Amanitin-containing mushroom poisoning is one of the most harmful and lethal types of mushroom poisoning events. Its basic medical and clinical medical knowledge has not been fully understood and mastered, so the basic and clinical diagnosis and treatment of amanitin-containing mushroom poisoning has always been a hot research field of acute mushroom poisoning. This article focuses on the new progress in the epidemiology, toxicological properties, poisoning mechanism, clinical diagnosis and treatment of amanitin-containing mushroom poisoning, in order to provide the basis for further study, diagnosis and treatment of amanitin-containing mushroom poisoning for basic researchers and clinical medical staff.
Atrial fibrillation is a common and refractory atrial arrhythmia. Changes of atrial mechanical circumstances are closely related to the occurrence and maintenance of atrial fibrillation. Mechanical factors can increase the automaticity, slow conduction velocity and shorten the effective refractory period of the atrium by causing electrical and structural remodeling, and eventually increase the inducibility of atrial fibrillation. The intracellular calcium level, function and structure of cytoskeleton, local renin-angiotensin system, integrin and mitogen-activated protein kinases (MAPKs) pathway might take part in the process. Here we analyze and review the underlining mechano-electric feedback process of atrial fibrillation and its related research in order to provide a theoretical basis for further research and elucidating of the mechanical mechanism of atrial fibrillation.
ObjectiveTo explore the relationship between imipenem-resistant Pseudomonas aeruginosa (IRPA) and outer membrane porin protein OprD2 gene mutation.MethodsIRPA strains (n=30) and imipenem-sensitive Pseudomonas aeruginosa strains (n=30) isolated from the clinical specimens in the First Affiliated Hospital of Chengdu Medical College from December 2018 to December 2019 were collected. Bacteria identification and drug sensitivity experiments were performed by VITEK-2 Compact combined with Kirby-Bauer method. Quantitative real-time polymerase chain reaction was used to detect the expression levels of OprD2 gene in the imipenem-resistant group and the imipenem-sensitive group, and then the strains with decreased expression were sequenced.ResultsThe expression level of OprD2 gene in the imipenem-resistant group was significantly lower than that in the imipenem-sensitive group (P=0.048). Compared with the X63152 sequence, all the 11 Pseudomonas aeruginosa strains with significantly decreased OprD2 expression carried genetic variation, which occurred in coding regions. The variation sites presented diversity. The missense mutation of c.308C→G, c.344A→C, c.379G→C, c.471G→C, c.508T→C, c.553G→C, c.556-558CCG→GGC and c.565-566TG→AC caused amino acid change in the loop L2 and L3 of OprD2 porin, which affected the binding to imipenem. In addition, the mutations at 127, 169-171, 175, 177, 604, 628-630, 688, 719, 785, 826, 828, 842-843, 886, 901, 928-930, 934, 936, 944-945, 1039, 1041 and 1274 all resulted in the changes of amino acid. We also detected a deletion (c.1114-1115delAT) and other nonsense mutations. Large fragment deletion of OprD2 gene occurred in Strain 12. ConclusionsThe mutation and deletion of OprD2 gene can reduce the expression lever of OprD2 gene, leading to the resistance to imipenem of Pseudomonas aeruginosa. The variation of OprD2 gene of IRPA from clinical strains is diverse.
Erythropoietin (EPO) is known as a classical hematopoietic growth factor, which has been used to treat anemia caused by different reasons. In recent years, EPO's non-hematopoietic biological effects have gradually become a focus. Among these effects, EPO's tissue protection is most attractive and EPO has been proved to protect many different tissues and organs. Myocardial protection has always been the important and key topic in the field of cardiovascular diseases. Reports about EPO's myocardial protective effects have been published in the recent two years, which direct the research about myocardial protection with new ideas. In this article, the discoveries and unsolved problems associated with EPO's myocardial protection were reviewed.
