional multimodal imaging study
Di Perri, Carol ULiege; Bahri, Mohamed Ali ULiege; Amico, Enrico ULiege et al

in Lancet Neurology (2016), 15

Background Between pathologically impaired consciousness and normal consciousness exists a scarcely researched transition zone, referred to as emergence from minimally conscious state, in which patients ... [more ▼]

Background Between pathologically impaired consciousness and normal consciousness exists a scarcely researched transition zone, referred to as emergence from minimally conscious state, in which patients regain the capacity for functional communication, object use, or both. We investigated neural correlates of consciousness in these patients compared with patients with disorders of consciousness and healthy controls, by multimodal imaging. Methods In this cross-sectional, multimodal imaging study, patients with unresponsive wakefulness syndrome, patients in a minimally conscious state, and patients who had emerged from a minimally conscious state, diagnosed with the Coma Recovery Scale–Revised, were recruited from the neurology department of the Centre Hospitalier Universitaire de Liège, Belgium. Key exclusion criteria were neuroimaging examination in an acute state, sedation or anaesthesia during scanning, large focal brain damage, motion parameters of more than 3 mm in translation and 3° in rotation, and suboptimal segmentation and normalisation. We acquired resting state functional and structural MRI data and ¹⁸F-fl uorodeoxyglucose (FDG) PET data; we used seed-based functional MRI (fMRI) analysis to investigate positive default mode network connectivity (within-network correlations) and negative default mode network connectivity (between-network anticorrelations). We correlated FDG-PET brain metabolism with fMRI connectivity. We used voxel- based morphometry to test the eff ect of anatomical deformations on functional connectivity. Findings We recruited a convenience sample of 58 patients (21 [36%] with unresponsive wakefulness syndrome, 24 [41%] in a minimally conscious state, and 13 [22%] who had emerged from a minimally conscious state) and 35 healthy controls between Oct 1, 2009, and Oct 31, 2014. We detected consciousness-level-dependent increases (from unresponsive wakefulness syndrome, minimally conscious state, emergence from minimally conscious state, to healthy controls) for positive and negative default mode network connectivity, brain metabolism, and grey matter volume (p<0·05 false discovery rate corrected for multiple comparisons). Positive default mode network connectivity diff ered between patients and controls but not among patient groups (F test p<0·0001). Negative default mode network connectivity was only detected in healthy controls and in those who had emerged from a minimally conscious state; patients with unresponsive wakefulness syndrome or in a minimally conscious state showed pathological between-network positive connectivity (hyperconnectivity; F test p<0·0001). Brain metabolism correlated with positive default mode network connectivity (Spearman’s r=0·50 [95% CI 0·26 to 0·61]; p<0·0001) and negative default mode network connectivity (Spearman’s r=–0·52 [–0·35 to –0·67); p<0·0001). Grey matter volume did not diff er between the studied groups (F test p=0·06). Interpretation Partial preservation of between-network anticorrelations, which are seemingly of neuronal origin and cannot be solely explained by morphological deformations, characterise patients who have emerged from a minimally conscious state. Conversely, patients with disorders of consciousness show pathological between-network correlations. Apart from a deeper understanding of the neural correlates of consciousness, these fi ndings have clinical implications and might be particularly relevant for outcome prediction and could inspire new therapeutic options. [less ▲]

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See detailRelationship between grey matter integrity and executive abilities in aging
Manard, Marine ULiege; Bahri, Mohamed Ali ULiege; Salmon, Eric ULiege et al

in Brain Research (2016), 1642

This cross-sectional study was designed to investigate grey matter changes that occur in healthy aging and the relationship between grey matter characteristics and executive functioning. Thirty-six young ... [more ▼]

