BACKGROUND:Cellular autophagy maintains metabolism and in vivo homeostasis through the autophagosome-lysosome degradation pathway,which is closely related to the impaired cell death and functional recovery of distal neurons after spinal cord injury,and targeting cellular autophagy to promote the functional recovery of the spinal cord after spinal cord injury is a promising therapeutic direction.OBJECTIVE:To summarize the role of cellular autophagy in spinal cord injury,related regulatory mechanisms of cellular autophagy and therapeutic strategies.METHODS:PubMed and CNKI databases were searched with the search terms of"spinal cord injury,autophagy,regulatory mechanisms,autophagy pathway,therapeutic target"in English and Chinese,respectively.A total of 133 English and 4 Chinese articles were included for review.RESULTS AND CONCLUSION:(1)Autophagy,a form of programmed cell death,has been shown to play a crucial role in the progression and treatment of spinal cord injury.Most studies have shown that moderate activation or promotion of autophagy promotes neurological recovery by decreasing inflammatory responses and apoptosis.A few studies have reported that excessive activation of autophagy,on the contrary,impedes neurological recovery following spinal cord injury.(2)After spinal cord injury,PI3K/AKT/mTOR,MAPK,AMPK and p53 signaling pathways,and factors such as Beclin-1,ATG and LC3 regulate the initiation and development of cell autophagy in a positive or negative manner.(3)Promoting or inhibiting autophagy may be a promising therapeutic strategy to modulate the pathogenesis of traumatic spinal cord injury.And the drugs amlodipine,metformin,and minocycline,the Chinese medicines hawthorn leaf total flavonoids,betulinic acid,oxidized ginseng saponins,acupuncture,and extracellular vesicles of different cellular origins,exosomes and reactive oxygen species-responsive composite fibers as activators of cellular autophagy attenuate secondary injury in response to spinal cord injury by activating cellular autophagy,while the drugs insulin-like growth factor 1 and eladavone,Chinese medicine ginseng saponin,acupuncture,and hydrogel carrying basic fibroblast growth factor as inhibitors of cellular autophagy promote functional recovery after spinal cord injury by inhibiting excessive cellular autophagy.(4)The related regulators of cellular autophagy are interconnected,and the bi-directional effects of cellular autophagy on spinal cord injury make it necessary to further explore the dominant factors that regulate cellular autophagy.(5)Research on the use of autophagy as a therapeutic target for spinal cord injury is mostly carried out in animal models,but there are no autophagy-related drugs used in the clinical practice,and their safety and efficacy need to be further investigated in the clinical field.

BACKGROUND:Currently,spinal cord injury imposes a huge psychological and economic burden on patients and the National Health Service.The prevention,treatment,and rehabilitation of spinal cord injury have become an important topic in the field of medicine.Therefore,it is important to explore new effective therapeutic strategies based on an in-depth understanding of the underlying molecular mechanisms of spinal cord injury.OBJECTIVE:To review the research progress on the mechanism of action of mesenchymal stem cell-derived exosomes loaded with various miRNAs in improving the function of spinal cord injury,and based on the current status of clinical translation,to put forward a few thoughts and outlooks on their clinical use.METHODS:The first author searched CNKI and PubMed databases using"mesenchymal stem cells,exosomes,spinal cord injury,miRNA,pathophysiology,clinical translation,clinical trials,good manufacturing practice"as Chinese and English search terms.The types of literature included treatises and reviews,and the language types were English and Chinese.Finally,72 papers were screened and analyzed.RESULTS AND CONCLUSION:(1)This article outlines the biological properties of exosomes and the advantages that they can serve as good vectors for loading miRNAs.A variety of miRNAs mediated by mesenchymal stem cell-derived exosomes mainly promote the recovery of neuronal function by regulating the expression of nerve regeneration-associated proteins,repressing RAS homologous gene family member A,activating cyclophosphoadenosine effector-binding proteins,and signaling and transcriptional activation proteins 3,and regulating phosphoinositide and tensin homologue/programmed cell death factor 4 pathways.Inflammatory responses were improved by regulating endoplasmic reticulum-to-nucleus signaling 1,expression of interferon regulatory factor 5,Toll-like receptor 4/nuclear factor-kappa B pathway,and down-regulating related pro-inflammatory factors.Angiogenesis was promoted by inhibition of germination-associated domain 1-containing EVH1 and phosphatidylinositol 3-kinase regulatory subunit 2.(2)Further comparative analyses revealed that miR-216-5p,miR-145-5p,and miR-146b improved inflammatory responses by regulating related pathways.Combining these miRNAs may produce more significant effects;hypoxic preconditioning may be a preconditioning method to increase the efficacy of exosomal therapy.(3)There are currently no clinical trials applying mesenchymal stem cell-derived exosomes to spinal cord injury,which is related to the need to meet good manufacturing practices before they can be put into clinical use.Challenges such as the need for large-scale,high-volume cell production,the lack of an efficient and uniform method for isolating exosomes,and the need to pass a strict regulatory approval mechanism prior to clinical use have impeded the clinical entry.(4)miRNAs have great potential as exosomal contents of mesenchymal stem cells in the treatment of spinal cord injury,and their mechanism of action should be explored in depth as well as accelerated to the clinical trial stage in order to provide a new and effective method for the treatment of spinal cord injury.

