Objective To investigate the effects of total intravenous anesthesia (TIVA) and combined intravenous and inhalation anesthesia on blood glucose and cortisol in spinal neurosurgery.Methods Forty-four spinal neurosurgery patients were divided into propofol combined with remifentanil group (PR group) and sevoflurane combined with remifentanil group (SR group ), 22 cases in each group,they were induced with propofol, sufentanil and rocuronium. Anesthesia was maintained with sevoflurane in SR group while propofol in PR group. Depth of anesthesia adaption according to bispectral index (BIS)(45 -55). Blood glucose, cortisol, haemodynamics were observed at different time points. Results The mean arterial pressure(MAP) was higher after induction in PR group than that in SR group(P ＜ 0.05 ). Sixty minutes after induction, MAP was lower than that before induction in PR group (P ＜ 0.05 ). Heart rate ( HR )in both SR group and PR group were lower at 60 and 120 minutes after induction than those before induction (P ＜ 0.05). HR was lower at 5 minutes after induction in PR group than that in SR group (P ＜ 0.05). No significant difference was showed in blood glucose and cortisol between the two groups (P ＞ 0.05 ). Cortisol level was significantly lower at 120 minutes after induction than that before induction [(40.6 ± 18.3) μg/L vs. ( 129.7 ± 36.7 ) μg/L, P ＜ 0.05 ] and at 24 hours postoperative [ (93.6 ± 19.8 ) μg/L ] recovered to the level before induction in PR group. Cortisol level was significantly higher before induction than 120 minutes after induction [ ( 130.5 ± 32.1 ) μg/L vs. (51.6 ± 16.8 ) μg/L, P ＜ 0.05 ] and 24 hours postoperative was (75.9 ± 18.2) μg/L in SR group. Conclusions Two anesthetic regimens are compatible during spinal neurosurgery, with no apparent fluctuations of perioperative blood glucose. However, longer cortisol inhibition is probably happened when using sevoflurane.

SD rats were injected with streptozotocin and fed with high fat diet,used as type 2 diabetic model. Transcription factor Fox01 [in nucleus (15.00±1. 15 vs 6.45±0. 62) %, P<0.05], Caspase-3 [(23.73 ±1.48 vs 6.30±2.20)% ,P<0.01] expressions in pancreatic istet β cells and the positive rate of islet β cells apoptosis[(22.29±1.84 vs 6.25±2.42) %, P<0.01] in diabetic rats were higher than those of control rats. The islet cells which highly expresed Fox01 (in nucleus)and caspase-3 were just the apoptotic islet cells. Therefore,Fox01 may be involved in regulating apoptosis of islet β cells in type 2 diabetes.

BACKGROUND:Reactive oxygen species may be closely related to the occurrence and development of tendinopathy,but its exact role and related signal transduction mechanism have not been fully summarized. OBJECTIVE:To review current clinical or preclinical original studies,summarize the role of reactive oxygen species in tendinopathy and related signal transduction pathways and to explore its characteristics and whether there is a unified downstream pathway. METHODS:Relevant original studies in PubMed,Embase,Web of Science,as well as CNKI,WanFang,and VIP databases were searched by computer and the search results were screened and excluded according to the inclusion criteria.Ninety articles were finally included for review and analysis. RESULTS AND CONCLUSION:Reactive oxygen species affects the direction of tendon healing by simultaneously acting on tendon cells and the extracellular matrix,and it exhibits a bifacial effect in the treatment of tendinopathy.Concentration of reactive oxygen species may be the key to determining its direction of action.The possibility that low-dose reactive oxygen species can participate in the normal physiological healing of tendons or that tendon tissues are adaptive to stimulations may be the underlying mechanism that produces this characteristic effect.Reactive oxygen species affect the composition and structure of the extracellular matrix and normal tendon repair as well as maintain viability in response to external stimulations through matrix metalloproteinases,mitogen-activated protein kinases,mitochondrial apoptosis,the forkhead transcription factor O family,autophagy,inflammation,and antioxidant signaling pathways.Different reactive oxygen species stimulation intensities,durations,and external environments may cause different alterations in downstream molecular pathways and thus have different effects on the tendon.Due to the large gap in the number of literature included in the evaluation of the positive and negative effects of reactive oxygen species,it may cause some analytical error in the search for factors behind the characteristics of the action of reactive oxygen species in tendon.In addition,most experimental intervention conditions and results of interest are relatively homogeneous;therefore,the temporal and quantitative mechanisms of reactive oxygen species and the synergistic effects with other intervention factors have not been clarified,and the overall system of molecular actions of reactive oxygen species in tendinopathy has not been constructed.To conclude,reactive oxygen species might be involved in the treatment and prevention of tendinopathies as a beneficial factor in the future,and facilitate the exploration of oxidative stress signaling pathways and overall molecular action systems in tendinopathies thereafter,as well as lay the foundation for research on the therapeutic strategies of different antioxidants in tendinopathies to better prevent and treat tendon injury and degeneration.