This cross-sectional study was designed to investigate grey matter changes that occur in healthy aging and the relationship between grey matter characteristics and executive functioning. Thirty-six young adults (18 to 30 years old) and 43 seniors (60 to 75 years old) were included. A general executive score was derived from a large battery of neuropsychological tests assessing three major aspects of executive functioning (inhibition, updating and shifting). Age-related grey matter changes were investigated by comparing young and older adults using voxel-based morphometry and voxel-based cortical thickness methods. A widespread difference in grey matter volume was found across many brain regions, whereas cortical thinning was mainly restricted to central areas. Multivariate analyses showed age-related changes in relatively similar brain regions to the respective univariate analyses but appeared more limited. Finally, in the older adult sample, a significant relationship between global executive performance and decreased grey matter volume in anterior (i.e. frontal, insular and cingulate cortex) but also some posterior brain areas (i.e. temporal and parietal cortices) as well as subcortical structures was observed. Results of this study highlight the distribution of age-related effects on grey matter volume and show that cortical atrophy does not appear primarily in “frontal” brain regions. From a cognitive viewpoint, age-related executive functioning seems to be related to grey matter volume but not to cortical thickness. Therefore, our results also highlight the influence of methodological aspects (from preprocessing to statistical analysis) on the pattern of results, which could explain the lack of consensus in literature. [less ▲]

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See detailDiffusion MRI for following tumor modifications after neoadjuvant radiotherapy.
LALLEMAND, François ULiege; Leroi, Natacha ULiege; Bahri, Mohamed Ali ULiege et al

in Radiotherapy & Oncology (2016), 119

Neoadjuvant radiotherapy (NeoRT) improves tumor local control and tumor resection in many cancers. The timing between the end of the NeoRT and surgery is driven by the occurrence of side effects or the ... [more ▼]

Neoadjuvant radiotherapy (NeoRT) improves tumor local control and tumor resection in many cancers. The timing between the end of the NeoRT and surgery is driven by the occurrence of side effects or the tumor downsizing. Some studies demonstrated that the timing of surgery and the RT schedule could influence tumor dissemination and subsequently patient overall survival. We demonstrated the impact of NeoRT on metastatic spreading in a Scid mice model. After an irradiation of 2x5gy, we show more metastasis in the lung when the mice are operated at day 4 compared to day 11. Here, our aim is to evaluate with functional MRI (fMRI) the impact of the radiation treatment on the tumor microenvironment and subsequently to identify non-invasive markers helping to determine the best timing to perform surgery for avoiding tumor spreading. [less ▲]

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See detailMultimodality imaging assessment of the deleterious role of the intraluminal thrombus on the growth of abdominal aortic aneurysm in a rat model
NCHIMI LONGANG, Alain ULiege; Courtois, Audrey ULiege; EL HACHEMI, Mounia ULiege et al

in European Radiology (2016), 26

Objectives To evaluate imaging changes occurring in a rat model of elastase-induced abdominal aortic aneurysm (AAA), with emphasis on the intraluminal thrombus (ILT) occurrence. Methods The post-induction ... [more ▼]

Objectives To evaluate imaging changes occurring in a rat model of elastase-induced abdominal aortic aneurysm (AAA), with emphasis on the intraluminal thrombus (ILT) occurrence. Methods The post-induction growth of the AAA diameter was characterized using ultrasound in 22 rats. ILT was reported on 13 rats that underwent 14 magnetic resonance imaging (MRI) 2-18 days post-surgery, and on 10 rats that underwent 18 fluoro-deoxyglucose (FDG) positron emission tomography (PET)/microcomputed tomography examinations 2-27 days post-surgery. Logistic regressions were used to establish the evolution with time of AAA length, diameter, ILT thickness, volume, stratification, MRI and FDG PET signalling properties, and histological assessment of inflammatory infiltrates. Results All of the following significantly increased with time post-induction (p < 0.001): AAA length, AAA diameter, ILT maximal thickness, ILT volume, ILT iron content and related MRI signalling changes, quantitative uptake on FDG PET, and the magnitude of inflammatory infiltrates on histology. However, the aneurysm growth peak followed occurrence of ILT approximately 6 days after elastase infusion. Conclusion Our model emphasizes that occurrence of ILT precedes AAA peak growth. Aneurysm growth is associated with increasing levels of iron, signalling properties changes in both MRI and FDG PET, relating to its biological activities. [less ▲]

