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Objective To investigate the effect of the increased pulse pressure on cerebrovascular hemodynamic index.Methods From January 2014 to October 2016,the application of the method of cross-sectional study,6 006 consecutive health subjects examined and detected with ultrasound noninvasive cerebral hemodynamic index (CVHI) at the Physical Examination Center,Pu′er People′s Hospital,Yunnan Province were enrolled.In order to control the influence of age and gender on the results,according to age and gender in the increased pulse pressure group (≥60 mmHg),and the same sex and age difference of not more than 1 years old were selected as the inclusion criteria in the normal pulse pressure group (60 mmHg).Finally,1 115 subjects were enrolled as a control group for comparative analysis.The study population was divided into an increased pulse pressure group (n=590) and a normal pulse pressure group (n=1 115) in a mixed manner.The differences of CVHI index and its integral score of both groups were compared.The correlation of the increased pulse pressure level and changes of cerebrovascular hemodynamic accumulative scores were analyzed.Results The minimum velocity,mean velocity,and critical pressure in the increased pulse pressure group were significantly lower than those in the normal pulse pressure group (P<0.05),while the differences of the peripheral vascular resistance,characteristic impedance,pulse wave velocity,dynamic resistance,diastolic blood pressure,and critical pressure were significant higher than those in the normal pulse pressure group.There were significant differences (P<0.01).The integral values of cerebral hemodynamics in the increased pulse pressure group and the normal pulse pressure group were 76±22 and 88±19 respectively.There was significant difference (P<0.01).The proportion of the integral value <75 was 34.4% (203/590) and 15.6% respectively (174/1 115,P<0.01).With the increase of pulse pressure level,the integral value of cerebral hemodynamics showed a significant downward trend,there was a significant negative correlation between the two (r=-0.312,P<0.01).Conclusion The increased pulse pressure may result in the changes of cerebral hemodynamic indexes and its integral values.There is a significant negative correlation between the pulse pressure level and the integral value of cerebral hemodynamics.
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Epidermal growth factor receptor (EGFR) cell signaling plays a central role in beta-cell mass/function regulation, and provides a new strategy for the treatment of diabetes, but its mechanisms of action remain poorly understood. In developmental biology, pancreatic islet development is impaired in lacking EGFR of mice. The attenuation of EGFR signaling in the islets leads to markedly reduced beta-cell proliferation. EGFR ligands BTC can increase proliferation and neogenesis. In this article EGFR and their ligands in the pancreas, EGFR cell signaling, and EGFR effects in pancreatic beta-cell mass/function regulation were reviewed.