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Introducción: La anatomía hepática siempre ha sido un reto por su complejidad y variabilidad. En los últimos años, el abaratamiento de los costes ha permitido la generación de modelos 3D individualizados para cada paciente que pueden facilitar el abordaje quirúrgico de las lesiones. El objetivo principal fue determinar la utilidad del modelado 3D preoperatorio para la planificación quirúrgica en pacientes con lesiones hepáticas. Métodos: Se trata de un estudio de casos de 38 pacientes intervenidos por lesiones hepáticas múltiples ocupantes de espacio, en el cual, en un grupo seleccionado, en 19 pacientes se utilizó un modelo impreso 3D para planificar la cirugía (grupo 3D) y el otro grupo sin el modelo impreso 3D (grupo control). Resultados: Se observó una diferencia de medias significativa en el número de lesiones; mayor en el grupo 3D al realizar el test de Wilcoxon (p < 0,001) y un mayor número de casos con afectación vascular en este mismo grupo al realizar Chi cuadrado Pearson (p = 0,008). El resto de variables no mostraron diferencias estadísticamente significativas. A pesar de esto, la mortalidad se redujo a 0 cuando se usan modelos impresos en 3D. Conclusión: La impresión 3D permite planear, de manera más precisa, cirugías complejas del hígado, ayuda a la inclusión y exclusión de los pacientes para la cirugía, disminuyendo el tiempo de la sala de operaciones, la posterior hospitalización y las complicaciones quirúrgicas.
Introduction: Liver anatomy has always been a challenge due to its complexity and variability. In recent years, lower costs has allowed the generation of individualized 3D models for each patient, which can facilitate the surgical approach to liver lesions. The main objective was to determine usefulness of preoperative 3D modeling for surgical planning in patients with liver lesions. Methods: Quasi-experimental before-after study. 19 cases were included in which surgery was planned using a 3D printed model (13 bilobar hepatectomies, 3 of them with vascular involvement, and 6 unilobar hepatectomies, 1 of them with vascular involvement), and another 19 cases whose planning was carried out without a 3D printed model (7 bilobar segmental hepatic resections and 12 unilobar segmental resections. None of these cases had vascular involvement). Results: A significant difference in mean lesion count was observed, higher in the group of cases when performing the Wilcoxon test (p < 0.001), and a higher number of cases with vascular involvement in the same group when performing the Pearson chi-square test (p = 0.008). The rest of the variables did not show statistically significant differences. Despite this, mortality was reduced to 0 when 3D printed models were used. Conclusion: 3D printing allows for more precise planning of complex liver surgeries, helps with the inclusion and exclusion of patients for surgery, reduces operating room time, postoperative hospitalization, and surgical complications.
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El uso de equipamientos de protección personal durante los tratamientos odontológicos garantiza la salud de profesionales y pacientes. Este trabajo tiene como propósito analizar, en la literatura científica, el conocimiento de estudiantes y profesionales de odontología sobre el uso de equipos de protección personal, antes y después de la pandemia COVID-19. Para ello se realizó una revisión integrativa en las bases de datos: Scielo, Pubmed, BVS y Web of Science, incluyendo artículos publicados entre agosto del 2010 y agosto del 2022. Fueron seleccionados 14 artículos, disponibles íntegramente en las bases de datos seleccionadas. Se excluyeron tesis, artículos de revisión, duplicados y aquellos donde la metodología no respondía al objetivo propuesto. En los 14 artículos seleccionados, el método para obtención de datos fue el cuestionario. Los estudios fueron realizados en Brasil, Yemen, Cuba, México, Líbano, Turquía, India, Londres, y Colombia. Seis estudios se realizaron antes de la pandemia y 8 de ellos después de su inicio. Todas las investigaciones evaluaban conocimientos, actitudes, prácticas y factores relacionados con el uso de equipos de protección personal. Se concluye que el uso de equipos de protección personal antes de la pandemia ya era una práctica esencial para garantizar la seguridad de profesionales, estudiantes y pacientes durante los procedimientos odontológicos; con la pandemia de COVID-19 nuevos protocolos fueron establecidos y con ellos nuevos equipamientos como el uso del protector facial y la mascarilla N95.
