Purpose To provide technical support for the use of echo-planar imaging(EPI)in the diagnosis of brain diseases,the image quality and diagnostic effect of single-shot echo-planar imaging(ssEPI)diffusion-weighted imaging(DWI)and multi-shot echo-planar imaging(msEPI)DWI sequences in the detection of brain diseases at 5.0T MR are analyzed.Materials and Methods A retrospective analysis was conducted on 42 patients with intracranial diseases who underwent T2-FLAIR,ssEPI DWI and msEPI DWI scans on a 5.0T MR system in the First Affiliated Hospital of USTC from August to September 2023.Two radiologists independently assessed image quality,measured distortion displacement,and compared signal-to-noise ratio,lesion-to-normal tissue contrast,contrast-to-noise ratio and apparent diffusion coefficient.Results msEPI sequence demonstrated significantly superior subjective scores,including geometric distortion,susceptibility artifacts,edge sharpness and overall image quality compared with those of ssEPI sequence(Z=5.728,4.197,5.766,5.777,all P<0.001).Quantitative analysis revealed substantial reduction in distortion displacement in msEPI sequence,including frontal lobe[(5.91±1.41)mm vs.(15.63±2.21)mm,t=34.050,P<0.001],anterior temporal lobe[(4.17±0.78)mm vs.(7.18±1.87)mm,t=12.263,P<0.001],posterior temporal lobe[(4.76±1.36)mm vs.(8.38±2.01)mm,t=21.336,P<0.001],cerebral diameter[(4.37±1.65)mm vs.(12.74±2.84)mm,t=23.255,P<0.001]and brainstem diameter[(0.80±0.63)mm vs.(1.98±1.63)mm,t=7.092,P<0.001],compared with ssEPI sequence.However,no statistically significant differences were observed in signal-to-noise ratio or contrast-to-noise ratio between the two sequences(P=0.848,0.638).Notably,msEPI sequences exhibited significantly enhanced lesion-normal tissue contrast compared with ssEPI sequences[221(131,311)vs.150(90,240),Z=3.89,P<0.001].Conclusion At 5.0T MRI,msEPI demonstrated superior image quality and diagnostic performance for craniocerebral diseases compared to ssEPI DWI sequences.

Purpose To provide technical support for the use of echo-planar imaging(EPI)in the diagnosis of brain diseases,the image quality and diagnostic effect of single-shot echo-planar imaging(ssEPI)diffusion-weighted imaging(DWI)and multi-shot echo-planar imaging(msEPI)DWI sequences in the detection of brain diseases at 5.0T MR are analyzed.Materials and Methods A retrospective analysis was conducted on 42 patients with intracranial diseases who underwent T2-FLAIR,ssEPI DWI and msEPI DWI scans on a 5.0T MR system in the First Affiliated Hospital of USTC from August to September 2023.Two radiologists independently assessed image quality,measured distortion displacement,and compared signal-to-noise ratio,lesion-to-normal tissue contrast,contrast-to-noise ratio and apparent diffusion coefficient.Results msEPI sequence demonstrated significantly superior subjective scores,including geometric distortion,susceptibility artifacts,edge sharpness and overall image quality compared with those of ssEPI sequence(Z=5.728,4.197,5.766,5.777,all P<0.001).Quantitative analysis revealed substantial reduction in distortion displacement in msEPI sequence,including frontal lobe[(5.91±1.41)mm vs.(15.63±2.21)mm,t=34.050,P<0.001],anterior temporal lobe[(4.17±0.78)mm vs.(7.18±1.87)mm,t=12.263,P<0.001],posterior temporal lobe[(4.76±1.36)mm vs.(8.38±2.01)mm,t=21.336,P<0.001],cerebral diameter[(4.37±1.65)mm vs.(12.74±2.84)mm,t=23.255,P<0.001]and brainstem diameter[(0.80±0.63)mm vs.(1.98±1.63)mm,t=7.092,P<0.001],compared with ssEPI sequence.However,no statistically significant differences were observed in signal-to-noise ratio or contrast-to-noise ratio between the two sequences(P=0.848,0.638).Notably,msEPI sequences exhibited significantly enhanced lesion-normal tissue contrast compared with ssEPI sequences[221(131,311)vs.150(90,240),Z=3.89,P<0.001].Conclusion At 5.0T MRI,msEPI demonstrated superior image quality and diagnostic performance for craniocerebral diseases compared to ssEPI DWI sequences.

Objective:To prepare seven standard strains of 2019 novel coronavirus (2019-nCoV), including wild type (WT) strain, Beta variant, Delta variant, Omicron variants (BA.2, BA.5, BQ.1, XBB.1 branches), which could be used to apply for national standard strains.Methods:According to cytopathic effect (CPE), virus titer, whole-virus-genome-sequencing and detection of mycoplasma, the basic biological characteristics of clonal isolation were determined through plaque purification technology.Results:The CPE was mainly characterized by cell shrinkage and exfoliation in Vero cells after infection with seven 2019-nCoV clonal isolations (WT, Beta, Delta, Omicron, BA.2, BA.5, BQ.1 and XBB.1 branches). The result of mycoplasma detection were negative and titers of the clonal isolation from 2nd to 5th generations were stable at 10 5-10 8 TCID 50/ml; the electron microscope showed that the virions were all round or elliptical, with a diameter between 60 nm and 140 nm. The subtypes of 7 strains were identified by whole-virus-genome-sequencing and phylogenetic analysis, with genomic stability after the fifth successive generations of clonal isolation. Conclusions:The series clonal isolation of 2019-nCoV with typical CPE of coronavirus, clear morphological structure, good viral activity and stable genetic characteristics were prepared, and they could be used to apply for national standard strains.

