ObjectivesTo develop a real-world-data-based monitoring system for diagnostic large medical equipment, and to use PET/CT as a carrier for validation. MethodsWe used literature survey, site investigation, and two-rounds of modified Delphi methods to develop the indicator system, and used the analytic hierarchy process method to determine the weight of each indicator. We collected real-world PET/CT data from four tertiary hospitals from July to December 2022, and monitored the use of PET/CT in each hospital. ResultsQuestionnaire recovery rates of 2 rounds were 100% and 88%, respectively, the expert authority coefficient was greater than 0.70, and the coordination coefficients of experts in the total index were 0.307 and 0.471 (P<0.001). A three-level indicator system was established to monitor the use of large medical equipment, with three first-level indicators (clinical use, implementation, and other efficiencies), eight second-level indicators, and 15 third-level indicators. Empirical experiment found different hospitals vary in efficiency (of clinical use), staff status, and economic and research efficiency, while remained similar in other indicators. ConclusionWe developed a monitoring system for diagnostic large medical equipment based on real-world data, and used PET/CT as a carrier for validation. These findings provided theoretical and empirical foundations for the management of diagnostic large medical equipment in China.
Traditional Chinese medicine equipment plays an indispensable role in the prevention, diagnosis, treatment and rehabilitation of traditional Chinese medicine from the needs of people's life and health, and provides technical support for the simple, convenient, cheap and effective clinical practice of traditional Chinese medicine. The traditional Chinese medicine equipment industry has the development advantages of large demand gap, strong policy support and emerging technology empowerment. At the same time, there are also bottlenecks such as lagging standardization construction, weak industrial foundation, insufficient characteristics of traditional Chinese medicine and immature evidence-based evaluation research. The coming of the era of digital intelligence has brought new opportunities for the development and reform of the traditional Chinese medicine equipment industry. This paper provides development ideas for the transformation of traditional Chinese medicine equipment from traditional to modern from the aspects of standardization construction, digital intelligence industry upgrading, improvement of evidence-based evaluation system and in-depth international exchanges and cooperation.
The goal of this paper is to solve the problems of large volume, slow dynamic response and poor intelligent controllability of traditional gait rehabilitation training equipment by using the characteristic that the shear yield strength of magnetorheological fluid changes with the applied magnetic field strength. Based on the extended Bingham model, the main structural parameters of the magnetorheological fluid damper and its output force were simulated and optimized by using scientific computing software, and the three-dimensional modeling of the damper was carried out after the size was determined. On this basis and according to the design and use requirements of the damper, the finite element analysis software was used for force analysis, strength check and topology optimization of the main force components. Finally, a micro magnetorheological fluid damper suitable for wearable rehabilitation training system was designed, which has reference value for the design of lightweight, portable and intelligent rehabilitation training equipment.
The refined management of medical equipment archives is the key to its effectiveness. This article shares the practical experience of refined management of medical equipment archives in a tertiary hospital in Chengdu. Medical equipment archives are divided into paper archives and electronic archives, and the process of archive management collection, organization, identification, statistics, storage, and utilization is introduced. The article also discusses the construction, application, and management of archive management systems, aiming to provide a reference for solving the problems faced by refined management of medical equipment archives, achieving comprehensive and effective management of medical equipment archives, and significantly improving the level of archive utilization.
ObjectiveTo present the application of mini-health technology assessment (Mini-HTA) method in configuration management of anti-magnetic anesthesia machine.MethodsFrom February to March 2019, the specialist operation assistant used Mini-HTA method to analyze and evaluate the anti-magnetic anesthesia machine applied by the department from basic situation and four dimensions, including technical dimension, patient dimension, hospital dimension, and economic dimension.ResultsA hospital health technology assessment report was prepared based on the evaluation of the specialist operation assistant, the suggestion of which was adopted by the hospital. As a result, an anti-magnetic anesthesia machine was arranged in the MRI room.ConclusionMini-HTA method can provide decision support for hospital equipment configuration and is conducive to the scientific and rational allocation of resources in hospitals.
Objective To provide theoretical basis for the reasonable selection of personal protective equipment by analyzing the willingness of protection and the contamination of severe acute respiratory syndrome coronavirus 2 of medical staff in the designated hospital for treatment of coronavirus disease 2019. Methods The medical staff of Shuguang Hospital Affiliated to Shanghai University of Traditional Chinese Medicine who entered the contaminated area from May 1 to 31, 2022 were collected as the study subjects. A simple random sampling method was adopted to investigate the willingness of protection of different medical staff leaving the cabin. Contamination of severe acute respiratory syndrome coronavirus2 was detected by fluorescence polymerase chain reaction. Results A total of 70 medical staff were included. There were 61 nurses and 38 in intensive care unit. The survey showed that 47 medical staff chose disposable isolation clothes, 44 medical staff chose protective face screen and 69 medical staff chose double-layer shoe cover/boot cover. A total of 640 specimens were collected. Six positive samples for severe acute respiratory syndrome coronavirus2 nucleic acid test were detected, with a positive rate of 0.94%. All the positive samples were sampled from the sole of a protective clothing. Six positive samples were willing to choose double-layer shoe cover/boot cover. Conclusions The medical staff in designated hospital for treatment of coronavirus disease 2019 tend to take high protection during daily medical activities. However, personal protective equipment is less likely to be contaminated by severe acute respiratory syndrome coronavirus2, and it should be selected rationally to avoid excessive protection.
