[1]陆志方,刘大成,孟宪杰,等.尿液检测仪器分代理论模型构建及评价[J].现代检验医学杂志,2024,39(02):175-180.[doi:10.3969/j.issn.1671-7414.2024.02.032]
 LU Zhifang,LIU Dacheng,MENG Xianjie,et al.Construction and Evaluation of A Theoretical Model for the Generation of Urine Testing Instruments[J].Journal of Modern Laboratory Medicine,2024,39(02):175-180.[doi:10.3969/j.issn.1671-7414.2024.02.032]
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尿液检测仪器分代理论模型构建及评价()
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《现代检验医学杂志》[ISSN:/CN:]

卷:
第39卷
期数:
2024年02期
页码:
175-180
栏目:
研究简报·实验技术
出版日期:
2024-03-31

文章信息/Info

Title:
Construction and Evaluation of A Theoretical Model for the Generation of Urine Testing Instruments
文章编号:
1671-7414(2024)02-175-06
作者:
陆志方12刘大成2孟宪杰3金雅康3陈玉文1
[1. 广州华商学院健康医学院,广州 511300;2. 清华大学工业工程系,北京100084;3. 易源易贝(北京)科技有限公司,北京 100176]
Author(s):
LU Zhifang12 LIU Dacheng2 MENG Xianjie3 JIN Yakang3 CHEN Yuwen1
(1.School of Health Medicine, Guangzhou Huashang College, Guangzhou 511300, China; 2.Department of Industrial Engineering, Tsinghua University, Beijing 100084, China; 3. Yiyuan Yibei (Beijing) Technology Co. Ltd. Beijing 100176, China)
关键词:
尿液分析仪分代模型疾病控制论
分类号:
R446
DOI:
10.3969/j.issn.1671-7414.2024.02.032
文献标志码:
A
摘要:
随着信息技术和智能化技术的进步,尿液检测仪器的智能化发展面临新的机遇。运用疾病控制论理论模型对临床尿液检测的业务流程、现行尿液检测仪器等进行分析,构建了尿液检测仪器的分代理论模型,有利于指引尿液检测仪器的智能化发展方向。研究将尿液检测仪器分为一到四代产品,其中一代产品为医生操作阶段;二代产品为现阶段的检验师借助各种尿液分析仪阶段;三代产品进一步优化检测流程和智能化,无需检验师操作;四代产品则实现无人操作、无须采样。可见随着科技的发展,尿液分析的确变得更为简便,但是毕竟各种仪器都有其局限性,应把建立尿液分析仪器分代理论模型,运用在临床尿液检验中,既能提高尿液分析的效率又能提高其质量。
Abstract:
With the progress of information technology and intelligent technology, the intelligent development of urine testing instruments is facing new opportunities. Using the disease cybernetics theory model to analyze the business process and current urine testing instruments of clinical urine analyzer, a generational theoretical model of urine testing instruments has been constructed, which is conducive to guiding the intelligent development direction of urine testing instruments. The study divides urine testing instruments into one to four generations of products, with the first-generation of products being operated by doctors. The second-generation products are currently available for laboratory technicians to use various urine analyzers. The thirdgeneration products further optimize the testing process and intelligence, without the need for inspectors to operate. The fourthgeneration products are unmanned and do not require sampling. It can be seen that with the development of technology, urine analysis has indeed become more convenient, but after all, various instruments have their limitations. Therefore, the establishment of a theoretical model for the generation of urine testing instruments should be applied in clinical urine testing, which can not only improve the efficiency of urine analysis but also improve its quality.

参考文献/References:

[1] 朱海波, 尹伶, 王新, 等. 免疫比浊法测定尿液游离血红蛋白的方法学研究[J]. 现代检验医学杂志,2018, 33 (1):67-71, 76. ZHU HaiBo, YIN Ling, WANG Xin, et al. Methodological research on latex enhanced immune turbidimetric method for the detection of urine free hemoglobin[J]. Journal of Modern Laboratory Medicine, 2018,33(1):67-71, 76.
[2] LIANG Haibo, LIU Gang, ZOU Jialing, et al. Research on calculation model of bottom of the well pressure based on machine learning[J]. Future Generation Computer Systems, 2021, 124:80-90.
[3] 林彩云. 尿液分析仪结合显微镜红细胞计数法在尿液潜血检验中的效果及准确率分析[J]. 中国医疗器械信息, 2023, 29(8):79-81. LIN Caiyun. Analysis of the effect and accuracy of urine analyzer combined with microscopic RBC counting in urine latent blood test[J]. China Medical Device Information, 2023, 29 (8): 79-81.
[4] 颜红红. 探究尿液检测中尿液分析仪与镜检法的应用价值[J]. 中国医疗器械信息, 2023, 29(6):78-80. YAN Honghong. To explore the application value of urine analyzer and microscopy in urine detection[J].China Medical Device Information, 2023, 29 (6): 78-80.
[5] 王美雯. 尿液自动分析仪检测假阴性探讨[J]. 中国临床医药研究杂志, 2018(16):54. WANG Meiwen. Discussion on false negative detection by urine automated analyzer system[J]. Chinese Journal of Clinical Medicine Research, 2018 (16): 54.
[6] 陈晓彦. 优利特-500B 尿液分析仪联合手工显微镜法检测尿液红细胞和白细胞等有形成分以提高检验结果准确性的探讨[J]. 大家健康(学术版), 2015,9(20): 69. CHEN Xiaoyan. Exploring the accuracy of urine analysis results by using the combination of the U-lite 500 B urine analyzer and manual microscopy to detect formed components such as red blood cells and white blood cells in urine[J]. Everyone's Health (Academic Edition), 2015, 9(20): 69.
[7] 王白石. 尿液有形成分检测及研究进展[J]. 中国城乡企业卫生, 2018, 32(9): 44-47. WANG Baishi. Detection and research progress of visible components in urine[J]. Chinese Journal of Urban and Rural Enterprise Hygiene, 2018, 32 (9): 44-47.
[8] ZHANG Xiaoqian, LI Hanshan. Research on target capture probability calculation model of composite photoelectric detection imaging sensor system[J].Optik, 2018, 166: 161-168.
[9] 王鹏, 张吉才. 尿液蛋白标志物联合检测在狼疮性肾炎中的诊断价值[J]. 川北医学院学报, 2018,33(5): 688-692. WANG Peng, ZHANG Jicai. Research on the diagnostic value of lupus nephritis through detection three kinds of urine protein[J].Journal of North Sichuan Medical College, 2018, 33(5): 688-692.
[10] 刘肖肖, 孔德友, 刘广宇, 等. 基于融合算法的尿沉渣显微图像有形成分外边缘检测方法研究[J].中国医学装备,2018,15(11):28-31. LIU Xiaoxiao, KONG Deyou, LIU Guangyu, et al.Research on the detection method of external edge of morphological components of microscopic image of urine sediment based on fusion algorithm[J]. China Medical Equipment, 2018, 15(11), 28-31.
[11] FANG Limei, XU Yuangen, WANG Liujing, et al. Research on the state detection method of automatic instrument equipment based on construction engineering[J]. Journal of Physics: Conference Series,2020, 1648(2): 022153.
[12] 王洪喆. 诺伯特·维纳. 控制论与信息传播的人文精神[J]. 全球传媒学刊, 2021, 8(2): 43-58. WANG Hongzhe. Norbert wiener and the cybernetic humanities of the information age[J]. Global Journal and Media Studies, 2021, 8(2): 43-58.
[13] 陆志方, 刘大成, 陈玉文, 等. 基于疾病控制论的病区输液流程再造研究[J]. 南通大学学报( 医学版),2023, 43(4):306-309. LU Zhifang, LIU Dacheng, CHEN Yuwen, et al. Research or reengineering of infusion process in wards based on disease cybernetics[J]. Journal of Nantong University (Medical Sciences), 2023, 43(4):306-309.
[14] 吴文强, 雷良育, 胡永伟, 等. 汽车第3 代轮毂轴承滚动体数目缺失检测[J].汽车工程师,2018(5):46-49,51. WU Wenqiang, LEI Liangyu, HU Yongwei ,et al. Research on the missing detection of the third generation hub bearing rolling element of automobile[J]. Auto Engineer, 2018(5), 46-49, 51.
[15] 何涌, 刘国安, 何伟强, 等. 计量检测在医疗设备质量保证中的作用研究[J]. 智慧健康,2019,5(5):57-59. HE Yong, LIU Guoan, HE Weiqiang, et al. Research on the role of metrology detection in quality assurance of medical equipment[J]. Smart Healthcare, 2019, 5(5):57-59.

备注/Memo

备注/Memo:
基金项目: 国家自然科学基金委员会资助项目(编号:71773002):基于世界管理调查(WMS)的中国医院管理干预实验;国家科技部创新工作方法专项(编号:2015IM030200):精益医院管理的医疗服务创新方法研究。
作者简介: 陆志方(1972-),男,医学博士,广州华商学院副主任医师,清华大学工程系博士后(出站),研究方向:医疗管理、解剖与临床,E-mail:zhipujiao72@163.com。
更新日期/Last Update: 2024-03-15