RESUMO
Objective To investigate the effect of curcumin on brain glucose metabolism in rat models of intracerebral hemorrhage ( ICH), and evaluate the therapeutic effect of curcumin. Methods Twenty-four healthy adult male SD rats were randomly divided into 4 groups ( 6 rats/group) by simple random sampling method:normal group ( group A) , ICH+curcumin group ( group B) , ICH +vehicle group ( group C) , and sham operated group (group D). ICH model was made by injecting collagenase (2 μl) into the right cau-date nucleus of rat. 18F-FDG with a dose of (17.8±0.4) MBq was injected through caudal vein at 6 h, 24 h, 48 h, 3 d, 5 d, 7 d, 14 d after the model was built successfully. 18F-FDG microPET/CT was performed 30 min post injection at each time point. ROI in the hematoma and peri-hematoma brain tissue was drawn, and its volume and SUVmean were measured and analyzed. Meanwhile, each rat was evaluated by neurological severi-ty scores ( NSS) . Analysis of variance for repeated measurement data and Pearson correlation analysis were used. Results NSS in group B were lower than those in group C from 6 h to 5 d (F=183.26, P<0. 01). MicroPET/CT showed decreased glucose uptake in the hematoma and peri-hematoma brain tissue after cere-bral hemorrhage. In group B, the 18 F-FDG uptake in peri-hematoma brain tissue of ICH decreased after 6 h, and reached the minimum at 24 h (1.20±0.08), and then increased. The glucose metabolism in group B was significantly lower than that in group D at each time point (F=7306.74, P<0.01), and significantly higher than that in group C ( F=471.50, P<0.01) . SUVmean within ROI had a significantly negative correla-tion with both ROI volume and NSS in group B at each time point( r values:-0.672 and -0.727, both P<0. 05) . Conclusions MicroPET/CT might visualize decreased glucose uptake of hematoma and peri-hema-toma brain tissue after cerebral hemorrhage. Curcumin might have a neuroprotective effect on ICH, and im-prove the glucose uptake in hematoma and peri-hematoma brain tissue.
RESUMO
Objective To investigate the effect of curcumin on brain glucose metabolism in rat models of intracerebral hemorrhage ( ICH), and evaluate the therapeutic effect of curcumin. Methods Twenty-four healthy adult male SD rats were randomly divided into 4 groups ( 6 rats/group) by simple random sampling method:normal group ( group A) , ICH+curcumin group ( group B) , ICH +vehicle group ( group C) , and sham operated group (group D). ICH model was made by injecting collagenase (2 μl) into the right cau-date nucleus of rat. 18F-FDG with a dose of (17.8±0.4) MBq was injected through caudal vein at 6 h, 24 h, 48 h, 3 d, 5 d, 7 d, 14 d after the model was built successfully. 18F-FDG microPET/CT was performed 30 min post injection at each time point. ROI in the hematoma and peri-hematoma brain tissue was drawn, and its volume and SUVmean were measured and analyzed. Meanwhile, each rat was evaluated by neurological severi-ty scores ( NSS) . Analysis of variance for repeated measurement data and Pearson correlation analysis were used. Results NSS in group B were lower than those in group C from 6 h to 5 d (F=183.26, P<0. 01). MicroPET/CT showed decreased glucose uptake in the hematoma and peri-hematoma brain tissue after cere-bral hemorrhage. In group B, the 18 F-FDG uptake in peri-hematoma brain tissue of ICH decreased after 6 h, and reached the minimum at 24 h (1.20±0.08), and then increased. The glucose metabolism in group B was significantly lower than that in group D at each time point (F=7306.74, P<0.01), and significantly higher than that in group C ( F=471.50, P<0.01) . SUVmean within ROI had a significantly negative correla-tion with both ROI volume and NSS in group B at each time point( r values:-0.672 and -0.727, both P<0. 05) . Conclusions MicroPET/CT might visualize decreased glucose uptake of hematoma and peri-hema-toma brain tissue after cerebral hemorrhage. Curcumin might have a neuroprotective effect on ICH, and im-prove the glucose uptake in hematoma and peri-hematoma brain tissue.
RESUMO
Objective To investigate the brain glucose metabolism with 18 F?FDG microPET/CT in mouse models of intracerebral hemorrhage (ICH). Methods A total of 12 healthy adult male mice were randomly divided into sham operation group (group A, n=6) and ICH model group (group B, n=6) by simple random sampling method. The animal models were established by injecting collagenase Ⅳ into the caudate nucleus of mice. Thereafter (5.5±0.3) MBq of 18F?FDG was injected into caudal vein at 6 h, 24 h, 48 h and 3 d, 5 d, 8 d, 14 d, respectively, following anesthesia. 18 F?FDG microPET/CT scans were ac?quired 30 min after the trace injection. SUV in the perihematomal brain tissue of ICH was measured and an?alyzed. Two?sample t test was used to compare SUV between groups. Results ( 1) Some mice had mild neurologic deficit after the sham operation in group A, while all mice had a marked neurologic deficit in group B, especially at 24 h after 18 F?FDG injection. ( 2) After 6 h, FDG uptake in perihematomal brain tis?sue decreased(SUV=0.80±0.04), which significantly lower than that in the opposite side(SUV=1.10± 0?04;t=2.69, P<0.05) and decreased to the minimum at 24 h(SUV=0.50±0.05). 18F?FDG uptake in perihematomal brain tissue began to increase at 3 d(SUV=1.20±0.05) and kept increasing during the 14 d observation. Compared with the group A, glucose metabolism in group B was significantly lower at each time point(t=37.67-86.60, all P<0.05). Conclusions 18 F?FDG microPET/CT may dynamically reflect the changes of brain glucose metabolism in ICH mouse models. The FDG uptake in the center of ICH may disap?pear and the volume of hematoma with decreased uptake may shrink during the observation period.