Objective:The study aims to explore the abnormal characteristics in cerebral cortex among children with different subtypes of attention deficit hyperactivity disorder (ADHD).Methods:Four hundred and twelve samples were obtained from the Healthy Brain Network project of American Child Mind Institute. There were 288 children with ADHD (all subjects: age,M=10.03,SD=3.11; 151 of ADHD-C, 20 of ADHD-H, and 117 of ADHD-I) and 124 healthy controls (age,M=9.98,SD=2.98). Using FreeSurfer software, we processed the brain structure images and obtained the cortical volume, cortical thickness and surface area for each subject. Analysis of Variance (ANOVA) and post hoc comparison analyses were conducted.Results:ANOVA analysis showed significant differences of the cortical volume located in the left superior parietal gyrus ( Z=5.94) and superior temporal gyrus ( Z=5.49) among the 3 subtypes of ADHD children and the healthy controls (Monte Carlo, P<0.05). Compared with the healthy controls, ADHD-H group exhibited an increased cortical volume in the left superior parietal gyrus ( Z=6.79), while the ADHD-I group had a decreased volume in the left superior temporal gyrus ( Z=-5.12) and lateral occipital cortex ( Z=-6.40). ADHD-C group also had a decreased volume in the left lateral occipital cortex ( Z=-3.37). Among 3 subtypes of ADHD patients, both ADHD-I and ADHD-C groups had a smaller volume in the left superior parietal gyrus than that of the ADHD-H group (ADHD-I: Z=-7.33,MNI coordinate:x=-26.8,y=-60.6,z=45.4; ADHD-C: Z=-7.14,MNI coordinate:x=-26.6,y=-60.2,z=45.4). Additionally, there was no statistical difference in cortical volume between the ADHD-I and ADHD-C group (Monte Carlo, P>0.05). Subsequent supplementary analyses showed that the sample size and age had no significant effect on the above results. Moreover, analysis of cortical thickness and the surface area showed that the abnormality of the cortical volume in different ADHD subtypes was mainly determined by the surface area of the cerebral cortex. Conclusion:Cortical measures in the superior parietal gyrus might be the crucial features that distinguishes the different subtypes of ADHD. These results enable us to further explore the neurodevelopmental mechanism of ADHD and guide the precise and specific clinical treatment.

Objective:The study aims to explore the abnormal characteristics in cerebral cortex among children with different subtypes of attention deficit hyperactivity disorder (ADHD).Methods:Four hundred and twelve samples were obtained from the Healthy Brain Network project of American Child Mind Institute. There were 288 children with ADHD (all subjects: age,M=10.03,SD=3.11; 151 of ADHD-C, 20 of ADHD-H, and 117 of ADHD-I) and 124 healthy controls (age,M=9.98,SD=2.98). Using FreeSurfer software, we processed the brain structure images and obtained the cortical volume, cortical thickness and surface area for each subject. Analysis of Variance (ANOVA) and post hoc comparison analyses were conducted.Results:ANOVA analysis showed significant differences of the cortical volume located in the left superior parietal gyrus ( Z=5.94) and superior temporal gyrus ( Z=5.49) among the 3 subtypes of ADHD children and the healthy controls (Monte Carlo, P<0.05). Compared with the healthy controls, ADHD-H group exhibited an increased cortical volume in the left superior parietal gyrus ( Z=6.79), while the ADHD-I group had a decreased volume in the left superior temporal gyrus ( Z=-5.12) and lateral occipital cortex ( Z=-6.40). ADHD-C group also had a decreased volume in the left lateral occipital cortex ( Z=-3.37). Among 3 subtypes of ADHD patients, both ADHD-I and ADHD-C groups had a smaller volume in the left superior parietal gyrus than that of the ADHD-H group (ADHD-I: Z=-7.33,MNI coordinate:x=-26.8,y=-60.6,z=45.4; ADHD-C: Z=-7.14,MNI coordinate:x=-26.6,y=-60.2,z=45.4). Additionally, there was no statistical difference in cortical volume between the ADHD-I and ADHD-C group (Monte Carlo, P>0.05). Subsequent supplementary analyses showed that the sample size and age had no significant effect on the above results. Moreover, analysis of cortical thickness and the surface area showed that the abnormality of the cortical volume in different ADHD subtypes was mainly determined by the surface area of the cerebral cortex. Conclusion:Cortical measures in the superior parietal gyrus might be the crucial features that distinguishes the different subtypes of ADHD. These results enable us to further explore the neurodevelopmental mechanism of ADHD and guide the precise and specific clinical treatment.