The use of personal protective equipment during dental treatments guarantees the professionals and patients' health. This researcher's purpose is to analyze in scientific literature the dental students and professionals' knowledge regarding the use of personal protective equipment, before and after the COVID-19 pandemic. An integrative review was carried out in the databases: Scielo, Pubmed, BVS and Web of Science, including articles published between August 2010 and August 2022. 14 articles were selected, available in full in the selected databases. Theses, review articles, duplicates and those where the methodology did not respond to the proposed objective were excluded. In the 14 selected articles, the method for obtaining data was the questionnaire. The studies were carried out in Brazil, Yemen, Cuba, Mexico, Lebanon, Turkey, India, London, and Colombia. Six studies were carried out before the pandemic and 8 of them after its start. All researches evaluated knowledge, attitudes, practices and factors related to the use of personal protective equipment. It is concluded that the use of personal protective equipment before the pandemic was already an essential practice to guarantee the safety of professionals, students and patients during dental procedures; with the COVID-19 pandemic, new protocols were established and with them new equipment such as the use of the face shield and the N95 mask.
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Traditional Chinese medicine (TCM) is extensively utilized for clinical disease prevention and treatment. However, due to the intricate nature of its material basis and the multiple factors involved in the preparation process, ensuring comprehensive quality control of TCM proves to be challenging. By instilling a clear understanding of its effective and harmful substances and implementing control over the content and limit of TCM during the preparation process, the controllability and repeatability of its quality can be guaranteed. Currently, China is facing a dearth of innovative technology for drug development, necessitating an increase in research and development efficiency, especially in the realm of high-throughput precision analytical equipment. The country has long relied on imported pharmaceutical analysis equipment with a particular efficiency in high-end intelligent analysis equipment. This is especially concerning considering the urgent requirement to establish a "pharmaceutical intelligent analysis system." This project, supported by the Major Instrument Development Project of the National Science and Technology Funds, employs cell membrane chromatography technology, complemented by biotechnology and artificial intelligence technology, to devise a two-dimensional cell membrane chromatography (2D/CMC) analyzer. The project has successfully conducted a demonstration application of the "2D/CMC-Traditional Chinese Medicine Pharmacodynamic Substance Analyzer" and the "2D/CMC-Traditional Chinese Medicine Injection Allergen Analyzer" . These tools have enhanced the screening and discovery efficiency of TCM’s effective substances and allergen components. Moreover, the equipment amalgamates qualitative and quantitative analysis, thereby serving as an effective analytical tool to enhance the quality and efficacy of traditional Chinese medicine.
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With the rapid development of information technology, what has been widely used in the field of medical and health care includes the home detection of aging population in communities, intelligent health management, special patient positioning care management, information sharing, and interconnection management, which has also brought new opportunities for the innovative management of medical equipment in recent years. We have taken "sense, knowledge and action" as the core, and effectively improved the level of lean management of medical equipment through data acquisition, data modeling and analysis, and remote service or decision response. This paper aims to summarize the application and research progress of intelligent information technology in the lean management of medical equipment in order to provide new ideas for the refined management of medical equipment.
