Objective To analyze the short-term survival and prognostic quality of life of patients with liver cirrhosis complicated by bacterial infection. Methods This study collected and analyzed 300 patients with liver cirrhosis complicated with infection who were hospitalized in the First Affiliated Hospital of Hebei North University, and followed up to discuss their survival and quality of life. Results In this study, the top two causes of infection were spontaneous bacterial peritonitis (60.67% of patients) and pneumonia (50.67% of patients). The second causes were urinary tract infections (15.33%), gastrointestinal infections (12.33%), and other causes. There was no statistically significant difference between male and female patients (P>0.05). In addition, the proportion of hospital infections was 71.00%, and there was no statistically significant difference between male and female patients (P>0.05). A total of 353 strains of pathogenic bacteria were isolated in this study (73.37% of patients with hospital infections). The distribution analysis of pathogenic bacteria showed that the highest proportion of ECO was 35.98%, followed by Klebsiella pneumoniae (18.98%). The distribution trend of 259 strains of pathogenic bacteria among hospital patients was consistent with that of all strains, and the difference was not statistically significant (P>0.05). Gram negative bacteria accounted for 79.60% (281/353) of all detected strains, of which Escherichia coli was mostly detected in patients with spontaneous bacterial peritonitis, Klebsiella Pneumoniae (KPN) and Pseudomonas aeruginosa (PAE) were mostly detected in patients with pneumonia, and Enterococcus (ENF) was mostly detected in patients with urinary tract infection; Among gram-negative bacteria, Staphylococcus epidermidis (SEP) and Staphylococcus aureus (SAU) are mostly found in patients with other infectious causes (blood flow infection, etc.) , and Streptococcus (STR) accounts for a high proportion in patients with Spontaneous bacterial peritonitis. In this study, 9 cases of death prognosis were detected during follow-up, and there was no statistically significant difference in the detection of death prognosis between different bacterial strains in both genders, as well as the difference in detection of death prognosis between hospital infections and out of hospital infections in both genders (P>0.05). There was no statistically significant difference in the detection of death prognosis between males and females due to different causes of infection, P>0.05. The quality of life scores of 291 surviving patients were compared between baseline and follow-up, indicating an increase in follow-up scores, especially in the dimensions of physiological function and physical pain. There was no statistically significant difference between different bacterial strains, infection causes, and hospital/non hospital infections (P>0.05) . Conclusion Spontaneous bacterial peritonitis and pneumonia are the main causes of infection that deserve special attention, and the main pathogens of infection are Gram negative bacteria. Targeted treatment and rehabilitation should be provided for patients with liver cirrhosis complicated by infection. At the same time, the proportion of hospital infections is relatively high, and attention should be paid to, prevention and control measures should be implemented as well.

In the past decades, significant progress has been achived in cartilage regeneration. The traditional techniques for constructing tissue engineering cartilage scaffold mainly include pore agent method (or template method), phase separation method, gas foaming method, freeze-drying method, electrospinning method, etc. Cartilage is heterogeneous, and it is difficult for traditional scaffolds to simulate the high anisotropy of cartilage. Therefore, functional regeneration of cartilage is challenging. With the progress of three-dimensional(3D) printing technology, it is possible to prepare functional bionic scaffolds with fine structure and gradient changes through co-deposition of biomaterials, cells and active biomolecules, so as to achieve functional cartilage regeneration. This article reviewed 3D printing technology of cartilage tissue engineering, and the application of 3D printing technology in cartilage regeneration at different anatomical positions (articular cartilage, auricle cartilage, nasal cartilage). In addition, the importance of preparing bionic constructs with regional structure gradient and regional composition gradient was discussed. 3D bioprinting technology, 4D printing techniques, smart biomaterials brought hope for the construction of bionic tissues and organs.

In the past decades, significant progress has been achived in cartilage regeneration. The traditional techniques for constructing tissue engineering cartilage scaffold mainly include pore agent method (or template method), phase separation method, gas foaming method, freeze-drying method, electrospinning method, etc. Cartilage is heterogeneous, and it is difficult for traditional scaffolds to simulate the high anisotropy of cartilage. Therefore, functional regeneration of cartilage is challenging. With the progress of three-dimensional(3D) printing technology, it is possible to prepare functional bionic scaffolds with fine structure and gradient changes through co-deposition of biomaterials, cells and active biomolecules, so as to achieve functional cartilage regeneration. This article reviewed 3D printing technology of cartilage tissue engineering, and the application of 3D printing technology in cartilage regeneration at different anatomical positions (articular cartilage, auricle cartilage, nasal cartilage). In addition, the importance of preparing bionic constructs with regional structure gradient and regional composition gradient was discussed. 3D bioprinting technology, 4D printing techniques, smart biomaterials brought hope for the construction of bionic tissues and organs.

