0171: Identification of complicated carotid plaques by adding functional fluorodeoxyglucose-positron emission tomographic imaging to morphological characteristics on computed tomographic angiography

AimWe developed a simple semi-quantitative score for the analysis of carotid plaques with FDG-PET-CTA imaging and tested whether adding functional imaging criteria extracted from FDG-PET imaging to morphological plaque characteristics identified with CTA might improve the detection of complicated plaques.Material and MethodsTwenty-eight patients scheduled for carotid endarterectomy were imaged with PET after injection of FDG followed by CTA of the supra-aortic trunks. Morphological aspects of plaques identified with CTA and metabolic activity quantified with FDG-PET (Tissue to Background ratio, TBR) were measured in the carotid segment with the highest degree of luminal stenosis and graded using semi-quantitative CT and PET scores. Combined score was calculated for each carotid artery by summing CT and PET scores. After carotid endarterectomy, vascular surgeons classified carotid plaques macroscopically as complicated or non-complicated.ResultsTwenty-eight carotid arteries were operated in 26 patients (24 symptomatic patients). Sixteen plaques were classified macroscopically as complicated. CTA detected hypodense regions and ulcerations in 81% and 25%, of complicated plaques, and in 33% and 0% of non-complicated plaques, respectively. Hypodense areas on CTA identified complicated plaques with a sensitivity of 87% and a specificity of 67%. Mean TBR with FDG-PET was measured at 2.2±0.4 in complicated plaques and 1.9±0.3 in non-complicated plaques (p<0.05). Values for the semi-quantitative score based on plaques characteristics with CTA and FDG-PET were 5.4±1.7 in complicated plaques and 2.5±2.4 in non-complicated plaques (p<0.05). A combined PET-CT score≥3 identified complicated plaques with a sensitivity of 100% and a specificity of 67%.ConclusionsAdding FDG-PET imaging criteria to morphological characteristics of plaques on CTA improved the sensitivity of the detection of complicated carotid plaques

255 In vivo detection of non-occlusive thrombi in drug-eluting stents by scintigraphy and radio-labelled annexin V in a rabbit model

IntroductionThrombi in contact with non re-endothelialized stent struts associated with drug-eluting stent (DES) thrombosis. Hence, detection of thrombi in DES could help to evaluate the risk of DES thrombosis. Annexin V radio-labelled with 99mTechnetium (99mTc) is a radio-tracer with a high affinity for activated platelets.ObjectivesOur objectives were: 1) to develop an animal model of non-occlusive thrombosis of stents, 2) to evaluate the ability of annexin V 99mTc for the detection of in-stent thrombi using scintigraphy.MethodsRight carotid arteries of NZW rabbits (n=14) fed a high cholesterol diet were implanted with overlapping DES (n=7) or bare-metal stents (BMS; n=7). Four weeks after stent implantation, rabbits underwent a first scintigraphy 3 hours after injection of 200 MBq of radio-labelled annexin V 99mTc. At the end of the first scintigraphy, a suture was placed surgically proximal to the stented carotid arteries in order to induce a thrombus-prone flow limiting stenosis. Four days later, a second scintigraphy was performed. After the second scintigraphy, stents were excised, imaged ex vivo and then fixed for histological examination and scanning electron microscopy (SEM).ResultsActivities measured in vivo in the stented carotid arteries after injection of annexin V 99mTc were higher on the second scintigraphy after creation of a surgical stenosis as compared to the first scintigraphy (0.24 vs. 0.15 counts/pixel/MBq, respectively; p<0.05). On the second scintigraphy, activities were higher in DES vs. BMS (0.26 vs. 0.19 counts/pixel/MBq, respectively; p < 0.005). High activities measured in stents in vivo were associated with the detection of thrombi on corresponding histological sections and SEM.ConclusionsIn this work, we developed a rabbit model of non-occlusive thrombosis of stents in carotid arteries. In this model, in-stent thrombi could be detected using annexin V 99mTc scintigraphy

