Rombogenicity represented by tissue factor (TF). The aim of the study was to evaluate the uptake of 18F-FDG in the aorta of apolipoprotein E 3687-18-1 knockout (apoE2/2) mice and to correlate the tracer uptake with gene expression of the molecular markers mentioned above in order to test the hypothesis that 18FFDG can be used for in vivo imaging of key atherosclerotic processes.Materials and Methods Ethical StatementAll care and all experimental procedures were performed under the approval of the Animal Experiments Inspectorate in Denmark (permit number 2011/561?4). All efforts were made to minimize suffering.Experimental ModelHomozygous apoE2/2 mice (B6.129P2-Apoetm1UncN11) were purchased from Taconic (Taconic Europe, Denmark). The mice were 8 weeks old upon initiation of the experiment. The mice were housed under PD-1/PD-L1 inhibitor 1 site controlled humidity, temperature, and light cycle conditions, and had free access to food and water throughout the course of experiments. The mice were divided into nine groups. The characteristics of the groups are shown in Table 1. All animals were scanned once and then sacrificed. One group was scanned and sacrificed at the beginning of the experiment as a baseline group (0 weeks). Four other groups received normal chow for 8, 16, 24 or 32 weeks (8 weeks, 16 weeks, 24 weeks or 32 weeks) before scanning and sacrifice. The last four groups received a high-fat Western type diet for 8, 16, 24 or 32 weeks (8 weeks+diet, 16 weeks+diet, 24 weeks+diet or 32 weeks+diet). The high-fat Western type diet contained 21 fat and 0.21 cholesterol (diet #TD12079B, Research Diets, Inc., USA).breathing through a nose cone. 1480666 The mice were kept at a temperature of approximately 32uC from the time of the injection to the scans were executed. 18 F-FDG was obtained from our own production facilities (Rigshospitalet, Denmark). The exact concentration of the 18FFDG solution was measured in a Radioisotope Calibrator ARC120 (Amersham, United Kingdom). 20.164.8 MBq in 0.3 1676428 mL physiological saline was administered i.v. (slow injection over several minutes) to the mice in a lateral vein using a vein catheter (BD VasculonTMPlus, Becton Dickinson A/S, Denmark). Immediately after this, 0.2?.3 mL of a long circulating emulsion formulation containing an iodinated triglyceride (Fenestra VCH, ART Advanced Research Technologies Inc., Canada) was administered through the same vein catheter. The mice remained anaesthetized for approximately 30 minutes after the injection to limit the up-take of 18F-FDG in brown fat [12]. Three hours after injection, the animals were placed in a prone position on the acquisition bed and a 30 minutes PET scan was acquired, followed by a CT scan. The same acquisition bed was used for both scans, so the animals remained in precisely the same position during both scans. The animals were then sacrificed by decapitation. The blood was collected and centrifuged (3,200 RPM for 10 minutes) and plasma was transferred to a fresh tube and store at 220uC. The aorta was removed with care taken not to include any surrounding tissue and placed in RNAlaterH (Ambion Europe Limited, United Kingdom). Subsequently, the aorta was gamma counted and stored at 4uC. The following day, RNAlaterH was removed and the samples stored at 280uC until RNA extraction.CT ProtocolCT data were acquired with a MicroCAT II tomography (Siemens Medical Solutions, USA). The X-ray tube with a 0.5 mm aluminium filter was set at 60 kVp, a tube current of 500 mA, and an exposure time of.Rombogenicity represented by tissue factor (TF). The aim of the study was to evaluate the uptake of 18F-FDG in the aorta of apolipoprotein E knockout (apoE2/2) mice and to correlate the tracer uptake with gene expression of the molecular markers mentioned above in order to test the hypothesis that 18FFDG can be used for in vivo imaging of key atherosclerotic processes.Materials and Methods Ethical StatementAll care and all experimental procedures were performed under the approval of the Animal Experiments Inspectorate in Denmark (permit number 2011/561?4). All efforts were made to minimize suffering.Experimental ModelHomozygous apoE2/2 mice (B6.129P2-Apoetm1UncN11) were purchased from Taconic (Taconic Europe, Denmark). The mice were 8 weeks old upon initiation of the experiment. The mice were housed under controlled humidity, temperature, and light cycle conditions, and had free access to food and water throughout the course of experiments. The mice were divided into nine groups. The characteristics of the groups are shown in Table 1. All animals were scanned once and then sacrificed. One group was scanned and sacrificed at the beginning of the experiment as a baseline group (0 weeks). Four other groups received normal chow for 8, 16, 24 or 32 weeks (8 weeks, 16 weeks, 24 weeks or 32 weeks) before scanning and sacrifice. The last four groups received a high-fat Western type diet for 8, 16, 24 or 32 weeks (8 weeks+diet, 16 weeks+diet, 24 weeks+diet or 32 weeks+diet). The high-fat Western type diet contained 21 fat and 0.21 cholesterol (diet #TD12079B, Research Diets, Inc., USA).breathing through a nose cone. 1480666 The mice were kept at a temperature of approximately 32uC from the time of the injection to the scans were executed. 18 F-FDG was obtained from our own production facilities (Rigshospitalet, Denmark). The exact concentration of the 18FFDG solution was measured in a Radioisotope Calibrator ARC120 (Amersham, United Kingdom). 20.164.8 MBq in 0.3 1676428 mL physiological saline was administered i.v. (slow injection over several minutes) to the mice in a lateral vein using a vein catheter (BD VasculonTMPlus, Becton Dickinson A/S, Denmark). Immediately after this, 0.2?.3 mL of a long circulating emulsion formulation containing an iodinated triglyceride (Fenestra VCH, ART Advanced Research Technologies Inc., Canada) was administered through the same vein catheter. The mice remained anaesthetized for approximately 30 minutes after the injection to limit the up-take of 18F-FDG in brown fat [12]. Three hours after injection, the animals were placed in a prone position on the acquisition bed and a 30 minutes PET scan was acquired, followed by a CT scan. The same acquisition bed was used for both scans, so the animals remained in precisely the same position during both scans. The animals were then sacrificed by decapitation. The blood was collected and centrifuged (3,200 RPM for 10 minutes) and plasma was transferred to a fresh tube and store at 220uC. The aorta was removed with care taken not to include any surrounding tissue and placed in RNAlaterH (Ambion Europe Limited, United Kingdom). Subsequently, the aorta was gamma counted and stored at 4uC. The following day, RNAlaterH was removed and the samples stored at 280uC until RNA extraction.CT ProtocolCT data were acquired with a MicroCAT II tomography (Siemens Medical Solutions, USA). The X-ray tube with a 0.5 mm aluminium filter was set at 60 kVp, a tube current of 500 mA, and an exposure time of.