1.Three-dimensional construction and anatomical variations of hepatic arteries based on 64-slice spiral CT scanning data
Wenqiang TAO ; Chihua FANG ; Yanpeng HUANG ; Susu BAO ; Dachuan XU ; Zhenyu BI ; Zengzhi NIU ; Wenhua HUANG
Acta Anatomica Sinica 2010;41(2):300-301
ObjectiveTo study the types of anatomical variations of hepatic arteries. Methods Hepatic arteries of 64-slice spiral CT scanning data were three-dimensional constructed by using self-designed software. The types of anatomical variations were analyzed and classified with Michels' classification criteria. Results The model presented with realistic profile of hepatic arteries which allowed vivid three-dimensional observation. Of these patients, 40 had normal hepatic arteries (60.61%), 26 had variations (39.39%), and 5 had infrequent aberrant hepatic arteries that was not included in Michels' classification (7.58%). Conclusion Three-dimensional model of hepatic arteries can volumetricly display the anatomical variations of hepatic arteries.
2.Association of FCGR3B gene copy number variations and lupus nephritis in Henan Han populations
Zhaohui ZHENG ; Ruohan YU ; Xianan JIAN ; Yanpeng BI ; Jia GUO ; Chunyan WANG ; Zhangsuo LIU
Chinese Journal of Nephrology 2015;31(2):85-90
Objective To evaluate the copy number variation of FCGR3B gene in Henan Han systemic lupus erythematosus (SLE) patients and healthy controls,and explore the association between FCGR3B gene copy number variants (CNVs) and lupus nephritis (LN) susceptibility in Henan Han population.Methods FCGR3B CNVs was investigated in 142 SLE patients with nephritis,187 SLE patients without nephritis and 328 healthy controls.A modified methodology based on competitive PCR named Multiplex AccuCopyTM Kit was used to detect FCGR3B copy number.Clinical and laboratory data were collected retrospectively from the medical record.Logistic regression analysis was used to determine the association of FCGR3B copy number variants with LN susceptibility.Rank correlation was used to determine the correlations between FCGE3B copy number variants and clinical phenotypes of LN.Results No significant difference was detected in the copy number variations of FCGR3B in different groups.Low copy number of FCGR3B was more commonly seen in patients with nephritis (P=0.042),and was a risk factor for LN (OR=2.059; 95% CI:1.081-3.921; P=0.028).However,high copy number (> 2) had no effect on SLE patients without nephritis(OR=1.152; 95%CI:0.711-1.866; P=0.565) and LN patients (OR=0.838; 95% CI:0.529-1.329; P=0.454).There were no associations between FCGR3B copy number variants and clinical phenotypes and immunologic characteristics of LN.Conclusion The low copy number of FCGR3B is a risk factor for LN in Henan Han population.
3.Suspected fetal congenital glaucoma identified by prenatal ultrasound: a case report
Yanpeng SONG ; Huating BI ; Haiyan YU ; Tiezhu WANG
Chinese Journal of Perinatal Medicine 2020;23(8):549-551
We report a case of suspected fetal congenital glaucoma detected by prenatal ultrasound. The mother had no history of cold, medication, or radiation exposure in the first trimester. Routine prenatal ultrasound at 23 +2 weeks of gestation found a 2.5 mm ventricular septum defect, and the sagittal and transverse diameters of the left and right eyeballs were all greater than the normal range of the same gestational weeks, which were noted at 18.57 mm and 17.26 mm, 18.21 mm and 17.22 mm, respectively. Dynamic observation revealed that the bilateral eyelids were unable to close with cornea being exposed to amniotic fluid. The pregnancy was terminated at 23 +6 weeks and a stillborn female weighing 650 g was delivered two days later. Congenital glaucoma was highly suspected by postnatal ophthalmic examination, accompanied by a deformity of the left thumb. No abnormality was detected on fetal chromosome karyotyping or whole-exon sequencing. When unilateral or bilateral megalophthalmos in the fetus is detected by prenatal ultrasound, congenital glaucoma should be considered.
4.Study on original identification of Rhei Radix et Rhizoma decoction pieces based on electronic sensory system and GC-IMS technology
Shuo YANG ; Zhongli XU ; Xinzhi ZHAO ; Dianhua SHI ; Yanpeng DAI ; Yu BI ; Yizhou XIN
China Pharmacy 2024;35(9):1076-1081
OBJECTIVE To investigate the variations in taste, aroma and volatile organic compounds of Rhei Radix et Rhizoma decoction pieces derived from different sources, and to identify their origins. METHODS The flavor, odor and volatile organic compounds of Rhei Radix et Rhizoma decoction pieces from different sources were compared and analyzed by using electronic tongue, electronic nose, and gas chromatography-ion mobility spectrometry (GC-IMS). Principal component analysis (PCA), partial least squares-discriminant analysis (PLS-DA), orthogonal partial least squares discriminant analysis (OPLS-DA) and Fisher discriminant analysis were employed to identify the origins of Rhei Radix et Rhizoma decoction pieces and establish the basis discrimination criteria. RESULTS The differences in taste of Rhei Radix et Rhizoma decoction pieces from 3 origins were primarily characterized by bitterness, astringency, and bitter-astringent aftertaste. In terms of smell, variations were mainly observed in inorganic sulfides, organic sulfides containing aromatic components, methane and other short-chain alkanes, alcohols, ethers, aldehydes and ketones, as well as nitrogen oxides. Differentially volatile organic compounds mainly consisted of alcohols, aldehydes and ketones. Furthermore, the samples from 8 batches could be effectively classified into 3 categories.Three types of Rhei Radix et Rhizoma decoction pieces can be effectivily identified based on the peak intensity ratio between volatile substances. For example, when the peak intensity of 2-acetylfuran was 3-19 times that of isobutyric acid [dimer], it was considered as Rheum officinale Baill. CONCLUSIONS The discriminant models established in this study, along with the criteria for determining the origins based on the peak intensity ofcharacteristic volatile compounds, can be utilized for the identification of Rhei Radix et Rhizoma decoction pieces.