Objective: To study the protective effects and the mechanism of Salvia yunnanensis extract on hypoxia/reoxygenation injury in cultured rat H9c2 cardiomyocytes.Methods: The hypoxia/reoxygen (H/R) injury model was established in H9c2 cell strain with or without the extract of Salvia yunnanensis.The cultured H9c2 cardiomyocytes were randomly divided into 6 groups: the normal control (C) group, H/R group, H/R+verapamil (H/R+V) group, H/R+Salvia yunnanensis extract at low dose (H/R+L, 0.01 mg·L-1) group, medium dose (H/R+M, 0.1 mg·L-1) group and high dose (H/R+H, 1.0 mg·L-1) group.The cell viability was measured by MTT assay and the activity of malondialdehyde (MDA) and lactate dehydrogenase (LDH) was measured by a detection kit.Fluorescence absorbance (A) value was measured by a fluoroscopy to show the intracellular reactive oxygen species (ROS) levels.Results: Compared with that in the model group, the survival rate of myocardial cells was significantly higher in Salvia yunnanensis extract at low, medium and high dose groups (P＜0.05 or P＜0.01), and the intracellular LDH leakage (P＜0.05 or P＜0.01), the content of MDA in cytoplasm (P＜0.01) and the intracellular ROS levels significantly decreased in Salvia yunnanensis extract at high dose group (P＜0.05).Conclusion: The extract of Salvia yunnanensis has protective effect on hypoxia/reoxygenation injury in cultured rat H9c2 cardiomyocytes, and the mechanism may be related to the reduction of lipid peroxides and removal of cell oxygen free radicals.

ObjectiveTo investigate the feasibility of using pulse oximetry plethysmographic waveform (POP) to identify the restoration of spontaneous circulation (ROSC) during cardiopulmonary resuscitation (CPR).Methods An observational research was conducted. A porcine model of ventricular fibrillation (VF) arrest was reproduced. After 3 minutes of untreated VF, animals received CPR according to the latest CPR guidelines, providing chest compressions to a depth of 5 cm with a rate of 105 compressions per minute and instantaneous mechanical ventilation. After 2 minutes of CPR, animals were defibrillated with 100 J biphasic, followed by continuous chest compressions. Data of hemodynamic parameters, partial pressure of end-tidal carbon dioxide (PETCO2) and POP were collected. The change in POP was observed, and the characteristics of changes of the waves were recorded during the peri-CPR period using the time and frequency domain methods.Results VF was successfully induced in 6 pigs, except 1 death in anesthesia induction period.① After VF, invasive blood pressure waveform and POP of the animals disappeared. PETCO2 was (18.83±2.71) mmHg (1 mmHg=0.133 kPa), and diastolic arterial pressure was (23.83±5.49) mmHg in compression stage. Animals attained ROSC within 1 minute after defibrillation, with PETCO2 [(51.83±9.35) mmHg] and diastolic arterial pressure [(100.67±10.97) mmHg] elevated significantly compared with that of compression stage (t1 = 8.737,t2 = 25.860, bothP = 0.000), with appearance of arterial blood pressure waveform.② Characteristic changes in POP were found in all experimental animals. During the stages of induced VF, compression, ROSC, and compression termination, POP showed characteristic waveform changes. POP showed disappearance of waveform, regular compression wave, fluctuation hybrid and stable pulse wave in time domain method; while in the frequency domain method waveform disappearance, single peak of compression, double or fusion peak and single peak of pulse were observed.Conclusion Analysis of POP using time and frequency domain methods could not only quickly detect cardiac arrest, but also show a role as a feasible, non-invasive marker of ROSC during CPR.

Medical licensing examination is a well-accepted form to authenticate physicians' qualification for practicing in most countries. Assessment of medical humanities is of great importance in medical licensing examination. In this study, the medical humanity evaluation, including contents, forms, scores and proportion of the scores of the examinations, in the medical licensing examination and the empirical research examination of segmental physician examination in China and the United States was compared by analyzing literatures and comparative approach, with the clinical examinations as examples. Results showed that contents and proportion of the scores of medical humanities in the two countries were basically the same, but there were fewer stations in current medical licensing examination in China and improvement should be made in the examination form. The feasibility of standard patients in China's medical licensing examination should be further explored, so as to make full use of the guiding role of medical licensing examination in medical education.