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Objective@#To investigate the screen exposure status and influencing factors among 6-12 year-old children in Hainan Province, so as to provide insights into screen exposure intervention for children.@*Methods@#Children aged 6-12 years from 18 counties (cities) in Hainan Province were selected using multi-stage stratified cluster sampling method from December 2020 to July 2021. Demographic information, parents' educational level, family type and screen time was collected using questionnaire surveys. The screen exposure rate of children was analyzed, and factors affecting screen exposure were identified using a multivariable logistic regression model.@*Results@#A total of 27 501 children were surveyed, including 13 901 boys (50.55%) and 13 600 girls (49.45%). The mean age was (9.22±1.86) years. Among them, 3 925 children had screen exposure, with a screen exposure rate of 14.27%. Multivariable logistic regression analysis showed that gender (female, OR=0.859, 95%CI: 0.796-0.926), age (OR=1.078, 95%CI: 1.049-1.108), ethnicity (ethnic minorities, OR=1.147, 95%CI: 1.041-1.254), place of residence (rural area, OR=0.869, 95%CI: 0.801-0.944), father's educational level (high school or technical secondary school, OR=0.879, 95%CI: 0.788-0.981; college degree or above, OR=0.686, 95%CI: 0.589-0.818), mother's educational level (college degree or above, OR=0.706, 95%CI: 0.588-0.846), family type (others, OR=1.250, 95%CI: 1.105-1.414), and annual family income (>100 000 Yuan, OR=0.741, 95%CI: 0.619-0.885) were the influencing factors for screen exposure among children aged 6-12 years.@*Conclusion@#The screen exposure among children aged 6-12 years in Hainan Province was affected by gender, age, ethnicity, place of residence, parental education level, family type and annual family income.
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Objective To design a multi-functional infusion stand for field use to replace the traditional infusion support in field conditions.Methods The infusion stand was composed of a base,a support rod,liquid hooks and fixing straps.The stand base consisted of four retractable legs with four fixing nails at the bottom of the leg ends.The support rod was divided into four sections,and was mounted on top of the base,the four liquid hooks were installed on the hook disks of the 3rd sections of support rods.The four fixing straps were made of Velcro material and positioned on the stand legs,support rods and liquid hooks.Results The multi-functional infusion stand proved to have the advantages in deployment and withdrawal time,adaptability to transport tools and environments,low size and high mobility.Conclusion The infusion stand developed gains advantages in high practicality,mobility and convenience,and can meet complicated requirements for infusion in field conditions.[Chinese Medical Equipment Journal,2024,45(1):115-117]
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Objective:To analyze the current allocation situation and equity of Class B large medical equipment in China,and provide references for reasonably optimizing the allocation of medical equipment.Methods:Based on the allocation data of Class B large medical equipment in China at the end of the 13th Five Year Plan period,the agglomeration degree method was used to evaluate the equity of equipment allocation in various regions from the dimensions of geography,population,and economic development.Results:The current allocation of Class B large medical equipment per million population was 3.19,and the eastern region(3.64)was higher than the central region(3.42),the central region(2.24)was higher than the western region.The agglomeration degree of medical equipment based on geographical area showed that most of the equipment in the eastern region was in a rich state,and the allocation equity was relatively good in the central region,but generally poor in the western region.The agglomeration degree of medical equipment based on population distribution was higher in the eastern region than in the central region and even higher in the western region.The equipment in the eastern region could basically meet the demand of the local population,while the allocation in the central and western regions was slightly insufficient.The distribution of medical equipment agglomeration degree based on economic development varied significantly among different regions,and the allocation equity of central region was generally better than that of eastern and western regions.Conclusion:The total allocation of Class B large medical equipment in China is not high,and the government needs to continue planning and improving it.The distribution of medical equipment allocation based on geography,population and economic development is unbalanced among the eastern,central and western regions.Improving the equity of medical equipment allocation also needs to consider regional differences and characteristics according to local conditions.
