Objective:To measure and analyse maxillofacial skeletal morphology based on the 3D model by Mimics and Matlab soft-ware.Methods:140 male volunteers aged 18-37 years,99 of Han,32 of Uygur and 9 of other natinalities were included.The values of maxillofacial skeletal morphology were measured by Mimics software combined with Matlab software after CT scanning.The data of skeletal morphologic features among skeletal classⅠ,Ⅱ and Ⅲ and among the ethnic groups were analysed with SPSS 26.0 software.Results:The distribution of skeletal class showed that there were 83 cases(59.3％)of class Ⅰ,41(29.3％)of class Ⅱ and 16(11％)of class Ⅲ.There were no significant differences on the age,height,nasal bone length,nasal bone depth,maxillary width,maxillary height,mandibular symphysis height,condylion distance and gonion distance among the 3 skeletal groups(P＞0.05).Skeletal class Ⅱshowed a significant shorter mandibular ramus,mandibular body and entire mandibular length compared with class Ⅰ and class Ⅲ,while class Ⅱ had a significant longer palatal length and larger Me angle compared with class Ⅲ(P＜0.05).Skeletal class Ⅲ showed no significance differences of all dimensions compared with class Ⅰ(P＞0.05).The nasal bone depth of Han subjects was smaller than that of Uygur,while the length of the mandibular symphysis and the entire mandible of Han group were greater than that of Uygur group(P＜0.05).No correlation was observed between age and all facial skeletal dimensions respectively(P＞0.05).The ANB an-gle is negatively correlated with the mandibular body(r=-0.327)and mandibular length(r=-0.322)respectively.Conclusion:There was no significant difference in nasal bone,facial bone width and facial bone height among the 3 skeletal patterns.Class Ⅱhas a significant shorter mandibular ramus,mandibular body and entire mandibular length.Uygur young males have significantly greater nasal bone depth than Han.

Objective:To measure and analyse maxillofacial skeletal morphology based on the 3D model by Mimics and Matlab soft-ware.Methods:140 male volunteers aged 18-37 years,99 of Han,32 of Uygur and 9 of other natinalities were included.The values of maxillofacial skeletal morphology were measured by Mimics software combined with Matlab software after CT scanning.The data of skeletal morphologic features among skeletal classⅠ,Ⅱ and Ⅲ and among the ethnic groups were analysed with SPSS 26.0 software.Results:The distribution of skeletal class showed that there were 83 cases(59.3％)of class Ⅰ,41(29.3％)of class Ⅱ and 16(11％)of class Ⅲ.There were no significant differences on the age,height,nasal bone length,nasal bone depth,maxillary width,maxillary height,mandibular symphysis height,condylion distance and gonion distance among the 3 skeletal groups(P＞0.05).Skeletal class Ⅱshowed a significant shorter mandibular ramus,mandibular body and entire mandibular length compared with class Ⅰ and class Ⅲ,while class Ⅱ had a significant longer palatal length and larger Me angle compared with class Ⅲ(P＜0.05).Skeletal class Ⅲ showed no significance differences of all dimensions compared with class Ⅰ(P＞0.05).The nasal bone depth of Han subjects was smaller than that of Uygur,while the length of the mandibular symphysis and the entire mandible of Han group were greater than that of Uygur group(P＜0.05).No correlation was observed between age and all facial skeletal dimensions respectively(P＞0.05).The ANB an-gle is negatively correlated with the mandibular body(r=-0.327)and mandibular length(r=-0.322)respectively.Conclusion:There was no significant difference in nasal bone,facial bone width and facial bone height among the 3 skeletal patterns.Class Ⅱhas a significant shorter mandibular ramus,mandibular body and entire mandibular length.Uygur young males have significantly greater nasal bone depth than Han.

Objective The biomechanical mechanism of naso-orbito-ethmoid(NOE)combined with zygomatic fractures and the weakness of midfacial bone were investigated,so as to provide a theoretical basis for protection against maxillofacial trauma.Methods CT data of a young male with normal cranio-maxillofacial bones were collected.Then,a human cranio-maxillofacial finite element model was reconstructed using Mimics and other software.The nasal bone,1/3 medial suborbital margin,zygomatic bone,and 1/3 medial supraorbital margin were impacted at a critical velocity of 16 m/s,and impact fractures were simulated.The direction of force conduction,biomechanical variations in the bones,and biomechanical mechanism of NOE combined with zygomatic fractures at different impact velocities in the middle of the face were analyzed.Results Under different working conditions,the stresses in the NOE region with the zygomatic bone exceeded the threshold of 150 MPa when the medial side of the 1/3 medial suborbital margin and 1/3 medial supraorbital margin were impacted at an initial velocity of 16 m/s.Under other working conditions,the stresses in the NOE region and the zygomatic bone did not exceed 150 MPa simultaneously.Conclusions NOE combined with zygomatic fractures is mostly related to high-energy impact.This occurs straightforwardly under a high-speed impact on the 1/3 medial supraorbital margin and 1/3 medial suborbital margin.The inferior orbital wall is a relatively weak area in the middle of the face.

