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Based on the analysis of current situation of the metrological education of large medical imaging equipment in colleges and universities at home, the advantages of major of Biomedical Engineering (BME) and the internal relation with the requirement of personnel training of metrology were systematically investigated. The necessity of carrying out education of large medical imaging equipment metrology for BME students in colleges and universities was elucidated. The specific thoughts and countermeasures were also proposed from curriculum establishment, teaching design, textbook compilation, conditional construction and teaching staff, respectively. The study is hopeful to provide guidance and help for the education of the large medical imaging equipment metrology in colleges and universities.
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@#Objective To develop a method for monoclonal screening of CHO engineered cell lines using Verified In-situ Plate Seeding(VIPS). Methods Cell pool 1 stably transfected with target gene was inoculated by using monoclonal inoculation/imaging equipment(VIPS)in 96-well plates containing culture medium of different combinations(18 combinations,numbered 1~18)and volumes(100 and 200 μL/well). Monoclonal origin tracing pictures were taken,according to which,the monoclonal inoculation rate,clone formation rate and monoclonal proliferation rate were calculated and the image effects of monoclonal origin were evaluated. The applicability of this method was verified by cell pool 2,cell pool 3 and cell pool 4 stably transfected with target gene. Results The optimum monoclonal medium was Medium Ⅱ,and the volume of medium was 100 μL/well. Under the optimum process conditions,the monoclonal inoculation rate of Cell pool 1 was 80%,the clone formation rate was 83%,the proliferation rate was fast,and the monoclonal origin image was clear. While for Cell pool2,Cell pool 3 and Cell pool 4,the average rate of monoclonal inoculation was 78%,the average rate of clone formation was67%,the proliferation rate was slightly different and the image of cell division process was clear under the optimum process conditions. Conclusion In this study,the monoclonal screening method of CHO engineered cell lines developed using VIPS can improve the clone formation rate of CHO engineered cell lines and provide sufficient proof of monoclonal origin.
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Objective:To solve the difficult problem of experimental teaching of MRI equipment by independently designing a virtual simulation teaching system for performance testing of medical magnetic resonance imaging (MRI) equipment.Methods:A total of 202 students of Batch 2016 majoring in 4-year medical imaging technology and 5-year medical imaging of Binzhou Medical University. According to the teaching requirements of MRI equipment in Medical Imaging Equipment Science, a 3D experimental simulation model and experimental scenes were established based on Unity3D engine by using Unity3D, 3D Studio Max, Maya and Visual Studio technology to design experimental learning content and assessment content, develop the teaching system software and perform Web-based online learning. Then, the satisfaction survey on experimental learning was conducted, the statistics of the experimental results of the teaching system on the national virtual simulation experiment teaching platform was collected and the learning effects were evaluated in multiple dimensions. Results:The virtual simulation teaching system was a comprehensive experiment with 12 knowledge points, 12 experimental items and a total of 81 interactive contents and steps. The overall satisfaction rate of 202 students in our school was 96.82%(2 347/2 424). Among the 499 subjects who participated in the learning of the teaching system on the national virtual simulation experiment teaching platform and submitted the experimental report, the average score of the experiment was 78.07 points (the full score of online learning assessment was 90 points), and the overall passing rate was 96.79%(483/499). The average learning time of the 18 students who got 90 points was 54 min.Conclusion:This virtual simulation teaching system possesses comprehensive experimental contents with high fidelity of experimental scenes and strong interactivity of experimental operation, prospecting great learning effects and promotion value.
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Objective:To explore the application effect of the "combination of virtuality and actuality" practical teaching on Medical Imaging Equipment. Methods:The 2018 medical imaging technology students of Qiqihar Medical University were taken as the observation group, and the study adopted teaching method of "combination of virtuality and reality" in the practical teaching of Medical Imaging Equipment, including in-kind visit teaching (8 learning hours), experimental box circuit measurement teaching (20 learning hours) and virtual simulation teaching (16 learning hours). Besides, the 2017 medical imaging major students (control group) did not conduct virtual simulation teaching. The teaching effect and student achievement were compared between the two groups, and SPSS 17.0 was used to conduct t test and chi-square test. Results:There was significantly improvement in the practical performance of the students in the observation group compared with the control group ( t=6.44, P=0.007); the teaching satisfaction of the two groups was significantly improved ( χ2=5.25, P=0.022), and the teaching satisfaction degree was 100%. Conclusion:The teaching method of "combination of virtuality and reality" can effectively improve students' hands-on ability, strengthens their cognition of abstract principles, and solves the problems of equipment failure analysis, disassembly and installation of large-scale equipment that cannot be completed in physical teaching.