Objective: To detect norovirus (NoV) GⅠ.1- and GⅡ.4-specific IgG, IgA and histo-blood group antigen (HBGA)-blocking antibodies in healthy populations of all age groups in China for better understanding the epidemiological features of norovirus in China from a serological point of view and providing basic data for vaccine development and clinical trial design. Methods: Indirect ELISA and HBGA-blocking assay were used to detect NoV-specific IgG, IgA and HBGA-blocking antibodies in serum samples collected from healthy natural populations (n=839, aged from six months to 88 years old) in Guangzhou, Fuyang and Yantai. The results were statistically analyzed. Results: The total positive rates of NoV GⅠ.1- and GⅡ.4-specific IgG antibodies were 91.9% and 93.0%. The positive rates of GⅠ.1- and GⅡ.4-specific IgA antibodies were 48.6% and 75.6%, and the titers of HBGA-blocking antibodies to GⅠ.1 and GⅡ.4 norovirus were 5.04 (95%CI: 4.63-5.49) and 18.15 (95%CI: 16.11-20.44). The positive rates of IgG and IgA antibodies generally showed an increasing trend with age. The positive rates of GⅠ.1- and GⅡ.4-specific IgG antibodies ranged from 79.2% to 100.0% and 76.7% to 100.0% in different age groups. They were 81.7% and 85.0% in the age group of 0.5-<1 year, 79.2% and 76.7% in the age group of 1-<2 years, and 98.1% and 96.3% in the age group of 12-<18 years, and maintained at 96% and 98% in the older age groups. The positive rates of GⅠ.1-specific IgA antibody ranged from 11.7% to 93.8% in different age groups and rapidly increased with age. It was 11.7% in the age group of 0.5-<1 year, and reached 93.3% in people aged 45-<60 years and 93.8% in people aged ≥60 years. The positive rates of GⅡ.4-specific IgA antibody ranged from 50.8% to 88.8% in different age groups with 50.8% in people aged 0.5-<1 year, and 86.7%-90.7% in people aged 12-<18 years and older. The titer of GⅠ.1 HBGA-blocking antibody generally increased with age. The antibody titer in populations aged 0.5-<12 years old was lower than that in those aged 18 years and above (GMT: 2.98-4.07 vs 8.21-11.62, P<0.001), and the titer in people of 12-<18 years old was lower than that in those of 45 years old and above (GMT: 5.21 vs 11.03-11.62, P<0.05). No obvious change with age was observed in the titer of GⅡ.4 HBGA-blocking antibody excepting the significant difference between populations of 2-<5 and 22-<45 years old (GMT: 26.73 vs 11.87, P<0.01). Conclusions This study revealed the characteristics of serum NoV GⅠ.1- and GⅡ.4-specific IgG, IgA and HBGA blocking antibodies in populations of different age groups in central and eastern China through analyzing their positive rates and titers and provided preliminary seroepidemiological data for the development of NoV vaccines in China.

Objective: In this study, phage display technology was used to construct the human anti-Zika virus(ZIKV), phage antibody library and to obtain and express the monoclonal antibody. The aim was to master the preparation and expression of human phage antibody library screening method for highly specific antibodies. Methods: The whole blood samples of Zika patients were collected and the lymphocytes were isolated. The RT-PCR method was used to amplify the antibody light chain and heavy chain Fab gene from lymphocyte Ig mRNA. The pComb3H system was used to construct the gene with genetic diversity Preparation of human anti-ZIKV phage antibody library. The purified antibody library was screened by using the purified ZIKV and the obtained ZIKV E protein antigen. Results: The monoclonal antibody Fab fragment gene was successfully obtained for the ZIKV E protein antigen. The gene can be efficiently expressed in Escherichia coli. Conclusions According to the sequence analysis, this study showed that the monoclonal antibody was a new human genetically engineered antibody against ZIKV, which laid the foundation for the early diagnosis of ZIKV, and obtain a specific monoclonal antibody to ZIKV for human treatment of ZIKV infection.

To describe a novel particles surface display system which is consisted of gram-positive enhancer matrix (GEM) particles and anchor proteins for bacteria-like particles vaccines, we treated Lactobacillus rhamnosus GG bacteria with 10% heated-TCA for preparing GEM particles, and then identified the harvested GEM particles by electron microscopy, RT-PCR and SDS-PAGE. Meanwhile, Escherichia coli was induced to express hybrid proteins PA3-EGFP and P60-EGFP, and GEM particles were incubated with them. Then binding of anchor proteins were determined by Western blotting, transmission electron microscopy, fluorescence microscopy and spectrofluorometry. GEM particles preserved original size and shape, and proteins and DNA contents of GEM particles were released substantially. The two anchor proteins both had efficiently immobilized on the surface of GEM. GEM particles that were bounded by anchor proteins were brushy. The fluorescence of GEM particles anchoring PA3 was slightly brighter than P60, but the difference was not significant (P>0.05). GEM particles prepared from L. rhamnosus GG have a good binding efficiency with anchor proteins PA3-EGFP and P60-EGFP. Therefore, this novel foreign protein surface display system could be used for bacteria-like particle vaccines.