BACKGROUND:Cellular autophagy maintains metabolism and in vivo homeostasis through the autophagosome-lysosome degradation pathway,which is closely related to the impaired cell death and functional recovery of distal neurons after spinal cord injury,and targeting cellular autophagy to promote the functional recovery of the spinal cord after spinal cord injury is a promising therapeutic direction.OBJECTIVE:To summarize the role of cellular autophagy in spinal cord injury,related regulatory mechanisms of cellular autophagy and therapeutic strategies.METHODS:PubMed and CNKI databases were searched with the search terms of"spinal cord injury,autophagy,regulatory mechanisms,autophagy pathway,therapeutic target"in English and Chinese,respectively.A total of 133 English and 4 Chinese articles were included for review.RESULTS AND CONCLUSION:(1)Autophagy,a form of programmed cell death,has been shown to play a crucial role in the progression and treatment of spinal cord injury.Most studies have shown that moderate activation or promotion of autophagy promotes neurological recovery by decreasing inflammatory responses and apoptosis.A few studies have reported that excessive activation of autophagy,on the contrary,impedes neurological recovery following spinal cord injury.(2)After spinal cord injury,PI3K/AKT/mTOR,MAPK,AMPK and p53 signaling pathways,and factors such as Beclin-1,ATG and LC3 regulate the initiation and development of cell autophagy in a positive or negative manner.(3)Promoting or inhibiting autophagy may be a promising therapeutic strategy to modulate the pathogenesis of traumatic spinal cord injury.And the drugs amlodipine,metformin,and minocycline,the Chinese medicines hawthorn leaf total flavonoids,betulinic acid,oxidized ginseng saponins,acupuncture,and extracellular vesicles of different cellular origins,exosomes and reactive oxygen species-responsive composite fibers as activators of cellular autophagy attenuate secondary injury in response to spinal cord injury by activating cellular autophagy,while the drugs insulin-like growth factor 1 and eladavone,Chinese medicine ginseng saponin,acupuncture,and hydrogel carrying basic fibroblast growth factor as inhibitors of cellular autophagy promote functional recovery after spinal cord injury by inhibiting excessive cellular autophagy.(4)The related regulators of cellular autophagy are interconnected,and the bi-directional effects of cellular autophagy on spinal cord injury make it necessary to further explore the dominant factors that regulate cellular autophagy.(5)Research on the use of autophagy as a therapeutic target for spinal cord injury is mostly carried out in animal models,but there are no autophagy-related drugs used in the clinical practice,and their safety and efficacy need to be further investigated in the clinical field.

BACKGROUND:Currently,spinal cord injury imposes a huge psychological and economic burden on patients and the National Health Service.The prevention,treatment,and rehabilitation of spinal cord injury have become an important topic in the field of medicine.Therefore,it is important to explore new effective therapeutic strategies based on an in-depth understanding of the underlying molecular mechanisms of spinal cord injury.OBJECTIVE:To review the research progress on the mechanism of action of mesenchymal stem cell-derived exosomes loaded with various miRNAs in improving the function of spinal cord injury,and based on the current status of clinical translation,to put forward a few thoughts and outlooks on their clinical use.METHODS:The first author searched CNKI and PubMed databases using"mesenchymal stem cells,exosomes,spinal cord injury,miRNA,pathophysiology,clinical translation,clinical trials,good manufacturing practice"as Chinese and English search terms.The types of literature included treatises and reviews,and the language types were English and Chinese.Finally,72 papers were screened and analyzed.RESULTS AND CONCLUSION:(1)This article outlines the biological properties of exosomes and the advantages that they can serve as good vectors for loading miRNAs.A variety of miRNAs mediated by mesenchymal stem cell-derived exosomes mainly promote the recovery of neuronal function by regulating the expression of nerve regeneration-associated proteins,repressing RAS homologous gene family member A,activating cyclophosphoadenosine effector-binding proteins,and signaling and transcriptional activation proteins 3,and regulating phosphoinositide and tensin homologue/programmed cell death factor 4 pathways.Inflammatory responses were improved by regulating endoplasmic reticulum-to-nucleus signaling 1,expression of interferon regulatory factor 5,Toll-like receptor 4/nuclear factor-kappa B pathway,and down-regulating related pro-inflammatory factors.Angiogenesis was promoted by inhibition of germination-associated domain 1-containing EVH1 and phosphatidylinositol 3-kinase regulatory subunit 2.(2)Further comparative analyses revealed that miR-216-5p,miR-145-5p,and miR-146b improved inflammatory responses by regulating related pathways.Combining these miRNAs may produce more significant effects;hypoxic preconditioning may be a preconditioning method to increase the efficacy of exosomal therapy.(3)There are currently no clinical trials applying mesenchymal stem cell-derived exosomes to spinal cord injury,which is related to the need to meet good manufacturing practices before they can be put into clinical use.Challenges such as the need for large-scale,high-volume cell production,the lack of an efficient and uniform method for isolating exosomes,and the need to pass a strict regulatory approval mechanism prior to clinical use have impeded the clinical entry.(4)miRNAs have great potential as exosomal contents of mesenchymal stem cells in the treatment of spinal cord injury,and their mechanism of action should be explored in depth as well as accelerated to the clinical trial stage in order to provide a new and effective method for the treatment of spinal cord injury.