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Objective To design a mobile personnel radiation protection equipment for operation in environments with high radiation such as spent fuel reprocessing plants, to achieve simultaneous protection against γ radiation, neutron radiation, and radioactive aerosol, to reduce the internal and external exposure dose of radioactive workers, and to meet the requirement of operation for two hours. Methods The core parts of the mobile personnel radiation protection equipment included a shielding chamber and a respiratory maintenance system. An automated chassis was used for the movement and lifting of the shielding chamber. MCNP software was used to simulate and calculate the protective effects of shielding chamber made of different materials and material thicknesses. Experimental verification of the shielding chamber design was conducted. Mathematical models were established to describe the variations in the content of various gases in the chamber with personnel operation time. A respiratory maintenance system, a harmful gas absorption device, and an automated mobile chassis were designed. Results The shielding chamber made of polyethylene with a thickness of 80 mm achieved an 80% neutron shielding rate. The respiratory maintenance system could support workers for 2 hours of operation inside the equipment. The mobile chassis allowed operation of the equipment with one person. Conclusion This mobile personnel radiation protection equipment can solve the problem in simultaneous protection against γ radiation, neutron radiation, and radioactive aerosol. The equipment can provide radiation protection for radioactive workers, reduce exposure dose, and reduce personnel burden. This system provides technical means for the operation and maintenance of equipment in high-radiation sites such as spent fuel reprocessing plants.
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Microspheres are commonly used as embolic materials in vascular interventional operations.However,due to the limitation of materials,almost all microspheres cannot be detected by imaging equipment in vivo.The visualization of microspheres refers to the addition of various materials to the microspheres that enable the microspheres to be displayed on the images of imaging equipment.In order to optimize the embolization process and facilitate postoperative follow-up,a lot of visualized microspheres have been reported so far,such as X-ray visualized microspheres,MRI visualized microspheres,ultrasonic visualized microspheres,etc.Clinical experience has shown that these microspheres can provide true spatial distribution and real-time intraoperative feedback,which contributes to the optimization,personalization,and improvement of vascular embolization technology.This paper aims to make a comprehensive review about the recent advances in researches about the above mentioned visualized microspheres.
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The procurement demonstration process for large-scale medical equipment is a time-intensive and laborious system project,necessitating more effective methods to enhance efficiency.This study introduces a fuzzy decision-making expert system to optimize the procurement process of medical equipment for large hospitals,thereby elevating procurement efficiency and lowering costs.Firstly,an expert database is established using a natural language fuzzy preference scoring method tailored to the characteristics of the hospital's experts.Secondly,weights are assigned to expert decisions,and both subjective and objective in-dices describing equipment characteristics are developed.Lastly,a discriminant function is constructed for decision-making.An application analysis of a particular procurement process yielded a series of rational outcomes based on the overall design,data configuration,and discriminant function.The decisions proposed by the scheme and validated through on-site demonstration and comprehensive assessment,are deemed appropriate.This method has proven to some degree its potential to enhance the efficiency of medical equipment procurement and reduce costs,warranting further research.
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The development and application of processing technology is closely related to the quality of Chinese medicine. Currently, Chinese medicine processing is still in the mechanization stage with limited processing equipment, low levels of automation and intelligence. As a result, the imprecise control of parameters during processing leads to unstable quality of Chinese herbal pieces. However, with the arrival of the big data era and the continuous development of "Internet+", Chinese medicine processing technology and equipment have been continuously improved and updated, and gradually shifted to the development direction of automation and intelligence. The linkage production technology of Chinese herbal pieces optimizes the separate processing equipment coupling into the production line for continuous manufacture of Chinese herbal pieces, intending to improve production efficiency. The large-scale industrialized production of Chinese herbal pieces tends towards digital technology of processing experience and online inspection technology based on machine vision, electronic nose, and electronic tongue. These technologies are crucial prerequisites for standardizing the parameters of Chinese medicine processing. And further by docking the processing process and equipment with the internet, realizing the intelligent control of the production process is an important process for the transformation and upgrading of Chinese herbal piece industry in the future. In this paper, we summarized the development characteristics of different stages of Chinese medicine processing technology, combed application and development of processing theory, the evolution of processing equipment, and problems in the current industrial development stage of Chinese medicine processing, in order to provide ideas and methods for achieving digital and intelligent innovation of processing technology as well as high-efficient and high-quality production of Chinese herbal pieces.