ObjectiveTo explore the pathogenesis of cervical spondylosis combined with cervicogenic vertigo, and to investigate the clinical results of anterior discectomy and fusion in treating the disease. MethodsA retrospective study was performed on 83 patients with cervical spondylosis myelopathy (n=60, 72%) or radiculopathy (n=23, 37.3%) accompanied by sympathetic symptoms such as dizziness between March 2008 and November 2012. The disease involved single segment in 29 cases, double segment in 50 cases, and triple in 4 cases. All the segments involved were treated with anterior discectomy and fusion. Vertigo alleviation was observed before surgery, 3 days after surgery, and during the final follow-up. Neurological status was evaluated by Japanese Orthopedic Association (JOA) score system and sympathetic symptoms were evaluated with vertigo symptom and function scoring system. ResultsThe average follow-up was 21 months (ranging from 12 to 30 months). Significant difference was observed between sympathetic symptom scores and JOA scores before surgery and 3 days after surgery or at the final follow-up (P<0.05), but no significant difference was found between the scores 3 days after surgery and during the final follow-up (P>0.05). ConclusionThe surgical effect for cervicogenic vertigo is often accompanied by the relief of spinal cord and nerve roots symptoms. Surgery is effective for cervical spondylosis combined with cervicogenic vertigo.
The locking mechanism between bracket and shape memory alloy (SMA) archwire in the newly developed domestic orthodontic device is the key to controlling the precise alignment of the teeth. To meet the demand of locking force in clinical treatment, the tightening torque angle of the locking bolt and the required torque magnitude need to be precisely designed. For this purpose, a design study of the locking mechanism is carried out to analyze the correspondence between the tightening torque angle and the locking force and to determine the effective torque value, which involves complex coupling of contact, material and geometric nonlinear characteristics. Firstly, a simulation analysis based on parametric orthogonal experimental design is carried out to determine the SMA hyperelastic material parameters for the experimental data of SMA archwire with three-point bending. Secondly, a two-stage fine finite-element simulation model for bolt tightening and archwire pulling is established, and the nonlinear analysis is converged through the optimization of key contact parameters. Finally, multiple sets of calibration experiments are carried out for three tightening torsion angles. The comparison results between the design analysis and the calibration experiments show that the deviation between the design analysis and the calibration mean value of the locking force in each case is within 10%, and the design analysis method is valid and reliable. The final tightening torque angle for clinical application is determined to be 10° and the rated torque is 2.8 N∙mm. The key data obtained can be used in the design of clinical protocols and subsequent mechanical optimization of novel orthodontic devices, and the research methodology can provide a valuable reference for force analysis of medical devices containing SMA materials.
Manual segmentation of coronary arteries in computed tomography angiography (CTA) images is inefficient, and existing deep learning segmentation models often exhibit low accuracy on coronary artery images. Inspired by the Transformer architecture, this paper proposes a novel segmentation model, the double parallel encoder u-net with transformers (DUNETR). This network employed a dual-encoder design integrating Transformers and convolutional neural networks (CNNs). The Transformer encoder transformed three-dimensional (3D) coronary artery data into a one-dimensional (1D) sequential problem, effectively capturing global multi-scale feature information. Meanwhile, the CNN encoder extracted local features of the 3D coronary arteries. The complementary features extracted by the two encoders were fused through the noise reduction feature fusion (NRFF) module and passed to the decoder. Experimental results on a public dataset demonstrated that the proposed DUNETR model achieved a Dice similarity coefficient of 81.19% and a recall rate of 80.18%, representing improvements of 0.49% and 0.46%, respectively, over the next best model in comparative experiments. These results surpassed those of other conventional deep learning methods. The integration of Transformers and CNNs as dual encoders enables the extraction of rich feature information, significantly enhancing the effectiveness of 3D coronary artery segmentation. Additionally, this model provides a novel approach for segmenting other vascular structures.
Chronic obstructive pulmonary disease is often accompanied by anxiety or depression. The exacerbation of anxiety and depression can lead to the deterioration of chronic obstructive pulmonary disease, reduce patients’ quality of life, worsen poor prognosis, and increase the risk of death. Anxiety and depression are one of the important causes of death in patients with chronic obstructive pulmonary disease, but the complexity of their risk factors and pathogenesis often lead to clinicians being unable to make accurate diagnosis and treatment in a timely manner. Based on existing research, this article elaborates on the risk factors and pathogenesis of chronic obstructive pulmonary disease complicated with anxiety or depression, aiming to improve the diagnosis and treatment ability of clinical physicians for chronic obstructive pulmonary disease complicated with anxiety or depression, achieve timely diagnosis and treatment, improve patients’ prognosis, and improve quality of life.