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See detailNeural correlates of event clusters in past and future thoughts: How the brain integrates specific episodes with autobiographical knowledge
Demblon, Julie ULiege; Bahri, Mohamed Ali ULiege; D'Argembeau, Arnaud ULiege

in NeuroImage (2016), 127

When remembering the past or envisioning the future, events often come to mind in organized sequences or stories rather than in isolation from one another. The aim of the present fMRI study was to ... [more ▼]

When remembering the past or envisioning the future, events often come to mind in organized sequences or stories rather than in isolation from one another. The aim of the present fMRI study was to investigate the neural correlates of such event clusters. Participants were asked to consider pairs of specific past or future events: in one condition, the two events were part of the same event cluster (i.e., they were thematically and/or causally related to each other), whereas in another condition the two events only shared a surface feature (i.e., their location); a third condition was also included, in which the two events were unrelated to each other. The results showed that the processing of past and future events that were part of a same cluster was associated with higher activation in the medial prefrontal cortex (PFC), rostrolateral PFC, and left lateral temporal and parietal regions, compared to the two other conditions. Furthermore, functional connectivity analyses revealed an increased coupling between these cortical regions. These findings suggest that largely similar processes are involved in organizing events in clusters for the past and the future. The medial and rostrolateral PFC might play a pivotal role in mediating the integration of specific events with conceptual autobiographical knowledge ‘stored’ in more posterior regions. Through this integrative process, this set of brain regions might contribute to the attribution of an overarching meaning to representations of specific past and future events, by contextualizing them with respect to personal goals and general knowledge about one's life story. [less ▲]

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See detailMonte Carlo simulations of the dose from imaging with GE eXplore 120 micro-CT using gate.
Bretin, Florian; Bahri, Mohamed Ali ULiege; Luxen, André ULiege et al

in Medical Physics (2015), 42(10), 5711-5719

Purpose: Small animals are increasingly used as translational models in preclinical imaging studies, during which the subjects can be exposed to large amounts of radiation. While the radiation levels are ... [more ▼]

Purpose: Small animals are increasingly used as translational models in preclinical imaging studies, during which the subjects can be exposed to large amounts of radiation. While the radiation levels are generally sublethal, studies have shown that low-level radiation can change physiological parameters in mice. In order to rule out any influence of radiation on the outcome of such experiments, or resulting deterministic effects in the subjects, the levels of radiation involved need to be addressed. The aim of this study was to investigate the radiation dose delivered by the GE eXplore 120 microCT non-invasively using Monte Carlo simulations in GATE and to compare results to previously obtained experimental values. Methods: Tungsten X-ray spectra were simulated at 70, 80, and 97 kVp using an analytical tool and their half-value layers were simulated for spectra validation against experimentally measured values of the physical X-ray tube. A Monte Carlo model of the microCT system was set up and four protocols that are regularly applied to live animal scanning were implemented. The computed tomography dose index (CTDI) inside a PMMA phantom was derived and multiple field of view acquisitions were simulated using the PMMA phantom, a representative mouse and rat. Results: Simulated half-value layers agreed with experimentally obtained results within a 7% error window. The CTDI ranged from 20 to 56 mGy and closely matched experimental values. Derived organ doses in mice reached 459 mGy in bones and up to 200 mGy in soft tissue organs using the highest energy protocol. Dose levels in rats were lower due to the increased mass of the animal compared to mice. The uncertainty of all dose simulations was below 14%. Conclusions: Monte Carlo simulations proved a valuable tool to investigate the 3D dose distribution in animals from microCT. Small animals, especially mice (due to their small volume), receive large amounts of radiation from the GE eXplore 120 microCT, which might alter physiological parameters in a longitudinal study setup. [less ▲]

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See detailEVALUATION OF SV2Alox/Cre TRANSGENIC MOUSE USING [18F]UCB-H IN IN VITRO AUTORADIOGRAPHY
Serrano Navacerrada, Maria Elisa ULiege; Becker, Guillaume ULiege; MENTEN, Catherine ULiege et al

Poster (2015, September 04)

Background: SV2A is the most studied isoform of the Synaptic Vesicle 2 proteins, which are involved in the synaptic vesicle trafficking. Interestingly, the SV2A has been identify as the binding site for ... [more ▼]