Objective The biomechanical mechanism of naso-orbito-ethmoid(NOE)combined with zygomatic fractures and the weakness of midfacial bone were investigated,so as to provide a theoretical basis for protection against maxillofacial trauma.Methods CT data of a young male with normal cranio-maxillofacial bones were collected.Then,a human cranio-maxillofacial finite element model was reconstructed using Mimics and other software.The nasal bone,1/3 medial suborbital margin,zygomatic bone,and 1/3 medial supraorbital margin were impacted at a critical velocity of 16 m/s,and impact fractures were simulated.The direction of force conduction,biomechanical variations in the bones,and biomechanical mechanism of NOE combined with zygomatic fractures at different impact velocities in the middle of the face were analyzed.Results Under different working conditions,the stresses in the NOE region with the zygomatic bone exceeded the threshold of 150 MPa when the medial side of the 1/3 medial suborbital margin and 1/3 medial supraorbital margin were impacted at an initial velocity of 16 m/s.Under other working conditions,the stresses in the NOE region and the zygomatic bone did not exceed 150 MPa simultaneously.Conclusions NOE combined with zygomatic fractures is mostly related to high-energy impact.This occurs straightforwardly under a high-speed impact on the 1/3 medial supraorbital margin and 1/3 medial suborbital margin.The inferior orbital wall is a relatively weak area in the middle of the face.

Objective: To analyze the epidemiological distribution of new occupational pneumoconiosis (hereinafter referred as pneumoconiosis) in Henan Province from 2006 to 2020. Methods: Clinical data of newly recruited pneumoconiosis cases from 2006 to 2020 in Henan Province were retrospectively analyzed. Results: A total of 9 624 cases of newly diagnosed pneumoconiosis were reported in Henan Province in the past 15 years, of which 98.6% were males. The number of cases had two peaks, one in 2009-2011 and the other in 2014-2017. There were 12 types of pneumoconiosis of all reported cases except for mica pneumoconiosis, in which coal workers' pneumoconiosis and silicosis accounted for 96.0%. The incidence of phase Ⅰ, Ⅱ and Ⅲ pneumoconiosis was 64.7%, 21.0% and 14.3%, respectively. The incidence of phase Ⅱ and Ⅲ silicosis was higher than that of coal miners' pneumoconiosis (56.3% vs 22.7%, P<0.01). Patients with pneumoconiosis were mainly distributed in Zhengzhou City, Sanmenxia City, Luoyang City, Pingdingshan City and Hebi City, accounting for 85.0%. The enterprises involved were mainly mining industry, large- and medium-sized enterprises, state-owned enterprises and collective enterprises. The top five position of patients were coal miners, rock drillers, excavators, coal mixed workers and pure coal miners, total accounting for 72.0%. There were 196 enterprises reported ≥10 cases, accounting for 17.2% of all enterprises and 80.3% of the total of newly diagnosed pneumoconiosis cases. The median (M) of onset age of new cases was 49 years old, and the M of onset of working age was 16 years. The onset age of silicosis was younger (M: 49 vs 48 years old, P<0.05), while the onset of working age was longer (M: 10 vs 20 years, P<0.05), compared with that of coal workers' pneumoconiosis. Conclusion: The incidence of pneumoconiosis in Henan Province were disease clustering distribution, regional distribution, industry of enterprise, enterprise scale, enterprise type, nature and working position distribution of enterprises. And it showed the characteristics of group incidence. The prevention and control treatment of pneumoconiosis should be strengthened in key areas, key enterprises and key diseases and jobs.

Shexiang Baoxin pills （SBP） are prescribed based on Suhexiang Pills derived from the Formulary of the Bureau of Taiping People's Welfare Pharmacy （《太平惠民和剂局方》） in the Song Dynasty. As the classic Chinese patent medicine in warming and dredging with aromatics， SBP have been widely used in clinical treatment for 30 years by virtue of their unique efficacy in coronary atherosclerotic heart disease （CHD）. Angiogenesis is a biological process in which the body activates angiogenesis-related factors in the body to act on endothelial cells under local vascular injury， tumor growth， local inflammation， and other stimuli to promote the proliferation， migration， and infiltration of endothelial cells， and form new sprouting or non-sprouting blood vessels. As a new strategy for ischemic diseases such as CHD， therapeutic angiogenesis is of great significance in the prevention and treatment of CHD in promoting angiogenesis of ischemic myocardium and establishing effective collateral circulation. However， for the atherosclerotic plaque and tumor， angiogenesis promotion is a risk factor for accelerating the disease progression. Therefore， safe and effective regulation of ischemic myocardial angiogenesis has become the focus of the current prevention and treatment of CHD. Studies in recent years have shown that SBP can intervene in angiogenesis with multiple pathways and targets， which can exert therapeutic angiogenesis effect on CHD and also inhibit atherosclerotic plaque and tumor angiogenesis to varying degrees. This study reviewed the experimental and clinical trials on the regulatory effect of SBPs on angiogenesis in CHD to provide references for the research on Chinese medicine intervention in angiogenesis of CHD.