BACKGROUND Erythrocyte alloantibodies are mainly produced after immune stimulation,such as blood transfusion,pregnancy,and transplantation,and are the leading causes of severe hemolytic transfusion reactions and diffi...BACKGROUND Erythrocyte alloantibodies are mainly produced after immune stimulation,such as blood transfusion,pregnancy,and transplantation,and are the leading causes of severe hemolytic transfusion reactions and difficulty in blood grouping and matching.Therefore,antibody screening is critical to prevent and improve red cell alloantibodies.Routine tube assay is the primary detection method of antibody screening.Recently,erythrocyte-magnetized technology(EMT)has been increasingly used in clinical practice.This study intends to probe the application and efficacy of the conventional tube and EMT in red blood cell alloantibody titration to provide a reference for clinical blood transfusion.AIM To investigate the application value of conventional tube and EMT in red blood cell alloantibody titration and enhance the safety of blood transfusion practice.METHODS A total of 1298 blood samples were harvested from blood donors at the Department of Blood Transfusion of our hospital from March 2021 to December 2022.A 5 mL blood sample was collected in tubing,which was then cut,and the whole blood was put into a test tube for centrifugation to separate the serum.Different red blood cell blood group antibody titers were simultaneously detected using the tube polybrene test,tube antiglobulin test(AGT),and EMT screening irregular antibody methods to determine the best test method.RESULTS Simultaneous detection was performed through the tube polybrene test,tube AGT and EMT screening irregular antibodies.It was discovered that the EMT screening irregular antibody method could detect all immunoglobulin G(IgG)and immunoglobulin M(IgM)irregular antibodies,and the results of manual tube AGT were satisfactory,but the operation time was lengthy,and the equipment had a large footprint.The EMT screening irregular antibody assay was also conducted to determine its activity against type O Rh(D)red blood cells,and the outcomes were satisfactory.Furthermore,compared to the conventional tube method,the EMT screening irregular antibody method was more cost-effective and had significantly higher detection efficiency.CONCLUSION With a higher detection rate,the EMT screening irregular antibody method can detect both IgG and IgM irregular antibodies faster and more effectively than the conventional tube method.展开更多
Evacuated tube transportation (ETT) will be one of the ultra-large-scale vacuum application areas. This paper lists some key vacuum technology issues in ETT: (1) how to construct ultra-large-scale vacuum chamber ...Evacuated tube transportation (ETT) will be one of the ultra-large-scale vacuum application areas. This paper lists some key vacuum technology issues in ETT: (1) how to construct ultra-large-scale vacuum chamber with lower cost and high reliability, (2) how to evacuate gas out of the ETT tube in short time, (3) how to release heat or reduce temperature in the vacuum tube, (4) how to avoid vacuum discharge, (5) how to make vehicles with airproof shells and life support system, and (6) how to detect leaks and find leak positions efficiently. At the same time, some solutions are proposed.展开更多
This study compares the regenerative radiant-tube heater with the traditional radiant-tube heater, showing the regenerative radiant-tube heaters have many advantages in fuel consumption. Based on the experience of cha...This study compares the regenerative radiant-tube heater with the traditional radiant-tube heater, showing the regenerative radiant-tube heaters have many advantages in fuel consumption. Based on the experience of changing a heating system with traditional radiant-tube burners to a heating system with regenerative combustion, propositions are given for the combustion control system, pilot burner, flame detection and for trouble prevention in rebuilding the continuous annealing production line(CAPL) and the continuous galvanizing line(CGL).展开更多
With the increasing demand for new technologies in HPHT (high pressure high temperature) wells, more and more attention has been paid to the system of technical qualifications. Most established norms, standards and re...With the increasing demand for new technologies in HPHT (high pressure high temperature) wells, more and more attention has been paid to the system of technical qualifications. Most established norms, standards and recommended practices are written in prescribed formats, setting out methods, procedures and acceptance criteria for product design, manufacture and testing. However, established norms, standards or recommended practices may not adequately cover new technologies or applications. The technical qualification system is established in this paper, which can identify the potential failure modes and some activities