ObjectiveTo study the genetic diversity and genetic relationship of Pinellia ternata germplasm resources and provide the basis for germplasm identification， variety breeding， and resource conservation. MethodIn this study， 27 P. ternata were used as experimental materials to determine seven phenotypic characters， such as plant height， leaf length， and leaf width. Simple sequence repeats （SSR） primers were designed based on P. ternata transcriptome data， and polymerase chain reaction （PCR） amplification was performed on 27 P. ternata samples. The genetic diversity of P. ternata germplasm was analyzed by POPGENE32， PowerMarker V3.25， and NTSYS-PC 2.10e software. ResultA total of 10 pairs of highly polymorphic primers （PIC>0.5） and four pairs of moderately polymorphic primers （0.25

The human resource management of organ donation coordinators in China is still in its infancy stage, plagued by such problems as unclear career orientation, poor management and unclear career planning. In March 2010, a tertiary public hospital was approved as a medical institution in a national pilot province for organ donation. In recent years, the hospital had kept exploring human resource management of coordinators and established a relatively complete management mode for organ donation coordinators. This mode featured the establishment of full-time recruitment positions, development of human resource management plans, refinement of job descriptions, establishment of performance evaluation plans, optimization of assessment and incentive mechanisms, and innovation of talent cultivation modes. The management practice had achieved certain results, ensuring the sustainable development of hospital organ donation operation, and providing a reference for the scientific and standardized development of organ donation and transplantation in China.

Thimerosal has been widely used as a preservative in drug and vaccine products for decades.Due to the strong propensity to modify thiols in proteins,conformational changes could occur due to covalent bond formation between ethylmercury(a degradant of thimerosal)and thiols.Such a conformational change could lead to partial or even complete loss of desirable protein function.This study aims to investigate the effects of thimerosal on the capsid stability and antigenicity of recombinant human papillomavirus(HPV)18 virus-like particles(VLPs).Dramatic destabilization of the recombinant viral capsid upon thimerosal treatment was observed.Such a negative effect on the thermal stability of VLPs preserved with thimerosal was shown to be dependent on the thimerosal concentration.Two highly neutralizing antibodies,13H12 and 3C3,were found to be the most sensitive to thimerosal treatment.The kinetics of antigenicity loss,when monitored with 13H12 or 3C3 as probes,yielded two distinctly different sets of kinetic parameters,while the data from both monoclonal antibodies(mAbs)followed a biphasic expo-nential decay model.The potential effect of thimerosal on protein function,particularly for thiol-containing proteinaceous active components,needs to be comprehensively characterized during formulation development when a preservative is necessary.