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@#Introduction: Tobacco production is increasing in certain regions of Indonesia due to its high economic value. Tobacco and its products can have harmful effects on the health of consumers, producers and processing workers. Analysis of blood samples has shown that tobacco farmers are at risk of developing occupational diseases related to pesticide exposure and nicotine absorption through the epidermis of wet tobacco leaves. The aim of this study was to compare blood cholinesterase levels in tobacco plantation workers in relation to their working hours and use of personal protective equipment (PPE). Methods: This cross-sectional observational study was conducted in ten subdistricts in Jember district, Indonesia, and included 50 participants selected using proportional sampling. Spearman’s test was used to analyse the relationship between variables. Results: The significance value of the relationship based on Spearman’s test between working hours and blood cholinesterase levels of tobacco farmers in Jember was 0.058 > α (0.05). Meanwhile, the significance value of the relationship between working hours and complete blood count, specifically mean corpuscular haemoglobin concentration (MCHC), was 0.00 < α (0.05), and between PPE use and blood cholinesterase levels was 0.035 < α (0.05). Conclusion: Working hours were not associated with blood cholinesterase levels, but were associated with blood MCHC levels. Meanwhile, the use of PPE was found to be associated with cholinesterase levels in tobacco farmers.
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@#After years of development, the advantages of computer-assisted orthognathic surgery have been widely recognized. However, the clinical application of this technology is challenging. Each step may generate errors from data acquisition, computer-assisted diagnosis, and computer-assisted surgical design, causing errors to be transferred from the virtual surgical plan to the operation. The accumulation and amplification of errors will affect the final surgical effect. Currently, digital devices, such as intraoral scanners, are being explored for error control, utilizing automation methods and algorithms, and implementing personalized bone positioning methods. Moreover, there are still many problems that have not been fully resolved, such as precise simulation of postoperative soft tissue, functional assessment of mandibular movement, and absorbable internal fixation materials. Fully understanding computer-assisted orthognathic surgery's limitations could provide direction for optimizing existing methods while helping clinicians avoid risks and maximize its advantages to achieve the best outcome. Many emerging and cutting-edge technologies, such as personalized titanium plates, artificial intelligence, and surgical robots, will further promote the development of this discipline. We can expect future optimization of digital orthognathic surgical technology by innovations in automation, intelligence, and personalization.
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A non-bracket terminal tracer equipment with multi-angle active light source array is developed to reduce the effects of view obstruction on robot navigation.The multiple-angle light source array is established using a large prism and a small prism,and then the positions of the mechanical arm and the tool center point are calculated via the cooperation of binocular cameras.A simple model built with COMSOL software is used to verify the signal coverage of the tracer equipment.The experiments conducted for signal coverage and static positioning demonstrate its effectiveness and stability,suggesting that the tracer equipment can meet the task requirements of the surgical robot.
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The protection effect of flash-radiotherapy(Flash-RT)with super-high dose on normal tissue has obtained wide attention in therapeutic radiology since it was found in 2014 year.The increasing research demand of Flash-RT with super-high dose-rate proposed new challenge for the existing radiotherapy equipment.Based on the demands of FLASH-RT research and clinical application,this review analyzed the proposed new requirement of Flash-RT for equipment,and introduce current scientific facilities with the experimental ability of X-ray FLASH-RT,as well as the situation of the specialized FLASH-RT equipment which were developing.The research of Flash-RT mechanism need the existing equipment with high-energy X-ray source develop toward high power,while the clinical application of Flash-RT demand these transient high-power devices should possess a series of radiotherapy techniques such as multi angle irradiation,conformal radiotherapy and others.Currently,China's X-ray FLASH-RT research is at the forefront of the world,which is expected to achieve the first breakthrough of high-end medical equipment in the X-ray Flash RT field.