Ultrasound is the best way to diagnose thyroid nodules. To discriminate benign and malignant nodules, calcification is an important characteristic. However, calcification in ultrasonic images cannot be extracted accurately because of capsule wall and other internal tissue. In this paper, deep learning was first proposed to extract calcification, and two improved methods were proposed on the basis of Alexnet convolutional neural network. First, adding the corresponding anti-pooling (unpooling) and deconvolution layers (deconv2D) made the network to be trained for the required features and finally extract the calcification feature. Second, modifying the number of convolution templates and full connection layer nodes made feature extraction more refined. The final network was the combination of two improved methods above. To verify the method presented in this article, we got 8 416 images with calcification, and 10 844 without calcification. The result showed that the accuracy of the calcification extraction was 86% by using the improved Alexnet convolutional neural network. Compared with traditional methods, it has been improved greatly, which provides effective means for the identification of benign and malignant thyroid nodules.

Objective: To investigate the application of emergency medical service (EMS) of Hebei Province and preliminarily analyze its value in the treatment of acute stroke patients. Methods: We collected data of 4 147 acute stroke patients admitted to the Emergency Department between January 2016 and December 2016 in 49 hospitals of Hebei Province. Patients were divided into the EMS group and non-EMS group according to the pattern of arriving hospital. The general data, the onset-to-door time, door-to-treatment time, thrombolytic rate, length of hospital stay and prognosis were compared between the two groups. LSD-t test, Mann-Whitney U or Chi-squared test or Fisher exact test was used for statistical analysis as appropriate. Results: A total of 4 147 acute stroke patients were enrolled, including 589 patients (14.2%) with hemorrhagic stroke and 3 558 patients (85.8%) with ischemic stroke. A total of 750 patients (18.1%) were admitted to the hospital by EMS. The proportion of patients with hemorrhagic stroke who used EMS was higher than that of ischemic stroke (33.4% vs 15.5%, P<0.01). The median onset-to-foor time in the EMS group was less than that in the non-EMS group (1.75 h vs 4.57 h, P<0.01). The median time of onset-to-door time within 1 h in the EMS group was longer than that of the non-EMS group (0.67 h vs 0.53 h, P<0.01). There was no significant difference between the two groups in 1-<2 h period and 2-<3 h period. The median time of onset-to-door time of ≥3 h in the EMS group was shorter than that of the non-EMS group (5.0 h vs 9.47 h, P<0.01). In the EMS group, the proportion of patients with onset-to-door time <3 h was higher than that of the non-EMS group (66.13% vs 57.44%, P<0.01). Compared with the non-EMS group, the time of door-to-treatment time was much shorter in the EMS group (87 min vs 101 min, P<0.01). The length of hospital stay in the EMS group was shorter than that of the non-EMS group [11 (7,14) days vs 12 (6,16) days, P<0.01]. In the EMS group, 15.9% patients received thrombolytic therapy, whereas only 11.0% patients in the non-EMS group received this therapy (P=0.001). In the EMS group, 88.8% patients achieved more favorable outcomes at discharge, which was higher than that in the non-EMS group (85.5%, P=0.02). Conclusions EMS is considered as effective in shortening onset-to-door time, reducing door-to-treatment time, improving thrombolytic rate, reducing hospitalization days, and enhancing the prognosis of acute stroke patients.

Mandibular defects caused by injuries, tumors, and infections are common and can severely affect mandibular function and the patient's appearance. However, mandible reconstruction with a mandibular bionic structure remains challenging. Inspired by the process of intramembranous ossification in mandibular development, a hierarchical vascularized engineered bone consisting of angiogenesis and osteogenesis modules has been produced. Moreover, the hierarchical vascular network and bone structure generated by these hierarchical vascularized engineered bone modules match the particular anatomical structure of the mandible. The ultra-tough polyion complex has been used as the basic scaffold for hierarchical vascularized engineered bone for ensuring better reconstruction of mandible function. According to the results of in vivo experiments, the bone regenerated using hierarchical vascularized engineered bone is similar to the natural mandibular bone in terms of morphology and genomics. The sonic hedgehog signaling pathway is specifically activated in hierarchical vascularized engineered bone, indicating that the new bone in hierarchical vascularized engineered bone underwent a process of intramembranous ossification identical to that of mandible development. Thus, hierarchical vascularized engineered bone has a high potential for clinical application in mandibular defect reconstruction. Moreover, the concept based on developmental processes and bionic structures provides an effective strategy for tissue regeneration.
Bone Regeneration ; Bone Transplantation/methods* ; Hedgehog Proteins ; Humans ; Mandible/surgery* ; Osteogenesis