OBJECTIVE: To investigate the long-term outcome of laparoscope-assisted transanal total mesorectal excision (taTME) for rectal cancer. METHODS: Clinicopathological data of 29 patients with mid-low rectal cancer undergoing laparoscope-assisted taTME at Department of Gastrointestinal Surgery, the First Affiliated Hospital of Guangzhou Medical University from May 2010 to December 2015 were collected for the retrospective case-series study. All the operations were performed with transabdominal and transanal procedure simultaneously or sequentially. Perioperative presentations, pathological examinations, and oncologic outcomes were retrospectively analyzed. Long-term recurrence, metastasis and survival were assessed during follow-up. Outpatient clinic and telephone survey were used for follow-up. The follow-up time ended in December 2018. The overall survival (OS) rate and disease-free survival (DFS) rate were calculated by the Kaplan-Meier method. RESULTS: The average intra-operative blood loss was (75.9±9.5) ml (range,20 to 200). The average operating time was (223.6±4.1) minutes (range, 165 to 280). The average number of harvested lymph node was 22.3±2.0. The average length of pathological specimen was (13.1±0.6) cm. The average distal resection margin was (2.9±0.2) cm. 89.7% (26/29) of specimens was complete and 10.3% (3/29) near complete. Two cases (6.9%) had positive cutting circumferential margin. Median follow-up was 56 (range, 22 to 91) months. Local recurrence rate, distant metastasis rate, 3-year OS rate, 3-year DFS rate, 5-year OS rate, 5-year DFS rate were 10.3% (3/29), 20.7%(6/29), 96.6%, 83.2%, 87.6% and 79.6%, respectively. No incisional hernia or adhesive intestinal obstruction was found. CONCLUSION Long-term outcomes of mid-low rectal cancer patients undergoing laparoscope-assisted taTME are satisfactory.
Humans ; Laparoscopes ; Neoplasm Recurrence, Local ; Rectal Neoplasms ; surgery ; Rectum ; Retrospective Studies ; Transanal Endoscopic Surgery

Objective: To observe the effect of monopolar radiofrequency(RF) and fractional CO₂ laser on the filler hyaluronic acid (HA) injected subcutaneously in rats. Methods: Five circular areas with a diameter of 2 cm at the dorsum of each rat were prepared for different treatment randomly: (1)HA injection group(HA). (2)HA injection+ fractional CO₂ laser treatment group(HA+ CO₂). (3)HA injection+ radiofrequency treatment group(HA+ RF). (4)0.9%NaCl+ fractional CO₂ laser treatment group(NaCl+ CO₂). (5)0.9%NaCl+ radiofrequency treatment group(NaCl+ RF). The volume of HA in group 1, 3, 4 were determined via MRI with reconstruction of Mimics Research X 17.0 before or 1, 3, 6, 12 months after photoelectric treatment. The rates of absorption of each time point and duration were calculated. Results: The mass of HA could be even recognized 12 months after treatment macroscopicly. Inflamatory cell infiltration and fibring were observed around HA in HA, HA+ RF, HA+ CO₂ group within 1 month. The fibrous capsule formed around HA, which was enhanced by RF and CO₂ laser therapy since 3 months post therapy. There was no significant difference of volume of HA among the three groups before photoelectric treatment. There was significant difference of HA volume on 12 months post treatment, HA(311.90±52.59) μl, HA+ RF(404.80±64.29) μl, HA+ CO₂(357.60±59.10) μl(P<0.01). The volume of HA received RF treatment degraded more slowly. The rate of HA absorption during 3-6 months post treatment was significantly lower than that of 6-12 months post treatment(P<0.05). Conclusions Fractional CO₂ laser and radiofrequency do not increase the degradation of HA. On the contrary, they may prolong the duration of HA injected subcutaneously in rat.

Objective To evaluate the immunostimulatory effects of polysaccharides, including Lycium barbarum polysaccharides ( LBP) , Angelica polysaccharides ( AP) , Licorice polysaccharides ( LP) and Inulin polysaccharides ( IP) , used alone or in combination with aluminum adjuvant on the recombinant protein of varicella-zoster virus (VZV) glycoprotein (gE) as an immunogen in mice. Methods BALB/c mice were randomly divided into 11 groups with five in each group. Intramuscular injection was given at Days 0 and 14. Serum samples were collected at weeks 0, 2, 3, 4 and detected for total anti-gE IgG titers and an-tibody subtypes by indirect ELISA. The mice were sacrificed at week 4 to collect spleen lymphocytes aseptic-ally. CCK-8 method was used to evaluate the proliferation of spleen lymphocytes. The levels of IFN-γ and IL-4 were measured by ELISA. The percentages of CD3+CD4+ and CD3+CD8+ T cell subsets were deter-mined by flow cytometry. Results The four plant-derived polysaccharides in combination with aluminum adjuvant showed good adjuvant activities. LP combined with aluminum adjuvant effectively increased the titer of IgG2, promote the proliferation of splenocytes and enhanced the secretion of IFN-γ and IL-4. Further-more, it also induced CD3+CD4+ and CD3+CD8+ T cell proliferation in vivo. Conclusions The four plant-derived polysaccharides in combination with aluminum adjuvant could all enhance antibody production. LP combined with aluminum adjuvant could induce cell-mediated immune responses, suggesting that it might be a promising adjuvant for varicella-zoster subunit vaccines.