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Objective:To construct a multi-dimensional surgical equipment management and control platform based on artificial intelligence and Internet of Things(AIoT)to assist with the refinement and intelligent management medical equipment in hospital operating rooms.Methods:A multi-dimensional surgical equipment control platform based on AIoT was established by integrating the Internet of Things(IoT),big data analysis,indoor positioning technology,artificial intelligence(AI)technology and other technologies to collect real-time process data of surgical equipment such as endoscopy and electrosurgical,and to open up the relationships among information systems relating to surgical equipment,such as hospital information system(HIS),laboratory information system(LIS),radiology information system(RIS)and operation anesthesia management system(OAMS),so as to provide technical support for efficiency analysis,benefit analysis and assets management of surgical equipment.The platform was composed of 3 layers:data extraction layer,data engine layer and AI data analysis layer,including 4 functional modules:automatic data acquisition,deep data fusion,data mining and analysis and data visualization.Results:This platform was launched in Shanghai Municipal Hospital of Traditional Chinese Medicine in June 2022,and had realized achieving intelligent daily management such as indoor positioning of operating room equipment,one click inventory.A set of performance analysis method based on IoT and integrated with information systems was established to automatically count the utilization efficiency and cost-effectiveness of key surgical equipment to realize intelligent service,intelligent management,and digital operation.Conclusion:The construction and application of this platform improved the efficiency of medical equipment in operating rooms,reduced the cost and increased the efficiency,assisted in the refinement and intelligent management of hospital surgical equipment,and provided data support for scientific decision-making of hospital managers.
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Objective:To investigate the current situation of medical equipment allocation in 103 tertiary public hospitals,analyze and compare the proportion of medical equipment in different regional hospitals in our country,and provide basis for scientific and reasonable allocation of medical equipment.Methods:A questionnaire was designed by literature research and expert consultation,and an electronic questionnaire was released through the public account of"China Medical Equipment"and the platform of"Good Medical Workers"to analyze the correlation between the number of medical equipment configuration,the proportion of domestic products,the region where the hospital was located and the number of hospital beds.Results:A total of 103 valid questionnaires were collected,involving 103 tertiary public hospitals in East China,North China,Central China,South China,Southwest,Northwest and Northeast China,of which 18%were in North China,37%were in East China and 9%were in South China.In North China,South China and East China,the average number of medical equipment in the tertiary public hospitals in the region was 9785 units per hospital,9245 units per hospital and 8153 units per hospital,and the number of the expensive equipment was relatively small,which had no correlation with the number of beds.There were statistically significant differences between North China and East China in the number of beds,the number of pieces of equipment per 100 beds and the amount of equipment per 100 beds(t=-2.582,2.939,4.653,P<0.05).The number of life support equipment configuration was significantly positively correlated with the number of beds,and the domestic share,especially the domestic share of life support equipment,increased.Conclusion:The analysis of medical equipment allocation in public hospitals in China can provide data support for hospitals to better adapt to the adjustment of the new expensive medical equipment catalogue,provide reference for the demonstration and promotion of large medical equipment allocation and localization in tertiary hospitals,and provide reference for relevant health management departments.
