1. Advances in etiology and mechanism of structural nasal obstruction
Zhijin ZHANG ; Xuwen YANG ; Xuan LI ; Jinfeng LIU
Journal of Clinical Otorhinolaryngology Head and Neck Surgery 2021;35(7):666-672
Summary: Structural nasal obstruction(SNO) is a series of diseases caused by congenital or acquired structural anatomical abnormalities of nasal airway and its surrounding tissues, which leads to increased nasal ventilation resistance. The effect of medication drugs for SNO is poor and surgical intervention is often needed. However, the abnormal structure of nasal airway is very complex, including the periphery of nasal airway, internal nasal airway, the front and rear of nasal airway and complex factors. These abnormal structures may interfere with the nasal airflow mechanics by changing the nasal ventilation volume and disrupting the symmetry of the bilateral nasal cavity, and finally lead to subjective feeling of nasal obstruction. In addition, the structure of nasal airway has plasticity. After the abnormal structure appears, the corresponding compensation of nasal airway can occur to ensure normal nasal ventilation and bilateral nasal cavity symmetry. Therefore, the SNO is the result of the failure of nasal airway remodeling after the appearance of abnormal structures. The etiology of SNO is complex, involving original structural abnormalities, nasal symmetry changing and nasal airway structure remodeling. Therefore, accurate identification of the main factors leading to SNO is the vitalpremise of making personalized nasal ventilation surgery.
2.Effects of Gravitational Traction on Degenerative Disc of Rabbit
Demin TONG ; Jinfeng DENG ; Bolai CHEN ; Cuiling XUAN ; Ludi FU ; Diqing TAN
Chinese Journal of Rehabilitation Theory and Practice 2013;19(6):513-516
Objective To explore the effect of gravitational traction on height change of degenerative disc of New Zealand white rabbit.Methods In order to create intervertebral disc degeneration models, the right front side of the annulus fibrosus of lumbar vertebrae of rabbits were damaged by 16-gauge needle. After confirming the success of modeling, 20 animal models were randomized into 2 groups, 15 of which received a routine gravitational traction using a model of our own design, 30 min per day, for 8 weeks, while the control group received no treatment at all. Radiographic exam were performed in the 2nd, 4th, 6th and 8th week, after intervention and the disc height index percent (DHI%). Results Compared to the baseline, DHI% increased significantly 2 and 4 weeks after gravitational traction (P<0.05), and there was no further effect as the traction continued. However, compared to the control group, an improvement of DHI% was found on all the time points in the gravitational traction group (P<0.001). Conclusion Gravitational traction may delay and inhibit intervertebral disc degeneration by increasing height of degenerated disc of New Zealand white rabbit.
3.Detection of four DNA genetic marker systems to differentiate individuals in mixed seminal stain of two individuals
Lu ZHANG ; Mei DING ; Hao PANG ; Miao FAN ; Jun YAO ; Rui ZHANG ; Jiaxin XING ; Jinfeng XUAN ; Ziqing LIN ; Baojie WANG
Chinese Journal of Forensic Medicine 2017;32(6):627-630
Objective To investigate personal identification of mixed seminal stain of two individuals, we combined the detection of genotyping autosomal, Y and X STR and sequencing mtDNA hypervariable Ⅰ (HV Ⅰ ) region. Methods We analyzed autosomal, Y and X STR with commercial kit and separating and sequencing HVⅠfragments of mixed seminal stain from two males by SSCP electrophoresis. Results Four genetic markers of the high amount sample can be obtained when mixed ratio is more than 1:10. When the proportion of two samples is close, the suspect could be excluded or, to some extent, identified by comparing with our results. Conclusion The combined detection of four genetic marker systems can, to some degree, solve the personal identification from mixed seminal stain of two individuals.
4.Study on SNP Genotyping of Degraded DNA by Fluorescence-labeled Multiplex LDR-PCR Amplification
Jiaxin XING ; Yihua SUN ; Jinfeng XUAN ; Jun YAO ; Mei DING ; Hao PANG ; Chunmei LI ; Xi XIA ; Baojie WANG
Journal of China Medical University 2017;46(8):703-709
Objective In this study,a multiplex PCR amplification system was constructed based on fluorescent labeling PCR and LDR,to provide a new strategy for analyzing severely degraded DNA.Methods Eight SNP loci (rs10802248,rs10516197,rs10488372,rs2278945,rs4757318,rs4887255,rs4889002,and rs9304473) were selected.Their LDR probes and PCR primers of linked products were designed and synthesized.Ligase detection reaction,PCR amplification,and capillary gel electrophoresis (CEG) were performed to establish the multiplex LDR-PCR amplification system.Results The genotypes of these 8 loci were obtained simultaneously by the fluorescence-labeled multiplex LDR-PCR amplification method.The loci profiles obtained by fluorescence-labeled multiplex LDR-PCR amplification were in accordance with those obtained by direct sequencing of the polymorphic regions in samples from all individuals.By fluorescence-labeled multiplex LDR-PCR amplification,the 8 SNP loci were efficiently amplified from the severely degraded FFPET DNA.Conclusion Eight SNP loci results could be obtained simultaneously by using the multiplex LDR-PCR amplification system,which is a simple,efficient,and practical SNP genotyping method with accurate and reliable results for highly degraded samples.
5.2,3-Seco and 3-nor guaianolides fromAchillea alpina with antidiabetic activity.
Guimin XUE ; Chenguang ZHAO ; Jinfeng XUE ; Jiangjing DUAN ; Hao PAN ; Xuan ZHAO ; Zhikang YANG ; Hui CHEN ; Yanjun SUN ; Weisheng FENG
Chinese Journal of Natural Medicines (English Ed.) 2023;21(8):610-618
In this study, we presented the isolation and characterization of eight novel seco-guaianolide sesquiterpenoids (1-8) and two known guaianolide derivatives (9 and 10), from the aerial part of Achillea alpina L.. Compounds 1-3 were identified as guaianolides bearing an oxygen insertion at the 2, 3 position, while compounds 4-8 belonged to a group of special 3-nor guaianolide sesquiterpenoids. The structural elucidation of 1-8, including their absolute configurations, were accomplished by a combination of spectroscopic data analysis and quantum electronic circular dichroism (ECD) calculations. To evaluate the potential antidiabetic activity of compounds 1-10, we investigated their effects on glucose consumption in palmitic acid (PA)-mediated HepG2-insulin resistance (IR) cells. Among the tested compounds, compound 7 demonstrated the most pronounced ability to reverse IR. Moreover, a mechanistic investigation revealed that compound 7 exerted its antidiabetic effect by reducing the production of the pro-inflammatory cytokine IL-1β, which was achieved through the suppression of the NLRP3 pathway.
Humans
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Hypoglycemic Agents/pharmacology*
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Circular Dichroism
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Cytokines
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Glucose
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Hep G2 Cells
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Insulin Resistance