Background: SV2A is the most studied isoform of the Synaptic Vesicle 2 proteins, which are involved in the synaptic vesicle trafficking. Interestingly, the SV2A has been identify as the binding site for the antiepileptic drug levetiracetam, showing a close relation between the epilepsy, the dysregulation of the SV2A levels and the response to antiepileptic medications. SV2A floxed-mice were developed using a cre-lox technique, leading to a strong decrease of SV2A expression in the CA3 field of the hippocampus. We aim here to validate this model using [18F]UCB-H, a novel PET imaging radiotracer with a nanomolar affinity for human SV2A. Methods: In vitro autoradiography were performed on SV2Alox/Cre+ transgenic mouse brain slices. SV2Alox/Cre- mouse was used as control. To obtain a structural reference, brain slices underwent eosin-haematoxylin staining. Images of both procedures were coregistered using π-PMOD software. Regions of interest (Dentate Gyrus, CA1, CA2 and CA3) were drawn according to a stereotaxic atlas of the mouse brain. Results: Analyses showed significant differences in radiotracer binding (p<0.001) between SV2Alox/Cre+ mouse and SV2Alox/Cre- mouse highlighting an important reduction for the labelling density in Ammon's horn, particularly in CA1, compared to Dentate Gyrus where the diminution was less marked. Conclusions: Here, we used the radiotracer [18F]UCB-H to probe the decreased expression of SV2A protein in the hippocampus of SV2Alox/Cre+ mouse versus SV2Alox/Cre- control mouse. Our results contribute to the validation of the model, and encourage us to proceed with further longitudinal and behavioural studies. [less ▲]

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See detailPrevalence of increases in functional connectivity in visual, somatosensory and language areas in congenital blindness
Heine, Lizette ULiege; Bahri, Mohamed Ali ULiege; cavaliere, Carlo et al

in Frontiers in Neuroanatomy (2015), 3(295),

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See detailCerebral functional connectivity periodically (de)synchronizes with anatomical constraints
Liegeois, Raphaël ULiege; Ziegler, Erik; Bahri, Mohamed Ali ULiege et al

in Brain Structure and Function (2015)

This paper studies the link between resting-state functional connectivity (FC), measured by the correlations of the fMRI BOLD time courses, and structural connectivity (SC), estimated through fiber ... [more ▼]

This paper studies the link between resting-state functional connectivity (FC), measured by the correlations of the fMRI BOLD time courses, and structural connectivity (SC), estimated through fiber tractography. Instead of a static analysis based on the correlation between SC and the FC averaged over the entire fMRI time series, we propose a dynamic analysis, based on the time evolution of the correlation between SC and a suitably windowed FC. Assessing the statistical significance of the time series against random phase permutations, our data show a pronounced peak of significance for time window widths around 20-30 TR (40-60 sec). Using the appropriate window width, we show that FC patterns oscillate between phases of high modularity, primarily shaped by anatomy, and phases of low modularity, primarily shaped by inter-network connectivity. Building upon recent results in dynamic FC, this emphasizes the potential role of SC as a transitory architecture between different highly connected resting state FC patterns. Finally, we show that networks implied in consciousness-related processes, such as the default mode network (DMN), contribute more to these brain-level fluctuations compared to other networks, such as the motor or somatosensory networks. This suggests that the fluctuations between FC and SC are capturing mind-wandering effects. [less ▲]

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See detail[18F]UCB-H as a new PET radiotracer for Synaptic vesicle protein 2A: A first clinical trial.
Bahri, Mohamed Ali ULiege; Stifkens, M; Bastin, Christine ULiege et al

in Tijdschrift voor Nucleaire Geneeskunde (2015, May 09), 37(3), 1457-1458

The synaptic vesicle protein 2A (SV2A) is widely distributed in the brain and has been demonstrated to be involved in vesicle trafficking. The critical role of SV2A in proper nervous system function is ... [more ▼]