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Objective:It aims at constructing the equipment visualization management system in orthopedics on the basis of Godot engine,as well as exploring and discussing its values related to equipment visualization management system in orthopedics of hospitals.Methods:The equipment visualization management system in orthopedics on the basis of Godot engine was designed which further contained data collection,model drawing and function development,then,it further realized the equipment visualization management in orthopedics by relying on the movable terminal.180 medical equipment commonly used in orthopaedic clinic of Beijing Puren Hospital were selected in 2021-2022.Moreover,they were managed by two modes of management which were respectively the traditional equipment management mode(traditional equipment mode)and equipment visualization management system in orthopedics on the basis of Godot engine(visual system).Finally,the effectiveness of the two management modes of the medical equipment,the level of management and the satisfaction scores of doctors,nurses and patients on the two management modes were assessed accordingly.Results:The time utilization rate,quality stability rate and diagnosis and treatment effectiveness rate of the visual system equipment were respectively(95.37±4.06),(96.74±4.72)and(96.41±5.01)%,which were higher than that of the traditional equipment model and the differences were all statistically significant(t=9.608,9.438,4.909,P<0.05).the standardized placement rate,standardized recording rate and intact rate of the visual system equipment were respectively 97.22%(175/180),97.78%(176/180)and 99.44%(179/180),which were higher than that of the traditional equipment model and the differences were all statistically significant(x2=6.972,11.429,9.656,5.236,P<0.05).the failure rate of the visual system was 5.00%(9/180),which was lower than the traditional equipment mode(x2=5.236,P<0.05).the satisfaction scores of doctors,nurses and patients for the visual system equipment were respectively(95.63±3.47),(96.85±3.21)and(95.79±3.92),which were higher than that of the traditional equipment mode and the difference was statistically significant(t=14.068,17.996,14.438,P<0.05).Conclusion:The application of equipment visualization management system in orthopedics on the basis of Godot engine can visualize and manage medical equipment in orthopedics of hospitals,enhance the equipment effectiveness,intensify the equipment management level,as well as improve the users'satisfaction degree with the equipment.
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Objective:To establish a total normalized productive maintenance(TnPM)model for medical equipment,and to explore its application value in the management of multi-source treatment equipment.Methods:In accordance with the principles of self-management,economic efficiency and dynamic improvement,the TnPM management mode of the medical equipment lifecycle management system was developed.22 multi-source treatment equipment in clinical use in the of department of burn and plastic surgery of The Second Affiliated Hospital of Air Force Medical University were selected and divided into a control group(16 units)and an observation group(18 units,including 12 of control group and 6 newly added units)according to different management modes.The control group implemented the traditional management mode,and the observation group adopted TnPM management mode.The operation quality,comprehensive efficiency and team management capabilities of the two groups were compared.Results:The equipment failure rate of the observation group was(4.82±0.21)%,which was lower than that of traditional group,the self-repair rate,maintenance rate and operating standard rate were(91.63±3.59)%,(96.60±2.47)%and(97.31±1.54)%,respectively,which were higher than those of the control group,the difference was statistically significant(t=2.434,5.246,4.525,5.311,P<0.05).The equipment availability rate,performance index and quality index of the observation group were(90.82±2.78)%,(97.03±2.24)%and(97.85±1.26)%,respectively,which were higher than those of control group,the difference was statistically significant(t=6.231,4.671,5.997,P<0.05).The assessment scores of the personnel involved in the equipment on job responsibilities,basic equipment theory,usage assurance level and management performance of observation group were(93.95±2.81)points,(91.45±2.47)points,(90.75±2.54)points and(93.08±3.34)%,respectively,which higher than those of the control group,the difference was statistically significant(t=2.831,3.979,6.472,4.001,P<0.05).Conclusion:The TnPM management mode can improve the operation quality of equipment in the treatment of clinical patients,reduce the incidence of failure,enhance the comprehensive efficiency of equipment and clinical service level,and promote the construction of a management team.
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Objective:To establish safety objectives and strategies for power distribution of medical equipment to minimize the hazard of electrical switching to medical equipment.Methods:Based on the Hazard Analysis and Risk Assessment(HARA)method,the equipment hazard factors analysis and risk assessment were conducted for electrical switching from the perspective of medical equipment safety management.The Deming Cycle(PDCA)closed-loop management process was adopted to formulate refined the medical equipment power distribution safety objectives and response strategies.Results:In 2023,a total of 6 equipment failures occurred during the two periodic electrical shutdown operations carried out in the hospital's power distribution room,which was significantly lower than the average of 20.4 failures caused by electrician shutdowns from 2018 to 2022,and zero failure in Level I load department and other high-risk areas.Conclusion:The objective and strategy of power distribution safety of medical equipment are highly targeted and implemented,which is an effective way to implement the life cycle fine management of medical equipment.