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Objective To evaluate the differential diagnosis value of shear wave elastography for Hashimoto's disease with benign or malignant thyroid nodules.Methods Fifty four patients of Hashimoto's disease confirmed by biopsy or pathology were enrolled.Based on benign or malignant of nodules,patients were divided into benign nodules group and malignant nodules group.And the benign group were divided into true nodules and sham nodules.Young's modulus values were measured and compared among different groups.The ROC curve was drawn to evaluate the diagnostic efficency.Results There were tatol 162 nodules in 54 cases with Hashimoto's disease,including 131 of benign nodules (93 of true nodules,38 of sham nodules) and 31 of malignant nodules.The values of Young's modulus for benign,malignant,ture nodules and sham nodules were (33.04±10.95)kPa,(66.15±19.17)kPa,(35.95±9.74)kPa and (30.13±11.87)kPa.For mean values of Young's modulus,there was significantly statistical difference between benign and malignant nodules (t=12.91,P<0.01).There was significant statistical difference of the Young's modulus among sham nodule group,true nodule group and malignant nodule group (F 36.20,P<0.01).Compared with the other two groups,the value of Young's modulus in malignant nodules was significantly higher than that in the other two groups (both P<0.01).Taking 43.65 kPa as the diagnostic point,the sensitivity,specificity,positive likelihood ratio,and negative likelihood ratio of Youngs modulus in diagnosis of benign and malignat nodules were 90.63%,81.25%,4.83,and 0.12.Conclusion Shear wave elastography technique can quantitative analysis the Hashimoto's disease and complicated nodules,which is helpful to determine the essence of the nodules.
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Objective To explore the feasibility of enhanced green fluorescent protein (EGFP) transfection into the joint synovial tissues of rheumatoid arthritis (RA) rats by ultrasound-mediated microbubble destruction.Methods Twenty-eight normal rats were established the RA rat model,four rats were control group,twenty-four rats were categorized into four experimental groups:EGFP,ultrasound +EGFP,microbubbles + EGFP,and ultrasound + microbubbles + EGFP.The last group was irradiated with ultrasound for 10 min after the mixture consisting of 300 μl Sono Vue and 10 μg EGFP was injected into the joint cavity.The rats were sacrificed after 3 days and the joint synovial tissues were collected for EGFP observation under fluorescence microscopy and quantitative analysis by real-time polymerase chain reaction (RT-PCR).Results Comparing with control group,EGFP expression was observed in the rat joint synovial tissues from all groups.However,a strong EGFP expression was observed in the ultrasound + microbubbles +EGFP group.EGFP expression had no statistically significant difference (the P values were 0.89,0.93,and 0.82,respectively,P > 0.05) in the EGFP,ultrasound + EGFP and microbubbles + EGFP groups.However,EGFP expression in the EGFP,ultrasound + EGFP,microbubbles + EGFP groups significantly differed (all P values were <0.01) from that in the ultrasound + microbubbles + EGFP group.Conclusions Ultrasound-mediated microbubble destruction can improve EGFP transfection efficiency into the joint synovial tissues of RA rats.
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Objective To observe the bioeffects on the normal rats synovial with diagnostic ultrasound combined with different doses contrast medium. Methods Twenty normal cleaning level Wister rats were divided into 5 groups (each with 4 rats and 8 knees): ultrasound+100 μl contrast medium, ultrasound+200 μl contrast medium, ultrasound+300 μl contrast medium, ultrasound+500 μl contrast medium, a simple ultrasound irradiation (control group). Each group was irradiated with diagnostic ultrasound for 10 min. Rats were sacrificed after 1 week and joints synovial tissues were observed with pathological HE staining. Results In group ultrasound+100 μl contrast medium, ultrasound+200 μl contrast medium, ultrasound+300 μl contrast medium and control group, no significant damage in synovial tissues was found. In group ultrasound+500 μl contrast medium, synovial cells swelling, showing round, oval or polygonal, synovial tissues hyperplasia, arranged disorder, capillary proliferation, some muscle fiber structure dissolved fracture, inflammatory cell infiltration in the surrounding tissue were found. Conclusion Ultrasound combined with contrast medium can significantly enhance the bioeffects of synovial tissues, and the more the contrast medium doses, the more serious injury occurs in synovial tissues.
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Objective To study the effects of poly lacticoglycolic acid(PLGA) ultrasound contrast agent on tumor lymph node imaging and its mechanism.Methods PLGA ultrasound contrast agent was made by double emulsion method; VX2 tumor cells were harvested from carrier rabbits and inoculated in the thigh of healthy New Zealand White rabbits. Implants were allowed to grow for 14 to 18 days before imaging. Popliteal lymph nodes were imaged as the injection sites were massaged. And macrophages were used to investigate the mechanism for lymph node enhancement. Results PLGA ultrasound contrast agent had a tight size distribution. Tumor lymph node was significantly enhanced by PLGA ultrasound contrast agent. Macrophages experiment showed that macrophages could phagocyte lots of PLGA ultrasound contrast agents.Conclusions PLGA ultrasound contrast agent is good for lymph node imaging. The possible mechanism for lymph node enhancement is that macrophages in lymph node can phagocyte lots of PLGA contrast agents, which causes the concentration of PLGA contrast agent in lymph node.