Objective To construct targeted ultrasound contrast agent carried goat anti-mouse IgG antibody (UCA-IgG) and evaluate the effectiveness of its targeted adhesion using parallel plate flow chamber. Methods The ultrasound contrast agent targeted to mouse IgG was designed by conjugating monoclonal antibodies against mouse lgG to the lipid monolayer shell of the agent using biotin-streptavidin. The binding of IgG antibodies to the ultrasound contrast agent were identified by fluorescence in vitro. The attachment and detachment of UCA-IgG to mouse IgG immobilized on a culture dish were assessed in a parallel-plate flow chamber. While the plate lacked mouse IgG,or blocked with large number of goat anti-mouse IgG were served as two control groups. Results UCA-IgG issued a bright green fluorescence, while the contral lipid ultrasound contrast agent didn't show fluorescence. The number of UCA-IgG bound to mouse IgG of experimental group was greater than two control groups,increased with increasing coverslips surface antibody concentrations (P<0. 05),and there was significant positive correlation between the number of UCA-IgG bound to mouse IgG and time of combination (P<0.05). The adhesion rate of experimental group increased with shear stress before 0. 5×10-5 N/cm2 (P<0.05) and then decreased (P<0. 05). There was limited adherence of control groups to the UCA-IgG. The stess of half-maximal detachment was increased with increasing coverslips surface antibody concentrations (P<0.05). Conclusions UCA-IgG could adhere to mouse IgG in the physical conditions. It may provide strong supports for studying other targeted ultrasound contrast agent preliminary and fatherly in vitro.

Objective To study the characteristics of brain electrical signals in mild cognitive impairment (MCI) patients and healthy elderly volunteers in rest and task loading state.Methods Twenty MCI patients served as a MIC group and 22 sex-,age-and education-matched healthy volunteers served as a control group in this study.The patients were scored according to the MoCA,HADS,MMSE and CMS,their brain electrical signals in a different state were recorded with a digital EEG recording device,and their Lemple-Zie complexity (LZC) was computed on the MATLAB 7.04 platform and comparatively analyzed.Results The MQ value and MoCA,HADS,MMSE,CMS scores were significantly higher in control group than in MCI group (P＜0.01).The LZC value in left frontal region and left temporal region was significantly higher in control group than in MCI group in rest state (0.577±0.059 vs 0.545±0.067,0.576±0.061 vs 0.548±0.059,P＜0.05).The LZC value in right frontal region and right hemisphere was significantly lower in MCI group than in control group in brain electrical activity state (0.535±0.065 vs 0.559±0.033,0.541±0.064 vs 0.551±0.047,P＜0.05).The LZC value in left frontal region,left temporal region,left hemisphere was lower in control group than in MCI group (0.523±0.040 vs 0.547±0.070,0.547±0.048 vs 0.561±0.092,0.542±0.044 vs 0.557±0.067,P＜0.05).Conclusion The LZC value is lost in the left hemisphere but its functional compensation is present in the right and Left parietal lobe,left frontal lobe and right brain areas in MCI patients in a non-linear manner.