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OBJECTIVE@#To optimize the maintenance quality management of MRI equipment and ensure the quality and safety of its clinical use.@*METHODS@#The data of failure time and repair time of a MRI equipment in three years were collected by magnetic resonance repair report system, and then the reliability, availability and maintainability(RAM) were studied and analyzed.@*RESULTS@#The results of reliability analysis showed that the communication module was the key subsystem of the MRI equipment. The results of usability analysis showed that RF module was a key subsystem of MRI equipment. Maintainability results showed that the proportion of the MRI equipment not fully utilized due to maintenance-related problems was 2.58%. In order to improve the availability of MRI equipment, the maintenance time of MRI equipment should be shortened.@*CONCLUSIONS@#RAM-based analysis of MRI equipment can help hospital equipment managers to carry out the work of operation optimization, maintenance strategy formulation and safety management of MRI equipment.
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Equipment Safety , Equipment and Supplies, Hospital , Magnetic Resonance Imaging , Reproducibility of Results , Safety ManagementABSTRACT
In order to evaluate the quality of different brands of magnetic resonance imaging system, optimize the quality of equipment repair and maintenance, and ensure the quality and safety of the equipment in clinical use. Meanwhile build the reliability evaluation model of magnetic resonance imaging equipment based on the large failure data collected by magnetic resonance repair system. In this paper, using the fault data of a certain brand of magnetic resonance in the past two years, applying the statistical judgment criterion, selecting the appropriate statistical distribution model, and finally fitting the equipment reliability evaluation model based on the non-homogeneous Poisson process, and then obtaining the magnetic resonance imaging equipment. Reliability evaluation indicators such as cumulative fault strength function, magnetic resonance imaging equipment fault density function, and mean time between failures. According to the calculated reliability index, on the one hand, it can evaluate the system reliability quality of a certain brand of magnetic resonance imaging equipment, and then evaluate the quality of different brands of magnetic resonance imaging equipment, on the other hand, it can help hospital equipment managers to carry out operational optimization, maintenance strategy development and safety management of magnetic resonance imaging equipment.
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Equipment and Supplies, Hospital/standards , Magnetic Resonance Imaging/instrumentation , Reproducibility of ResultsABSTRACT
Object To enhance the initiative of the student from medical imaging specialty when studying medical imaging equipment to solve the problems in logic, abstractness, teaching contents, class hour and etc.Methods Distribution of theoretical and experimental lessons was considered comprehensively, and proper method was introduced into teaching difficult and key points.Results The initiative of the student was enhanced, and the teaching effectiveness was increased greatly.Conclusion References are provided to other courses in medical imaging specialty.
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This study based on the technology evolution theory, S-curve and bibliometrics, verified product evolution was accompanied by the evolution and transition of a number of sub technologies. It judged MRI was in the stage of underdevelopment and a new round of technology was being developed. It was found that the value of MRI equipment in scientific research or clinical application in foreign countries was higher than that in China by comparing the literatures at home and abroad. And there was a gap between China and the world scientific center in the independent R&D capability. The study verified the applicability of the technical evolution theory and the evaluation empirical laws in the medical devices evaluation, and explored the operability of the assessment tools. This paper not only provided a reference for equipment configuration, but also showed the gaps of key technologies in home and abroad and provided a reference for upgrading China's independent innovation and industrial technology.