in order to control the uncertainties and increase confidence of using new technology. A risk-based technical qualification system is used to assess non-traditional operations. It includes following seven main steps: system breakdown, technology assessment and classification, technical novelty, failure model and risk analysis, risk-based qualification planning and participation level development. The core of technical qualification system is to understand the ways and causes of system failure, and to carry out corresponding activities to provide evidence that the system will not fail. Through the technical identification process, the detailed equipment/operation specifications and identification requirements have been formulated. Different levels of participation are assigned for each eligibility activity, depending on the hazard and risk. It is proved that the application of the technical qualification principle in the systematic evaluation and control of the risks of new technologies or new applications is successful. In HPHT wells in particular, operators can move from a reactive approach to a proactive approach.展开更多
This study was conducted to investigate the in-vitro production technology of embryos from young Dorper sheep, so as to provide technical support for the utilization of ovarian follicles in young Dorper sheep. Tests w...This study was conducted to investigate the in-vitro production technology of embryos from young Dorper sheep, so as to provide technical support for the utilization of ovarian follicles in young Dorper sheep. Tests were conducted from the induction of Dorper sheep of 4 to 8 weeks old using follicle stimulating hormone(FSH) and pregnant horse serum(PMSG), collection of oocytes, in-vitro oocyte maturation-fertilization-zygote cultivation and 2-4-cell-stage fertilized ovum transfer. The results showed that 585 oocytes were collected from eight Dorper sheep at the age of 4 and 8 weeks, with an average of 73.13 oocytes/sheep. 346 of the 2-4-cell-stage fertilized eggs were obtained, whose cleavage rate was 59.15%. 77 in-vitro fertilized eggs at 2-4-cell stage were transplanted into 17 recipient sheep, seven of which were pregnant and gave birth to 13 "test-tube sheep" with a conception rate of 41.18%. It is indicated that the hormone induction technique, in-vitro oocyte maturation-fertilization-zygote cultivation technique and 2-4-cell-stage fertilized ovum transfer technique used in this study can serve as effective techniques for the in-vitro production of embryos from Dorper sheep of 4-8 weeks old.展开更多
基金Supported by Project of Shanxi Provincial Health Commission,No.2021144.
文摘BACKGROUND Erythrocyte alloantibodies are mainly produced after immune stimulation,such as blood transfusion,pregnancy,and transplantation,and are the leading causes of severe hemolytic transfusion reactions and difficulty in blood grouping and matching.Therefore,antibody screening is critical to prevent and improve red cell alloantibodies.Routine tube assay is the primary detection method of antibody screening.Recently,erythrocyte-magnetized technology(EMT)has been increasingly used in clinical practice.This study intends to probe the application and efficacy of the conventional tube and EMT in red blood cell alloantibody titration to provide a reference for clinical blood transfusion.AIM To investigate the application value of conventional tube and EMT in red blood cell alloantibody titration and enhance the safety of blood transfusion practice.METHODS A total of 1298 blood samples were harvested from blood donors at the Department of Blood Transfusion of our hospital from March 2021 to December 2022.A 5 mL blood sample was collected in tubing,which was then cut,and the whole blood was put into a test tube for centrifugation to separate the serum.Different red blood cell blood group antibody titers were simultaneously detected using the tube polybrene test,tube antiglobulin test(AGT),and EMT screening irregular antibody methods to determine the best test method.RESULTS Simultaneous detection was performed through the tube polybrene test,tube AGT and EMT screening irregular antibodies.It was discovered that the EMT screening irregular antibody method could detect all immunoglobulin G(IgG)and immunoglobulin M(IgM)irregular antibodies,and the results of manual tube AGT were satisfactory,but the operation time was lengthy,and the equipment had a large footprint.The EMT screening irregular antibody assay was also conducted to determine its activity against type O Rh(D)red blood cells,and the outcomes were satisfactory.Furthermore,compared to the conventional tube method,the EMT screening irregular antibody method was more cost-effective and had significantly higher detection efficiency.CONCLUSION With a higher detection rate,the EMT screening irregular antibody method can detect both IgG and IgM irregular antibodies faster and more effectively than the conventional tube method.