The synaptic vesicle protein 2A (SV2A) is widely distributed in the brain and has been demonstrated to be involved in vesicle trafficking. The critical role of SV2A in proper nervous system function is shown, e.g., by the fact that it is a binding site and the primary mechanism of the antiepileptic drug levetiracetam. This drug has recently been suggested to reduce synaptic deficits in a mouse model for Alzheimer’s disease. We here aimed to investigate the cerebral distribution of [18F]UCB-H, which has a high affinity with the SV2A. Dynamic PET data of the head of 4 healthy volunteers were acquired over 100 minutes after injection of 170.4 ± 24.9 MBq of GMP produced [18F]UCB-H. The arterial input function (IF) was obtained by blood sampling but also derived from the dynamic data using the correlation coefficient method. Blood data revealed a consistent amount of [18F]UCB-H in whole blood and plasma indicating a very low degree of binding of the tracer to the red blood cells. The unchanged fraction of [18F]UCB-H in plasma showed a bi-exponential behavioral decrease with a starting fraction of 92% of the injected amount of the tracer, measured at 3 min post injection. This fraction decreased to about 50% at 10 min post injection. The image-derived arterial IFs showed to be very similar to the measured ones with a peak-ratio around 0.91 and an area-under-curve ratio about 0.98. The PET images showed a high and rapid uptake of [18F]UCB-H in the grey matter structures, matching the known ubiquitous distribution of the SV2A in the brain. The kinetics of the tracer in the brain was characterized by an initial high uptake phase followed by rapid washout. For the three standard compartmental models (1-tissue, 2-tissue, and Logan Plot), similar results were obtained with both the measured and image-derived IFs. Nevertheless the two-tissue compartment model fitted the experimental data best and provided a total distribution volume of the [18F]UCB-H in the brain greater than 7 mL/cm3 and a specific distribution volume around 3 mL/cm3. Our results suggest that [18F]UCB-H is a good candidate as radiotracer for brain SV2A proteins and could be used for human studies (dosimetry has already been reported elsewhere). Image-derived IF showed to be useful for quantitative studies without the need to the arterial blood sampling. This new tracer could help to assess SV2A modifications in neurological pathologies such as Alzheimer’s disease. [less ▲]

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See detail[18F]FMT: a reliable PET tracer for in vivo evaluation of dopaminergic dysfunction in Parkinson’s Disease rat model.
Seret, Alain ULiege; Becker, Guillaume ULiege; Bahri, Mohamed Ali ULiege et al

Poster (2015, May 09)

Background: Rat models of Parkinson’s disease (PD), such as lesioned rats with 6-hydroxydopamine (6-OHDA), are useful for studying dopamine (DA)-related functions. 6-[18F]fluoro-m-tyrosine (6-[18F]FMT) is ... [more ▼]

Background: Rat models of Parkinson’s disease (PD), such as lesioned rats with 6-hydroxydopamine (6-OHDA), are useful for studying dopamine (DA)-related functions. 6-[18F]fluoro-m-tyrosine (6-[18F]FMT) is an effective PET tracer to evaluate of DA terminals integrity and L-aromatic amino acid decarboxylase (AAAD) metabolic pathway. However, there are currently no available quantitative PET studies using [18F]FMT in 6-OHDA lesioned rats. In this context, we investigated the feasibility of in vivo PET study using [18F]FMT on 6-OHDA PD’s model. Methods: 10 µg of 6-OHDA were injected into the right medial forebrain bundle (MFB) of male Sprague-Dawley rats (n=8). As control, sham-treated rats (n=8) were injected with vehicle only but otherwise treated identically. Striatal DA presynaptic activity was assessed by dynamic [18F]FMT PET, 30 min after benserazide pretreatment. Structural T2-weighted brain images were acquired on a 9.4T MRI and were used for co-registration. After normalization on a MRI template, kinetic analysis was performed by “Patlak Reference” model, using PMOD software. Results: Striatal accumulation of [18F]FMT was observed in rats pretreated with benserazide, a peripheral AAAD inhibitor. As consequence of the 6-OHDA-lesion, significant decrease of [18F]FMT accumulation was recorded in the striatum ipsilateral to the lesion. Lesioned rats had dramatically reduced uptake constant Ki in the ipsilateral striatum compared to the contralateral striatum (p<0.001) and to the ipsilateral striatum of sham-treated rats (p<0.005). The Ki ratio (Ipsi./Contra.) was equivalent to 94% in the sham group and dropped to 41% in the lesioned group. Conclusions: [18F]FMT PET enables us to quantify loss of DA presynaptic function in unilaterally 6-OHDA lesioned rats. These results encourage us to pursue further investigations in a longitudinal way and to monitor the progression of the dopaminergic dysfunction in more moderate and gradual preclinical PD models. [less ▲]