ObjectiveTo explore the effect of precise management on life-saving equipment management in Surgical Intensive Care Unit (SICU). MethodsWe actualized precise management in the life-saving equipment management process in March 2014, including precise management control system, precise personnel training, and precise process management. ResultsAfter precise management, the knowledgement of life-saving equipment of the nurses increased from 90.2% (May, 2014) to 98.5%. The number of equipments repaired before (March-May, 2014) and after the management (June-August, 2014) was 65 and 47, respectively; the number of nonstandard management times in nurses after the equipments were used was 98 and 10, respectively. ConclusionPrecise management can drastically improve management efficiency, serviceability rate and service efficiency of life-saving equipment, obviously enhancing the degree of familiarity and using skills of clinical nurses, and ensuring quick and smooth emergency work. It plays an active role in securing severe patients' life.
Objective To understand the current situation of the use and cognition of personal protective equipment (PPE) by healthcare workers in the isolation wards (rooms) during the coronavirus disease 2019 epidemic, and provide data support for the country to further optimize the configuration of PPE and carry out more targeted training and supervision. Methods In March 2020, healthcare workers in isolation wards (rooms) in provinces and cities in the country were investigated by filling in a questionnaire about the use of different levels of PPE. Results A total of 6 859 questionnaires were collected from 29 provinces and cities, containing 5 935 valid questionnaires (86.53%). Among them, there were 448 assisting-Hubei medical team members and 5 487 non-assisting-Hubei healthcare workers. The actual use rate (74.22%) and intended use rate (73.14%) of surgical masks in the cleaning areas were the highest. The actual use rate and intended use rate of working caps in potentially contaminated areas and contaminated areas were higher than 90%. There were various combinations of protective articles, and there were significant differences between actual use and intention (P<0.05). Except for the boot covers (single layer) in the cleaning areas, the working caps, isolation clothing and boot covers (double layer) in the potential pollution areas, and the protective face screens, working caps, three-layer shoe covers and single/double/three-layer boot covers in the pollution areas-splashing operations (P>0.05), the actual utilization rates of protective articles of the assisting-Hubei medical team members were generally higher than those of the non-assisting-Hubei healthcare workers (P<0.05). Conclusions The instructions for the use of PPE in different areas and operations should be further refined, and standardized training should be increased. The phenomenon of non-standard use of protective equipment should be reduced, and a safety barrier should be provided to the healthcare workers.
Objective To survey the present situation of medical equipment configuration of township hospitals in Shuangliu County, to provide baseline data for the next step of discussing the well-off township hospital medical equipment configuration standards. Methods According to the national guidance on device configuration in township hospitals, the questionnaire was made to survey 24 county township medical units (i.e. 3 central township hospitals, 3 community health centers, and 18 general township hospitals). The descriptive and stratified analysis was performed for the survey results. Results The condition of medical equipment configuration in the 3 central hospitals was better than that in the 3 community health centers which was better than that in the 18 general hospitals. The emergency equipment configuration such as defibrillator units, breathing airbags, and tracheotomy package was poor. Annual inspection rate of medical metering equipment was lower than expectation. In 2010, a total of 127 medical measuring equipments from 98.5% of the township hospitals applied annual inspection, among which, only the total annual rate of black and white B ultrasonic and X-ray machine reached above 60%; the rate of blood cells analyzer, ECG monitoring instrument, and biochemical analyzer were between 50% to 60%; and the rate of urine analyzer was the lowest at 4.5%. Conclusion It is the right time to strengthen the first aid equipment configuration in township hospitals and to enhance the annual inspection rate of the medical measuring equipment, so that the safety use and accuracy detecting can be guaranteed.
The deep integration of modern technology and medical development promotes the change of medical and health management environment. As an important part of hospital medical and health decision-making process, the evaluation and access of medical equipment and consumables need scientific evidence-based evaluation system. This paper introduces a new-equipment evaluation model created by the multi-disciplinary evaluation team of West China Hospital of Sichuan University under the guidance of evidence-based ideas and methods. This model is suitable for the Chinese national conditions and easy to operate.