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China , Industry , Magnetic Resonance Imaging , TechnologyABSTRACT
Objective:To establish the practice training platform of medical imaging technology conforming to the demand of society and the characteristics of vocational education, and improve the training conditions and promote the quality of higher vocational talent cultivation.Methods: To carry out investigation and expert interviews in various grade hospital; analyze vocation standard and skill training grade; plan and design the layout and function position of hardware for this training platform; and then take practice research for application of this platform.Results: The training platform of medical imaging technology has been established which includes 14 digital training rooms. Every teaching function, such as radiology registration, detection, image processing, diagnostic reporting, report printing and storage capability, could achieve and correspond to a clinical task.Conclusion:This study effectively improves medical imaging technology vocational practice conditions, and has a great significance to improve teaching quality of education and ensure quality of talents cultivation.
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Objective To execute safety management of clinical medical imaging equipment to enhance medical service quality.Methods The classification and main products of medical imaging equipment were introduced.The common failures were analyzed,and the main causes involved in equipment,personnel and environment.The safety management of medical imaging equipment was implemented from the aspects of assets management,quality control management and measurement management.Results The safety management decreased the failure rate,prolonged the service life,reduced the cost,provided data for clinical service and shortened the treatment time.Conclusion The medical equipment management department performs safety management from the aspects of assets management,quality control management and measurement management,so that the efficiency of medical imaging equipment can be ensured.
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Objective:To analyze the teaching status of medical imaging equipment and the requirement of medical imaging equipment for graduates majored in medical imaging technique, and then make great progress in the teaching reform of medical imaging equipment.Methods:Discussed with students, conduct investigations and surveys on kinds of hospital in Beijing, and analyzed the survey data.Results: With the analysis of survey, the teaching reform scheme was proposed in the course.Conclusion: To establish the foundation for the teaching reform of medical imaging equipment.
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Digital Imaging and Communications in Medicine (DICOM) is the international standard for medical images and related information (ISO 12052). It defines the formats for medical imaging that can be exchanged with the data and quality necessary for clinical use. DICOM is implemented in almost every radiology, cardiology imaging, and radiotherapy device (X-ray, CT, MRI, ultrasound, etc.), PET devices data transferring, and increasingly in devices in other medical domains such as ophthalmology and dentistry. During the procurement plan process of imaging equipment, not only the hardware technology needs to be planed, but also the invisible software part needs to be detail planed, the DICOM technology is always easily ignored or not decrypted inaccurately. This article is to elaborate the basic application of the DICOM standard and introduce the most common DICOM interfaces and their functions in equipment procurement. These interfaces include imaging equipment procurement such as CT, MR, US, PET.
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With the progress of the medical imaging technology,imaging medicine plays an essential role in medical treatment practice,primarily including the imaging equipment and personnel cultivation。This paper presents some opinions on how to combine imaging technology with personnel and bring modern imaging medicine into full play. Imaging medicine progress is also changing our thought on the diagnosis and treatment,and we should accept new technology and adopt new idea,so as to bring many patients new hope.
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Objective To let students grasp comprehensive applied knowledge and the new development.Methods A special website was set up based on the traditional teaching.Results The special website could provide students with a quick,convenient and modern technology resource library.Conclusion The website can effectively help students consolidate and deepen the study of basic theory and technology of medical imaging equipment,and broaden their knowledge.
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Molecular imaging is a newly rising branches of science which comes from molecular biology technology and modern medical imaging,and it would be the development tendency of mendiacl imaging. This article briefly introduces the basal principle of molecular imaging,the difference and correlation between molecular imaging and traditional medical imaging and the development prospect of medical imaging.
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This article summarizes the experience for the application of digital medical imaging devices. Such aspects have to be emphasized on as the cultivation of compound personnel for application & maintenance of digital medical imaging devices, optimization of filing, transmission and management of digital images as well as the preventive maintenance of digital imaging devices.
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The medical imaging equipment science is one of the rapidly development science in the medical domain. Based on the characteristics of Medical Imaging Equipment Science, this paper discusses the reflections from the aspects of teachers, teaching contents, teaching schemes and practice teaching.
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The current situation of large-scale medical imaging equipment in Zhenjiang region is briefly summarized.Investigation and study are made on DSA,CT and MR of 19 hospitals in Zhenjiang.Data are treated statistically.Suggestions on management and disposition of large scale medical imaging equipment are put forward at last.