The response and performance of radiation detectors for accurate measurements and effective use for radiological safety in medical, industrial, and nuclear sectors are based on the optimal use, maintenance, repair and...The response and performance of radiation detectors for accurate measurements and effective use for radiological safety in medical, industrial, and nuclear sectors are based on the optimal use, maintenance, repair and calibration of radiation monitoring instruments in a secondary standard dosimetry laboratory. In Nigeria, the suboptimal performances of these instruments are attributed to inadequate maintenance practices, insufficient calibration, and limited awareness of proper equipment handling for optimal use. This study assesses the current practices related to the optimal use, maintenance, repair, and calibration of radiation detection equipment across Nigeria’s six geopolitical zones. Using a cross-sectional survey approach, data were collected from Ninety (90) radiation monitoring equipment operators, Radiation Safety Officers, and frontline responders to evaluate their knowledge, awareness, and practices concerning equipment usage, operation, storage, handling, and calibration. The findings reveal significant gaps in knowledge of usage (trained is 43.2%, not trained is 56.8%) and inconsistencies in maintenance practices (as indicated by the regression analysis (β = 0.51, p < 0.01), particularly regarding specialized instruments such as the PackEye, Mobile Detection System (MDS), Radionuclide Identifinder (RID), and Personal Radiation Detectors (PRD). While there is high awareness of the need for regular calibration and handling training, the lack of standardized protocols and training alignment poses challenges to the effective use of these instruments. This study underscores the importance of comprehensive training programs, standardized maintenance protocols, and enhanced awareness initiatives to optimize the usage, performance and safety of radiation monitoring instruments in Nigeria.展开更多
Objective:To evaluate the effectiveness of quality nursing in the management of reusable instruments in the Central Sterile Supply Department(CSSD).Methods:Eleven nurses from the CSSD department were selected from Jan...Objective:To evaluate the effectiveness of quality nursing in the management of reusable instruments in the Central Sterile Supply Department(CSSD).Methods:Eleven nurses from the CSSD department were selected from January to October 2024,and quality nursing activities were implemented in the management of reusable instruments.The completion of quality indicators was analyzed.The instrument quality management scores,department satisfaction,and nurses’professional ability scores before and after nursing management were compared.Results:After nursing intervention,the qualified rates of initial cleaning and final cleaning of sterilization instruments were 99.66%and 100%,respectively.The qualified rate of packaging was 99.97%,the wet package rate was 0.1‰,the loading qualified rate was 99.88%,and the qualified rate of distribution was 99.99%.After nursing intervention,the nurses’instrument quality management scores,department satisfaction,and nurses’professional ability scores were all higher than those before nursing intervention(P<0.05).Conclusion:Quality nursing activities can improve the cleaning,packaging,and sterilization qualified rates of reusable instruments in the CSSD,enhance the effect of instrument quality management,obtain higher department satisfaction from nurses,cultivate their professional abilities,and possess significant nursing management advantages.展开更多
Vertical jump height is a fundamental measure of neuromuscular power in sports science.A diverse array of measurement instruments is available,yet selecting the appropriate technology requires a nuanced understanding ...Vertical jump height is a fundamental measure of neuromuscular power in sports science.A diverse array of measurement instruments is available,yet selecting the appropriate technology requires a nuanced understanding of the trade-offs between accuracy,cost,and practicality.This comprehensive technical review synthesizes the current state of vertical jump instrumentation.We systematically analyze four primary methodologies:direct measurement,motion capture(kinematic),force platform(kinetic),and flight time-based systems.The underlying technical principles,error sources,and practical limitations of each are detailed.Our analysis reveals a clear hierarchy:force platforms and motion capture systems provide gold-standard accuracy(e.g.,±0.3 cm for force platforms)but are constrained by high cost and laboratory environments.Conversely,flight time-based systems and smartphone applications offer excellent portability and accessibility but are subject to systematic errors(1-4 cm overestimation)and lower temporal resolution.Furthermore,we examine how emerging technologies,including artificial intelligence and wearable sensors,are poised to bridge the gap between laboratory-grade accuracy and field-based utility.This review provides engineers and sports scientists with a consolidated framework to guide instrument selection,data interpretation,and future innovation in athletic performance assessment.展开更多
This editorial introduces a special issue dedicated to the technical advancements in medical imaging.Medical imaging is an essential component of modern medicine,enabling the detection and analysis of structures and f...This editorial introduces a special issue dedicated to the technical advancements in medical imaging.Medical imaging is an essential component of modern medicine,enabling the detection and analysis of structures and functions within the human body.Among the key imaging modalities are X‐ray,ultrasound,computed tomography(CT),magnetic resonance imaging(MRI),positron emission tomography(PET),and single‐photon emission computed tomography.Each of these technologies plays a vital role in diagnostics and research,and their continued development drives progress in diagnostic imaging and related disciplines.展开更多