Objective:To design a virtual simulation tutorial system for bone traction nursing of the lower limbs, and to investigate its application effect.Methods:Based on clinical cases, a 3D model was established for the fractured lower limb using the virtual simulation technique. The design of the model considered the position and mechanical relationship between bone traction and fracture ends, as well as the assessment and intervention of the condition after bone traction, and such factors were taken as the core elements of simulation design. Virtual experiments were conducted for the four scenarios of pre-hospital first aid, triage in the hospital, bone traction operation, and postoperative nursing. Such experiments were conducted among junior nursing undergraduates, and examination results and student satisfaction survey were used to evaluate the application effect of the experiments.Results:The teaching software consisted of four training modules, i.e., theoretical knowledge learning of fractures, preparation before bone traction operation, methods and principles of bone traction operation, and observation of conditions after bone traction. The final score of experiments was (90.99±0.58) points among the students, and the degree of satisfaction with the experimental system and the teaching model was 87.85% (441/502) and 63.35% (318/502), respectively.Conclusions:The virtual simulation experiments for bone traction nursing of the lower limbs are scientific, professional, and interesting and have a relatively high degree of satisfaction among students, and therefore, they can be applied in the education of nursing students and the continuing education of nurses.

Objective: To analyze the correlation between the age and the cone-beam CT (CBCT) images of the third and fourth cervical vertebrae in female skeletal class Ⅰ patients aged between 9 and 17 years, and to establish a quantitative evaluation method for calculating the age. Methods: CBCT images of 108 female skeletal class Ⅰ patients aged between 9 and 17 years were collected from Qingdao Stomatological Hospital from September, 2017 to March, 2019. The two-dimensional linear values (AH: height of anterior edge of vertebral body; H: height of middle part of vertebral body; PH: height of posterior edge of vertebral body; AP: width of vertebral body), the two-dimensional linear ratio values (AH/PH, AH/AP, AH/H, H/AP, H/PH, PH/AP) and the three-dimensional volume values of the third vertical vertebrae (C3) and the fourth vertical vertebrae (C4) were measured. By Exponential transformation of measurements and multiple linear regression analysis, the optimal index for evaluating age were screened, and the fitting degree of multiple linear regression equation (R²) and the accuracy of age estimation (SEE) were compared. CBCT images of 27 female skeletal class Ⅰ patients aged from 9 to 17 years were added from Qingdao Stomatological Hospital between April, 2019 and July, 2019, by which the accuracy of the regression equation was verified. Results: Multiple linear regression equation for age estimation based on two-dimensional linear indexes was as follows: Y=-113.928+33.743×e^AH₃^/100+58.844×e^PH₄^/100+20.590×e^AP₄^/100( "e" was a natural constant, e≈2.718), R²=0.745, SEE=1.31. Multiple linear regression equation for age estimation based on two-dimensional linear ratio indexes was as follows: Y=-0.076-2.284×e^AH₃/PH₃+3.227×e^AH₃/AP₃+2.149×e^AH₃/H₃+1.961×e^AH₄/H₄, R²=0.576, SEE=1.70. Multiple linear regression equation of age estimation by the volume index was as follows: Y=-16.828+22.184×e^V₃^{/10 000}, R²=0.555, SEE=1.71. The data of 27 new patients were tested. The CBCT measurement index of C3 and C4 vertebral bodies inferred the fitting degree (R²) and accuracy (SEE) of the equation of the age estimation. The two-dimensional linear value was superior to the two-dimensional linear ratio and the latter was superior to the three-dimensional volume value. The standard error of the estimate about them was 1.74, 2.00 and 2.37, respectively. Conclusions The two-dimensional linear index of CBCT images of C3 and C4 could be used to estimate the age of 9 to 17-year-old female skeletal class Ⅰ patients, and the accuracy of the method was higher than that of two-dimensional ratio index and three-dimensional volume index.