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Objective:To construct a recombinant eukaryotic expressive vector of pEGFP-N3-M-IL-2(88 Arg,125 Ala),and to study the expression of this gene in the Glioma cell line U 87,and to detect its antitumor activities of the fusion protein M-IL-2(88 Arg,125 Ala).Methods:The target fusion gene M-IL-2 (88 Arg,125 Ala) was amplified by PCR from pPICZαA/M-IL-2 (88 Arg,125 Ala) and cloned into pEGFP-N3 vector after digestion to construct recombinant eukaryotic expressive vector pEGFP -N3-M-IL-2( 88 Arg,125 Ala).And then recombinant plasmid pEGFP-N3-M-IL-2(88Arg,125Ala) was transfected into Glioma cell U87 by LipofectamineTM2000 immediately after it was confirmed by restrictive enzyme analysis and sequencing .RT-PCR and Western blot were used to confirm expression of the fusion gene in the U87.Prohibitory effect of recombinant M-IL-2(88Arg,125Ala) protein on U87 was assessed by CCK-8 assay.Results:Restrictive analysis and sequence analysis revealed that M-IL-2(88Arg,125Ala) fusion gene was cloned into the vector pEGFP-N3 suc-cessfully,fusion gene M-IL-2(88Arg,125Ala) could express in U87 cells and could inhibit the growth of U87 cells.Conclusion:The eu-karyotic expression plasmid pEGFP-N3-M-IL-2( 88 Arg,125 Ala) was constructed and expressed in U 87 cells successfully ,the fusion protein could inhibit the growth of U87 cells.We laid a foundation for further research of gene M-IL-2(88 Arg,125 Ala).
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ObjectiveTo derive and evaluate the formula of exactly calculating the contrast dosage used during pulmonary CT angiography ( CTPA ). Methods Time density curves in 27 patients who underwent CTPA were collected and analyzed,the formula for calculating contrast dosage during CTPA was derived.68 patients suspected of pulmonary embolism ( PE ) clinically but no PE on CTPA were divided randomly into group A,with bolus tracing technique ( n =26 ),and group B,with small dose injection contrast test (SDCT) (n =42).The CT values of the right main pulmonary artery (RMPA),right upper pulmonary vein ( RUPV),right posterior basal PA,right lower PV (RLPV) and the aorta were calculated.The total contrast dosage and the hard beam artifact in the SVC were compared between the two groups.Student's t test,Chi-square test and Mann-Whitney U test were used.ResultsThe ratio of the time from starting injection to enhancement peak of caudal end of SVC and the time to enhancement peak of the main pulmonary trunk was 0.65 ±0.09 (about 2/3),the formula for contrast dosage calculation was derived as (DTs/3 + STs/2) FR ml/s.The CT values of RMPA and RLPA between the two groups[ (301 ±117),(329 ± 122) and (283 ±95),(277 ±98) HU respectively] were not significantly different (t =1.060,P =0.292 ;t =2.056,P =0.044),but the differences of CT values in the paired PA and PV between the two groups (median were 22.5,58.0 and 170.5,166.5 HU respectively ) were significant (U =292,P =0.001 and U =325,P =0.005),contrast artifact of the SVC (grade 1-3) in group B ( n =34,7,1 respectively) was significantly less than in group A (n =11,10,5 respectively,x2 =10.714,P =0.002),the contrast dosage injected in group A was ( 87.6 ± 7.3 ) ml,and in group B was ( 40.0 ±5.4) ml (P <0.01 ).ConclusionCTPA with SDCT technique is superior to that with conventional bolus tracing technique regarding contrast dosage and contrast artifact in the SVC.
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Objective To study the CT manifestations of delayed traumatic hematomas of the brain and evaluate their diagnostic significance in predicting the delayed traumatic brain hematoma. Methods The manifestations of initial CT studies and follow-up CT examinations of 31 delayed traumatic brain hematomas were analyzed. Another 50 CT studies of head trauma without delayed brain hematomas were included randomly as control. Results The abnormal findings of CT studies of the 31 delayed traumatic brain hematomas included: (1)Decreased density of the local brain parenchyma and disappeared difference between gray and white matter of the same area in 18 cases; (2)Local subarachnoid space hemorrhage in 24 cases; (3)Slight mass effect of local brain parenchyma in 16 cases. (4)Subdural hematoma in 9 cases. The locations of the abnormalities were roughly the same with the delayed hematoma except one local subarachnoid space hemorrhage, which was in the opposite of the delayed hematoma. The appearing rate of those abnormal findings in the control group was low and the difference was statistically significant. Conclusion The decrease of density of local brain parenchyma, the disappeared difference between the gray and white matter, local subarachnoid space hemorrhage, and local swollen of brain presented in the initial CT study of the patient with head trauma should be taken as indicators of delayed hemorrhage of the same area of brain, and it is necessary to do follow-up CT studies to exclude it.
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Objective To summarize the cl inical characteristics and imaging features of psittacosis. Methods The clinical features and imaging appearances of 3 cases with acute psittacosis were retrospectively analyzed. The related literature was reviewed . Results The clinical manifestation of psittacosis was high fever in the patients. Physical findings included pulse-temperature dis sociation, localized lung crackles, hepatomegaly, and splenomegaly. Laboratory findings showed elevation of ESR in all cases, and liver dysfunction was present in 2 cases. The counts of white blood cells were normal, but the percent of ne utrophils might be increased. The chest X-ray and CT scan showed air-space co nsolidation and ground-glass attenuation in the lung, and miliary, nodular, or consolidated shadows were found in pathological areas. Pleural effusions were a lso present in 2 cases. Psittacosis was diagnosed from the history of exposure to infected parrots and elevation of the IgG and IgM titer for Chlamydia psittac i. Erythromycin was effective in all 3 patients. Conclusion Although the appearance of psittacosis on clinical findings and chest X-r ay and CT scan is not characteristic, psittacosis can be diagnosed with the comb ination of the history of exposure to infected parrots and laboratory findings. CT scan can reveal the focus earlier and accurately, and catching the imaging f eatures of psittacosis is helpful in differential diagnosis.