基金provided by National Natural Science Foundation of China (No.50678152)Scientific Plan Fund of Shaanxi Province (No.2009K09-24)
文摘Evacuated tube transportation (ETT) will be one of the ultra-large-scale vacuum application areas. This paper lists some key vacuum technology issues in ETT: (1) how to construct ultra-large-scale vacuum chamber with lower cost and high reliability, (2) how to evacuate gas out of the ETT tube in short time, (3) how to release heat or reduce temperature in the vacuum tube, (4) how to avoid vacuum discharge, (5) how to make vehicles with airproof shells and life support system, and (6) how to detect leaks and find leak positions efficiently. At the same time, some solutions are proposed.
文摘This study compares the regenerative radiant-tube heater with the traditional radiant-tube heater, showing the regenerative radiant-tube heaters have many advantages in fuel consumption. Based on the experience of changing a heating system with traditional radiant-tube burners to a heating system with regenerative combustion, propositions are given for the combustion control system, pilot burner, flame detection and for trouble prevention in rebuilding the continuous annealing production line(CAPL) and the continuous galvanizing line(CGL).
文摘With the increasing demand for new technologies in HPHT (high pressure high temperature) wells, more and more attention has been paid to the system of technical qualifications. Most established norms, standards and recommended practices are written in prescribed formats, setting out methods, procedures and acceptance criteria for product design, manufacture and testing. However, established norms, standards or recommended practices may not adequately cover new technologies or applications. The technical qualification system is established in this paper, which can identify the potential failure modes and some activities in order to control the uncertainties and increase confidence of using new technology. A risk-based technical qualification system is used to assess non-traditional operations. It includes following seven main steps: system breakdown, technology assessment and classification, technical novelty, failure model and risk analysis, risk-based qualification planning and participation level development. The core of technical qualification system is to understand the ways and causes of system failure, and to carry out corresponding activities to provide evidence that the system will not fail. Through the technical identification process, the detailed equipment/operation specifications and identification requirements have been formulated. Different levels of participation are assigned for each eligibility activity, depending on the hazard and risk. It is proved that the application of the technical qualification principle in the systematic evaluation and control of the risks of new technologies or new applications is successful. In HPHT wells in particular, operators can move from a reactive approach to a proactive approach.
基金Supported by Earmarked Fund for Construction of National Wool Sheep Industry Technology Research System(CARS-39-24)Program for Science and Technology Development of Shanxi Province(20120311024-1)+1 种基金Fund for Science and Technology Innovation Team in Shanxi Province(201705D131028-20)Shanxi Agricultural Industry Development Technology Leading Fund(2017CYYL-08)
文摘This study was conducted to investigate the in-vitro production technology of embryos from young Dorper sheep, so as to provide technical support for the utilization of ovarian follicles in young Dorper sheep. Tests were conducted from the induction of Dorper sheep of 4 to 8 weeks old using follicle stimulating hormone(FSH) and pregnant horse serum(PMSG), collection of oocytes, in-vitro oocyte maturation-fertilization-zygote cultivation and 2-4-cell-stage fertilized ovum transfer. The results showed that 585 oocytes were collected from eight Dorper sheep at the age of 4 and 8 weeks, with an average of 73.13 oocytes/sheep. 346 of the 2-4-cell-stage fertilized eggs were obtained, whose cleavage rate was 59.15%. 77 in-vitro fertilized eggs at 2-4-cell stage were transplanted into 17 recipient sheep, seven of which were pregnant and gave birth to 13 "test-tube sheep" with a conception rate of 41.18%. It is indicated that the hormone induction technique, in-vitro oocyte maturation-fertilization-zygote cultivation technique and 2-4-cell-stage fertilized ovum transfer technique used in this study can serve as effective techniques for the in-vitro production of embryos from Dorper sheep of 4-8 weeks old.