Developement of molecular imaging of arterial thrombus

Le thrombus artériel, ou thrombus intra-luminal (ILT), est impliqué à des degrés divers dans la majorité des pathologies cardiovasculaires dégénératives. Actuellement, sa détection et sa caractérisation repose sur des techniques d'imagerie morphologique qui ne renseignent pas sur l'évolution possible du thrombus en relation avec son profil d'activités biologiques. Dans ce contexte, l'imagerie moléculaire du thrombus a 3 objectifs principaux : (1) la détection du thrombus initial et la recherche de localisations secondaires, (2) l'évaluation du potentiel évolutif du thrombus et de son impact sur les tissus environnants en relation avec son activité biologique, (3) l'évaluation précoce de l'efficacité thérapeutique (avant une modification morphologique). L'objectif de ce travail a été de développer des agents d'imagerie moléculaire des activités biologiques de l'ILT. En ce qui concerne l'activité proagrégante du thrombus artériel, nous avons mis en évidence le lien existant entre l'intensité du signal en Annexine A5 radiomarquée détecté in vivo et l'intensité de l'activité proagrégante dans un modèle d'endocardite infectieuse. Nous avons développé un nouveau traceur élaboré sur la base d'un ligand naturel et de haute affinité (le fucoïdan) de la P-sélectine exprimée par les plaquettes activées, puis validé sa capacité à détecter in vivo le thrombus artériel. En ce qui concerne l'activité plasminergique du thrombus artériel, nous avons utilisé l'aprotinine radiomarquée pour détecter la plasmine dans le thrombus anévrysmal humain ex vivo, puis entamé une collaboration pour optimiser son radiomarquage en utilisant un tag peptidique sans cystéine en position N-terminale. Parallèlement nous avons développé une nouvelle approche basée sur un inhibiteur peptidique conjugué à un agent chélateur bifonctionnelArteriel or intra-luminal thrombus (ILT) is involved to various degrees in most of the degenerative cardiovascular diseases. Its detection and characterization is currently based on morphological imaging techniques that do not provide information about its possible evolution in relation to biological activities profile. In this context, molecular imaging of thrombus has three main objectives: (1) detection of the initial thrombus and of secondary locations, (2) evaluation of the thrombus evolutive potential and its impact on surrounding tissues in relationship with its biological activity, and (3) early assessment of therapeutic efficacy (before morphological changes). The aim of this work was to develop molecular imaging agents of biological activities of ILT. Regarding the proaggregant activity, we demonstrated a relationship between annexin A5 signal intensity and vegetation proaggregant activity in a model of infective endocarditis. We also developed a novel P-selectin imaging agent based on a natural high affinity ligand (fucoidan), and validated its ability to detect ILT in vivo. Regarding the plasminergic activity of ILT, we used radiolabelled aprotinin to detect plasmin in human aneurysmal thrombus ex vivo; we also initiated a collaboration to optimize its radiolabelling using a cystein-free tag peptide in N-terminal position. In parallel we developed a new approach based on a peptide inhibitor conjugated with a bifunctional chelating agen

Regional rarity versus local scarcity in plant communities: Impact of species removal on model performance in constrained ordination

International audienc

Story of Rubidium-82 and Advantages for Myocardial Perfusion PET Imaging

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Abécédaire de la coopération territoriale: des définitions pour mieux cerner un concept mouvant

National audienc

Abécédaire de la coopération territoriale: des définitions pour mieux cerner un concept mouvant

National audienc

Fractionated elution of 99Mo/99mTc generators using calibrated vials

International audienceFractionated elution consists in collecting the fractions of an eluate with the highest radioactive concentration. It may be useful to meet the requirements of a subset of clinical radiopharmacy procedures. This study aims to describe and evaluate straightforward procedures allowing to readily perform fractionated elution on dry and wet columns Mo/Tc generators by using calibrated vials. The main objectives of this study consisted in determining the relationship between eluate volume and elution yield using different vials calibration and assessing repeatability of the procedure. Elution vials were calibrated to obtain different eluate volumes by addition of air for wet column generator (WCG) and subtraction of saline for dry column generator (DCG) (n≥5 for each calibration). The relationship between the eluate volume and the elution yield was determined by a regression model for both DCG and WCG. Then repeatability evaluation was performed using 3-ml vial calibration. Relationships between the eluate volume (V) and the elution yield (Y) for DCG and WCG were Y=57.551 ln(V)+10.526 and Y=50.256 ln(V)+17.597, respectively. For repeatability assessment (n=30 for DCG and n=31 for WCG), the median volume and the interquartile range for DCG and WCG were 2.98 ml (2.92-3.01) and 3.28 ml (2.71-3.40), respectively, and median (interquartile range) eluate yields were 84.73% (81.30-86.33) and 81.78% (78.91-85.20), respectively. The volume was significantly higher for WCG than DCG (P=0.036) and also significantly more variable (P<0.001). The elution yield was significantly lower for WCG than DCG (P=0.025), but no difference in variability between the two generators was found (P=0.874). Easy-to-handle fractionated elution methods are compatible with both DCG and WCG. Fractionation using calibrated vials exhibits a better reproducibility with DCG than WCG generators and represents the only proposed method so far to master fractionated elution with DCG