Objective To explore the optimal method for preparing fresh and fixed skeletal muscle tissues,and to lay an experimental foundation for the rapid diagnosis of and research into the pathogenesis of skeletal muscle diseases.Methods The tibialis anterior muscle was extracted from C57BL/6J mice.Fresh tissue was treated by direct rapid freezing in liquid nitrogen,embedding combined with liquid nitrogen freezing,and foreign body alkane treatment combined with liquid nitrogen freezing.Fixed tissues were pre-treated by direct embedding with embedding agent combined with rapid liquid nitrogen freezing.The frozen sections were stained with hematoxylin and eosin.The cross-sectional areas of ice crystals and muscle fibers were calculated to evaluate the effects of the different pre-treatment method.Results The morphology of the muscle fiber bundles was disrupted and numerous ice crystal vacuoles were observed in fresh tissues after direct liquid nitrogen freezing and foreign body alkane treatment combined with liquid nitrogen freezing.In contrast,the muscle fiber bundles were intact and dense and there were no ice crystals in tissues treated with embedding agent combined with rapid liquid nitrogen freezing,indicating that this pre-treatment method was suitable for preparing fresh skeletal muscle tissue.Fixed tissue treated with embedding agent and liquid nitrogen freezing also showed complete muscle fiber bundles and no ice crystals.Conclusions Treatment of fresh and fixed skeletal muscle tissues with embedding agent combined with rapid liquid nitrogen freezing preserves muscle fiber bundles,with no ice crystals.Tissues prepared by this method are thus suitable for further examinations,such as immunohistochemistry and immunofluorescence.This method will therefore aid the accurate and rapid diagnosis of and research into the pathogenesis of skeletal muscle diseases.

ObjectiveTo systematically analyze the effect of therapeutic exercise on neck function and quality of life in patients with neck pain and forward head posture. MethodsRandomized controlled trials about the effects of exercise training on forward head posture and neck pain were searched from PubMed, Web of science, Embase, Medline, Science Direct, EBSCO, Springlink, CNKI, VIP, and Wanfang Data from database establishment to April, 2022. The literature was screened by two researchers independently. Cochrane bias risk assessment tool and Physiotherapy Evidence Database Scale were used to evaluate the quality of the included articles. Revman 5.4 software was used for meta-analysis. ResultsA total of 416 patients from eleven literatures were included. Level 1a evidence indicated scapula stability training could effectively improve cranial vertebral angle (MD = 3.62, 95%CI 2.41 to 4.83, P < 0.001), and relieve pain (MD = 1.32, 95%CI 0.18 to 2.46, P = 0.02). Level 1b evidence indicated scapula stability training could reduce functional disability (MD = -0.92, 95%CI -1.11 to -0.74, P < 0.001). Level 1b evidence indicated deep cervical flexor training could improve cranial vertebral angle (MD = -0.83, 95%CI -1.56 to -0.10, P = 0.03), relieve pain (MD = 0.93, 95%CI 0.54 to 1.32, P < 0.001), and improve neck functional disability (MD = 2.17, 95%CI 1.39 to 2.95, P < 0.001). ConclusionScapula stability training and deep cervical flexor training can effectively improve cranial vertebral angle, relieve neck pain, and improve neck function.

In the past decades, great progress has been made in cartilage regeneration. The traditional techniques for constructing tissue engineering cartilage scaffold mainly include pore agent method (or template method ) , phase separation method, gas foaming method, freeze-drying method , electrospinning method, etc. Cartilage is heterogeneous, and it is difficult for traditional scaffolds to simulate the high anisotropy of cartilage. Therefore, functional regeneration of cartilage is challenging. With the progress of three-dimensional (3D) printing technology, it is possible to prepare functional bionic scaffolds with fine structure and gradient changes through co deposition of biomaterials, cells and active biomolecules, so as to achieve functional cartilage regeneration. This article reviews 3D printing technology of cartilage tissue engineering, and the application of 3D printing technology in cartilage regeneration at different anatomical positions (articular cartilage, auricle cartilage, nasal cartilage) . In addition, the importance of preparing bionic constructs with regional structure gradient and regional composition gradient was discussed. 3D bioprinting technology, 4 D printing techniques, smart biomaterials brought hope for the construction of bionic tissues and organs.