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See detailPartial volume effect impact on PET preclinical dosimetry: a simulation study
Seret, Alain ULiege; Bahri, Mohamed Ali ULiege; Bretin, Florian et al

Conference (2015, May 09)

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See detailStrategies of regioselective radiolabeling of Nanofitin binder for imaging
Goux, Marine ULiege; Dammicco, Sylvestre ULiege; Becker, Guillaume ULiege et al

Poster (2015, May)

Recently, new strategies emerged in the field of monoclonal antibodies radiolabeling for PET imaging with the use of positron emitter such as fluorine-18, zirconium-89 or gallium-68. Despite their ... [more ▼]

Recently, new strategies emerged in the field of monoclonal antibodies radiolabeling for PET imaging with the use of positron emitter such as fluorine-18, zirconium-89 or gallium-68. Despite their important role in the therapeutic world, antibodies have many disadvantages related to their structure. Moreover, conjugation of chelating agent often occurs on lysines, which is non-regioselective and leads to a heterogeneous mixture of products. In addition, the slow clearance of antibodies can be a problem to obtain a good contrast when they are used in imaging. To address these different limitations, we developed a chemistry-free chelating system consisting of a highly phosphorylatable peptide tag fused genetically to a Nanofitin. A specific phosphorylation step, with the alpha subunit of the casein kinase II, generates a nanocluster of 4 phosphates that can interact strongly with metal ion like zirconium or gallium. This strategy has already demonstrated its powerfulness for the stable and specific anchoring of protein on zirconium phosphonate-based microarray [1]. Considering this tag has been created to specifically anchoring protein on zirconium phosphonate-based microarray, we are currently working on a sequence derived from calcium-binding proteins to chelate specifically lanthanides[2]. As described by Pardoux et al.[3], our strategy is to functionalize this sequence with a phosphate nanocluster able to chelate zirconium or gallium. Our first results shown that a mono-phosphorylatable tag phosphorylated in vitro is able to chelate terbium(III) with a lower affinity than the wild type. Considering that terbium(III) is bigger than gallium(III) or zirconium(IV), we can suppose that the cage obtained is too small but suitable for other ions. In order to validate our hypothesis, we have planned to radiolabel those tags and determine their affinity for gallium(III). In order to validate the use of Nanofitin as a potent alternative tool for in vivo imaging, we have made biokinetic studies in mice with PET and MRI imaging. In these studies, we have radiolabelled with fluorine-18 a Nanofitin and we are currently making use of its specific binding to a cell-surface receptor to target a very precise cell population by using an animal model. Once the phosphorylatable tag optimized for regioselective radiolabelling and the Nanofitin targeting validated in an animal model, the next steps will be to combine these two approaches: we will fuse genetically the tag to the specific Nanofitin, radiolabel it with gallium-68 and perform the biokinetic study of this new radiopharmaceutical product. [1] M. Cinier, M. Petit, F. Pecorari, D. R. Talham, B. Bujoli, and C. Tellier, “Engineering of a phosphorylatable tag for specific protein binding on zirconium phosphonate based microarrays.,” J. Biol. Inorg. Chem., vol. 17, no. 3, pp. 399–407, Mar. 2012. [2] L. J. Martin, “Development of Lanthanide-Binding Tags (LBTs) as powerful and versatile peptides for use in studies of proteins and protein interactions,” 2008. [3] R. Pardoux, S. Sauge-merle, D. Lemaire, P. Delangle, L. Guilloreau, J. Adriano, and C. Berthomieu, “Modulating Uranium Binding Affinity in Engineered Calmodulin EF-Hand Peptides : Effect of Phosphorylation,” PLoS One, vol. 7, no. 8, 2012. [less ▲]

