1.Digital orthopedic technology in the positioning of volar plate in distal radius fracture
Gang CHEN ; Kai LIAN ; Lu CUI ; Nongxin WU ; Xinyan LU ; Bangjun WANG ; Fengwen CHEN
Chinese Journal of Tissue Engineering Research 2014;(4):607-612
BACKGROUND:Volar locking plate is the dominant treatment of distal radial fractures, but it is difficult to judge the distance between the plate position and the carpal articular surface, thus leading to screw penetration of the articular surface. Arthroscopy or operative perspective has their pros and cons, there is no simple and effective method of positioning the plate.
OBJECTIVE:To find the optimal position of Volar LCP in distal radius fractures and explore the role of computer simulation in this treatment.
METHODS:The CT data of the wrists in 20 adult patients were col ected to calculate 3D models of the radius by MIMICS software. 3D model of the LCP was calculated by UG in working station. The distance between the plate and the distal radius joint was measured by computer simulation, and the mean value was calculated. A total of 33 Patients with distal radial fractures were divided into two groups:conventional treatment group (regular X-ray and CT) and computer simulation group (preoperative plan based on the computer-measured data).
RESULTS AND CONCLUSION:The safe distance between the screw center and the articular facet was 11.13 mm in males and 10.97 in females. The number of radiation and operating time were shortened significantly in computer simulation group (P<0.05). Experimental findings indicate that, computer simulation is a powerful tool to find the optimal position of volar LCP in the distal radius fractures. The time of the operation and X-ray fluoroscopy are also shortened significantly.
2.Analysis of low-density lipoprotein receptor gene mutations in a Chinese patient with clinically homozygous familial hypercholesterolemia.
Shouchun CAO ; Lüya WANG ; Yanwen QIN ; Jie LIN ; Bangjun WU ; Shu LIU ; Xiaodong PAN ; Lanping DU ; Baosheng CHEN
Chinese Medical Journal 2003;116(10):1535-1538
OBJECTIVETo screen the point mutation of the low-density lipoprotein receptor (LDL-R) gene in Chinese familial hypercholesterolemia (FH) patients, characterize the relationship between the genotype and the phenotype and discuss the molecular pathological mechanism of FH.
METHODSA patient with clinical phenotype of homozygous FH and her parents were investigated for mutations in the promoter and all eighteen exons of the LDL-R gene. Screening was carried out using Touch-down PCR and direct DNA sequencing; multiple alignment analysis by DNASIS 2.5 was used to find base alteration, and the LDL-R gene mutation database was searched to identify the alteration. In addition, the apolipoprotein B gene (apo B) was screened for known mutations (R3500Q) that cause familial defective apo B100 (FDB) by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP).
RESULTSTwo new heterozygous mutations in exons 4 and 9 of the LDL-R gene were identified in the proband (C122Y and T383I) as well as her parents. Both of the mutations have not been published in the LDL-R gene mutation database. No mutation of apo B100 (R3500Q) was observed.
CONCLUSIONTwo new mutations (C112Y and T383I) were found in the LDL-R gene, which may result in FH and may be particularly pathogenetic genotypes in Chinese people.
Adult ; Apolipoproteins B ; genetics ; Asian Continental Ancestry Group ; Child ; China ; Female ; Heterozygote ; Homozygote ; Humans ; Hyperlipoproteinemia Type II ; genetics ; Male ; Mutation ; Receptors, LDL ; genetics
3.Advances in the plant multicellular network analysis.
Bore SHI ; Xiaoping HUANG ; Xiurong FU ; Bangjun WANG
Chinese Journal of Biotechnology 2022;38(8):2798-2810
Multicellular network analysis is a method for topological properties analysis of cells. The functions of organs are determined by their inner cells. The arrangement of cells within organs endows higher-order functionality through a structure-function relationship, though the organizational properties of these multicellular configurations remain poorly understood. Multicellular network analysis with multicellular models established by 3D scanning of plants, will further discover the plant development mechanism, and provide clues for synthesizing plant multicellular systems. In this paper, we review the development of multicellular models, summarize the process of multicellular network analysis, and describe the development and application of multicellular network analysis in plants. In addition, this review also provides perspective on future development of plant multicellular network analysis.
Plants
4.The role of plant WRKY transcription factors against salt stress: a review.
Xiangxiang YE ; Yongjiang BI ; Qiong RAN ; Xiaohui ZHANG ; Bangjun WANG
Chinese Journal of Biotechnology 2023;39(7):2600-2611
High salt content in soils severely hampers plant growth and crop yields. Many transcription factors in plants play important roles in responding to various stresses, but their molecular mechanisms remain unclear. WRKY transcription factors are one of the largest families of transcription factors in higher plants that are involved in and influence many aspects of plant growth and development. They play important roles in responding to salt stress. The regulation of gene expression by WRKY proteins is mainly achieved by binding to the DNA's specific cis-regulatory elements, the W-box elements (TTGACC). In recent years, there have been many studies revealing the roles and mechanisms of WRKY family members, from model plant Arabidopsis to agricultural crops. This paper reviews the latest research progress on WRKY transcription factors in response to salt stress and discusses the current challenges and future perspectives of WRKY transcription factor research.
Transcription Factors/metabolism*
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Plant Proteins/metabolism*
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Stress, Physiological/genetics*
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Salt Stress/genetics*
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Crops, Agricultural/genetics*
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Gene Expression Regulation, Plant
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Phylogeny
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Plants, Genetically Modified/genetics*