Undifferentiated pleomorphic sarcoma (UPS) is commonly found in deep soft tissues, but cutaneous and subcutaneous lesions are relatively rare. The lack of specific symptoms and characteristic manifestations under the microscope makes the diagnosis and treatment of UPS difficult. In April 2022, a patient who was initially diagnosed with cyst infection of the scalp through superficial ultrasound and symptoms was admitted to the Medical Cosmetic Center of the First Affiliated Hospital of Zhengzhou University. After the lesion was resected through surgery, the pathological result showed that the lesion combined UPS. Subsequently, the patient underwent a tumor extended resection, followed by chemotherapy. After 8 months of follow-up, the patient’s prognosis was favorable. This case report aims to provide a reference for the diagnosis and treatment of cutaneous UPS by thoroughly reviewing the diagnostic and therapeutic process of this patient and systematically reviewing related literature.

In the past decades, great progress has been made in cartilage regeneration. The traditional techniques for constructing tissue engineering cartilage scaffold mainly include pore agent method (or template method ) , phase separation method, gas foaming method, freeze-drying method , electrospinning method, etc. Cartilage is heterogeneous, and it is difficult for traditional scaffolds to simulate the high anisotropy of cartilage. Therefore, functional regeneration of cartilage is challenging. With the progress of three-dimensional (3D) printing technology, it is possible to prepare functional bionic scaffolds with fine structure and gradient changes through co deposition of biomaterials, cells and active biomolecules, so as to achieve functional cartilage regeneration. This article reviews 3D printing technology of cartilage tissue engineering, and the application of 3D printing technology in cartilage regeneration at different anatomical positions (articular cartilage, auricle cartilage, nasal cartilage) . In addition, the importance of preparing bionic constructs with regional structure gradient and regional composition gradient was discussed. 3D bioprinting technology, 4 D printing techniques, smart biomaterials brought hope for the construction of bionic tissues and organs.

Undifferentiated pleomorphic sarcoma (UPS) is commonly found in deep soft tissues, but cutaneous and subcutaneous lesions are relatively rare. The lack of specific symptoms and characteristic manifestations under the microscope makes the diagnosis and treatment of UPS difficult. In April 2022, a patient who was initially diagnosed with cyst infection of the scalp through superficial ultrasound and symptoms was admitted to the Medical Cosmetic Center of the First Affiliated Hospital of Zhengzhou University. After the lesion was resected through surgery, the pathological result showed that the lesion combined UPS. Subsequently, the patient underwent a tumor extended resection, followed by chemotherapy. After 8 months of follow-up, the patient’s prognosis was favorable. This case report aims to provide a reference for the diagnosis and treatment of cutaneous UPS by thoroughly reviewing the diagnostic and therapeutic process of this patient and systematically reviewing related literature.

Objective:To assess the efficacy of non-pharmaceutical intervention on improving sleep quality in pregnant women by network Meta-analysis.Methods:Randomized controlled clinical trials on non-pharmaceutical intervention to improve sleep quality in pregnant women were searched on Cochrane Library, PubMed, Web of Science, Embase, China Biology Medicine disc, CNKI and Wanfang Database by computer, and the search time limit was from the establishment of databases to December 2022. Two researchers independently screened the literature, extracted data and evaluated the risk of bias in the included studies. Stata 14.0 software was used to conduct a network meta-analysis.Results:Finally, a total of 26 randomized controlled trial were included, including 2 363 patients and 7 non-pharmaceutical intervention measures. The best probability ranking results of network meta-analysis showed that in terms of total score evaluation of Pittsburgh Sleep Quality Index, relaxation intervention, traditional Chinese medicine treatment, psychological intervention, exercise intervention, music therapy, sleep health education and routine nursing were ranked from high to low. In terms of dimensional evaluation of Pittsburgh Sleep Quality Index, relaxation intervention, traditional Chinese medicine treatment, psychological intervention and music therapy had better effects.Conclusions:Current evidence suggests that relaxation intervention, traditional Chinese medicine treatment, psychological intervention and music therapy may be more effective interventions in improving the sleep quality of pregnant women.