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See detailFunctional MRI for predicting metastatic spreading at the time of surgery after neoadjuvant radiotherapy
LALLEMAND, François ULiege; Leroi, Natacha ULiege; Bahri, Mohamed Ali ULiege et al

Poster (2015, April)

Neoadjuvant radiotherapy (NeoRT) improves tumor local control and tumor resection in many cancers. The timing between the end of the NeoRT and surgery is driven by the occurrence of side effects or the ... [more ▼]

Neoadjuvant radiotherapy (NeoRT) improves tumor local control and tumor resection in many cancers. The timing between the end of the NeoRT and surgery is driven by the occurrence of side effects or the tumor downsizing. Some studies demonstrated that the timing of surgery and the RT schedule could influence tumor dissemination and subsequently patient overall survival. Our aim is to evaluate with functional MRI the impact of the radiation treatment on the tumor microenvironment and subsequently to determine the best timing to perform surgery for avoiding tumor spreading. [less ▲]

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See detail18F-FMT: a reliable PET tracer for in vivo evaluation of dopaminergic dysfunction in Parkinson’s Disease rat model.
Becker, Guillaume ULiege; Bahri, Mohamed Ali ULiege; Michel, Anne et al

Poster (2015, March 18)

Objectives: Rat models of Parkinson’s disease (PD), such as lesioned rats with 6-hydroxydopamine (6-OHDA), are useful for studying dopamine (DA)-related functions. 6-18F-fluoro-m-tyrosine (6-18F-FMT) is ... [more ▼]

Objectives: Rat models of Parkinson’s disease (PD), such as lesioned rats with 6-hydroxydopamine (6-OHDA), are useful for studying dopamine (DA)-related functions. 6-18F-fluoro-m-tyrosine (6-18F-FMT) is an effective PET tracer to evaluate of DA terminals integrity and L-aromatic amino acid decarboxylase (AAAD) metabolic pathway. However, there are currently no available quantitative PET studies using 18F-FMT in 6-OHDA lesioned rats. In this context, we investigated the feasibility of in vivo PET study using 18F-FMT on 6-OHDA PD’s model. Methods: 10 µg of 6-OHDA were injected into the right medial forebrain bundle (MFB) of male Sprague-Dawley rats (n=8). As control, sham-treated rats (n=8) were injected with vehicle only but otherwise treated identically. Striatal DA presynaptic activity was assessed by dynamic 18F-FMT-PET. Structural T2-weighted brain images were acquired on a 9.4T MRI and were used for co-registration. After normalization on a MRI template, kinetic analysis was performed by “Patlak Reference” model, using PMOD software. Results: Striatal accumulation of 18F-FMT was observed in rats pretreated with benserazide, a peripheral AAAD inhibitor. As consequence of the 6-OHDA-lesion, significant decrease of 18F-FMT accumulation was recorded in the striatum ipsilateral to the lesion. Lesioned rats had dramatically reduced uptake constant Ki in the ipsilateral striatum compared to the contralateral striatum (p<0.001) and to the ipsilateral striatum of sham-treated rats (p<0.005). The Ki ratio (Ipsi./Contra.) was equivalent to 94% in the sham group and dropped to 41% in the lesioned group. Conclusions: 18F-FMT PET enables us to quantify loss of DA presynaptic function in unilaterally 6-OHDA lesioned rats. These results encourage us to pursue further investigations in a longitudinal way and to monitor the progression of the dopaminergic dysfunction in more moderate and gradual preclinical PD models. [less ▲]

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See detailIdentification of predictive markers based on functional imaging of metastatic spreading at the time of surgery after neoadjuvant radiotherapy
LALLEMAND, François ULiege; Leroi, Natacha ULiege; Bahri, Mohamed Ali ULiege et al

Poster (2015, January 27)

Neoadjuvant radiotherapy (NeoRT) improves tumor local control and tumor resection in many cancers. The timing between the end of the NeoRT and surgery are driven by the occurrence of side effects or the ... [more ▼]