This paper introduces the key design aspects of automotive center console instrument systems,including hardware architecture,ergonomics,antenna layout,etc.It elaborates on the application and advantages of various adv...This paper introduces the key design aspects of automotive center console instrument systems,including hardware architecture,ergonomics,antenna layout,etc.It elaborates on the application and advantages of various advanced technologies,such as 3D printing and dual-color injection molding.Additionally,it discusses advancements in structural design,as well as future challenges and the trend of multidisciplinary collaborative innovation.展开更多
文摘The response and performance of radiation detectors for accurate measurements and effective use for radiological safety in medical, industrial, and nuclear sectors are based on the optimal use, maintenance, repair and calibration of radiation monitoring instruments in a secondary standard dosimetry laboratory. In Nigeria, the suboptimal performances of these instruments are attributed to inadequate maintenance practices, insufficient calibration, and limited awareness of proper equipment handling for optimal use. This study assesses the current practices related to the optimal use, maintenance, repair, and calibration of radiation detection equipment across Nigeria’s six geopolitical zones. Using a cross-sectional survey approach, data were collected from Ninety (90) radiation monitoring equipment operators, Radiation Safety Officers, and frontline responders to evaluate their knowledge, awareness, and practices concerning equipment usage, operation, storage, handling, and calibration. The findings reveal significant gaps in knowledge of usage (trained is 43.2%, not trained is 56.8%) and inconsistencies in maintenance practices (as indicated by the regression analysis (β = 0.51, p < 0.01), particularly regarding specialized instruments such as the PackEye, Mobile Detection System (MDS), Radionuclide Identifinder (RID), and Personal Radiation Detectors (PRD). While there is high awareness of the need for regular calibration and handling training, the lack of standardized protocols and training alignment poses challenges to the effective use of these instruments. This study underscores the importance of comprehensive training programs, standardized maintenance protocols, and enhanced awareness initiatives to optimize the usage, performance and safety of radiation monitoring instruments in Nigeria.
文摘Objective:To evaluate the effectiveness of quality nursing in the management of reusable instruments in the Central Sterile Supply Department(CSSD).Methods:Eleven nurses from the CSSD department were selected from January to October 2024,and quality nursing activities were implemented in the management of reusable instruments.The completion of quality indicators was analyzed.The instrument quality management scores,department satisfaction,and nurses’professional ability scores before and after nursing management were compared.Results:After nursing intervention,the qualified rates of initial cleaning and final cleaning of sterilization instruments were 99.66%and 100%,respectively.The qualified rate of packaging was 99.97%,the wet package rate was 0.1‰,the loading qualified rate was 99.88%,and the qualified rate of distribution was 99.99%.After nursing intervention,the nurses’instrument quality management scores,department satisfaction,and nurses’professional ability scores were all higher than those before nursing intervention(P<0.05).Conclusion:Quality nursing activities can improve the cleaning,packaging,and sterilization qualified rates of reusable instruments in the CSSD,enhance the effect of instrument quality management,obtain higher department satisfaction from nurses,cultivate their professional abilities,and possess significant nursing management advantages.
文摘Vertical jump height is a fundamental measure of neuromuscular power in sports science.A diverse array of measurement instruments is available,yet selecting the appropriate technology requires a nuanced understanding of the trade-offs between accuracy,cost,and practicality.This comprehensive technical review synthesizes the current state of vertical jump instrumentation.We systematically analyze four primary methodologies:direct measurement,motion capture(kinematic),force platform(kinetic),and flight time-based systems.The underlying technical principles,error sources,and practical limitations of each are detailed.Our analysis reveals a clear hierarchy:force platforms and motion capture systems provide gold-standard accuracy(e.g.,±0.3 cm for force platforms)but are constrained by high cost and laboratory environments.Conversely,flight time-based systems and smartphone applications offer excellent portability and accessibility but are subject to systematic errors(1-4 cm overestimation)and lower temporal resolution.Furthermore,we examine how emerging technologies,including artificial intelligence and wearable sensors,are poised to bridge the gap between laboratory-grade accuracy and field-based utility.This review provides engineers and sports scientists with a consolidated framework to guide instrument selection,data interpretation,and future innovation in athletic performance assessment.
文摘This editorial introduces a special issue dedicated to the technical advancements in medical imaging.Medical imaging is an essential component of modern medicine,enabling the detection and analysis of structures and functions within the human body.Among the key imaging modalities are X‐ray,ultrasound,computed tomography(CT),magnetic resonance imaging(MRI),positron emission tomography(PET),and single‐photon emission computed tomography.Each of these technologies plays a vital role in diagnostics and research,and their continued development drives progress in diagnostic imaging and related disciplines.
文摘This paper introduces the key design aspects of automotive center console instrument systems,including hardware architecture,ergonomics,antenna layout,etc.It elaborates on the application and advantages of various advanced technologies,such as 3D printing and dual-color injection molding.Additionally,it discusses advancements in structural design,as well as future challenges and the trend of multidisciplinary collaborative innovation.