Neoadjuvant radiotherapy (NeoRT) improves tumor local control and tumor resection in many cancers. The timing between the end of the NeoRT and surgery are driven by the occurrence of side effects or the tumor downsizing. Some studies demonstrated that the timing of surgery and the RT schedule could influence tumor dissemination. Our aim is to evaluate with functional MRI the impact of the radiation treatment on the tumor microenvironment and subsequently to determine the best timing to perform surgery. We used a model of NeoRT, 4T1 cells were implanted in the flank of BalbC mice. Seven days after, tumors were irradiated with 2x5Gy than we surgically removed this lesion 11 days after RT. Diffusion Weighted (DW) and Dynamic Contrast Enhancement (DCE) -MRI was performed every 2 days during 11 days between RT and surgery. We developed a homemade “portacath” specifically dedicated for mice and for repetitive I.V. contrast agent injection. For DW-MRI, we performed sequences with 10 different B-value to achieve IntraVoxel Incoherent Motion analysis. For DCE-MRI, we used FSEMS sequence for keeping the same slices as with DW-MRI. For both images, we performed analysis on the entire tumor volume. We obtained very promising preliminary results showing good uniformity in the ADC (Attenuation Diffusion Coefficient). We succeeded to follow mice with imaging during the 11 days without major troubles. We observed less variability of the ADC signal during the 11 days in the irradiated tumors compared to the control. The signal to noise ratio was relatively poor for the diffusion sequence and need to be improved. For the first time, we demonstrate the feasibility of repetitive MRI functional imaging in a mice model of NeoRT. These results open perspectives for studying modifications of the tumor microenvironment induced by neoadjuvant RT. The techniques need to be improved and correlated to the tumor dissemination in function of the RT schedule and timing of surgery. [less ▲]

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See detailEffects of α-synuclein levels on cerebral synaptic function: Validation of a novel PET radioligand for the early diagnosis of Parkinson’s disease
Tarragon Cros, Ernesto ULiege; Ferrara, André ULiege; Tirelli, Ezio ULiege et al

Poster (2015, January 27)

Background In Parkinson’s disease, converging evidence supports a pathogenic role for excessive α–synuclein accumulation in synaptic terminals that may propagate back to the soma of vulnerable nerve cells ... [more ▼]

Background In Parkinson’s disease, converging evidence supports a pathogenic role for excessive α–synuclein accumulation in synaptic terminals that may propagate back to the soma of vulnerable nerve cells such as neurons in the substantia nigra pars compacta. The resulting loss of dopaminergic terminals in the striatum can be demonstrated in vivo using 18F-Dopa-PET (positron emission tomography). However, there’s currently no validated biomarker of the progressive synaptic dysfunction in other vulnerable areas such as the cerebral cortex. Goal In this longitudinal study, we will test the hypothesis that the loss of synaptic terminals in a mouse model of excessive α–synuclein accumulation can be demonstrated in vivo before the occurrence of behavioural disturbances using 18F-UCB-H, a new PET biomarker developed at CRC. We will also test if this new imaging modality is sensitive enough to study the effect of a disease modifying therapy such as chronic physical exercise. Methods We will use microPET for the in vivo quantification of 18F-UCB-H brain uptake in 16 wild type animals and 16 transgenic (Tg) mice overexpressing human α–syn under the mThy1 promotor every 2 months. Data will be validated against post-mortem analyses after the last PET study. Predictions We predict decreased tracer uptake over time in the basal ganglia and cerebral cortex in Tg mice as compared with WT animals. Also, we predict a relationship between 18F-UCB-H uptake levels in basal ganglia and cerebral cortex and progressive alterations in both motor and cognitive functions, respectively. Further, we also expect that chronic exercise will slow down both motor and cognitive disturbances, as well as the rate of 18F-UCB-H brain uptake decreases. Conclusion If 18F-UCB-H PET proves to be a valid biomarker for the early detection of α–synuclein accumulation in the pre-clinical model of PD, the methods will tested on human clinical populations. [less ▲]

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