为解决实验室监管环节数字化程度低、数据安全保障难度大、监测预警效率低等问题。该文介绍了基于Java EE 11技术规范的生物安全监管矩阵,在MVC架构模式上实现RESTful规范,监管矩阵包括1个平台(生物安全在线监管平台)和4个系统(生物安...为解决实验室监管环节数字化程度低、数据安全保障难度大、监测预警效率低等问题。该文介绍了基于Java EE 11技术规范的生物安全监管矩阵,在MVC架构模式上实现RESTful规范,监管矩阵包括1个平台(生物安全在线监管平台)和4个系统(生物安全眼实验室监管系统、实验室生物安全评价系统、病原微生物样本运输系统、病原微生物实验室备案系统)。该矩阵已在800余家单位完成部署使用,记录异常数据20余万条,帮助相关实验室整改风险点11余万个,帮助实验室管理人员及时发现异常并处置,实现实验室生物安全数字化治理。展开更多
The launch of the new journal,Biosafety and Health,presents me with a unique opportunity to recount the progress of laboratory biosafety(LB)in China and my contribution to this area over the past 30 years.Since the se...The launch of the new journal,Biosafety and Health,presents me with a unique opportunity to recount the progress of laboratory biosafety(LB)in China and my contribution to this area over the past 30 years.Since the severe acute respiratory syndrome epidemic in 2003,China has constructed a primary network of high-level biosafety laboratories at different levels and established an expert team on LB.Furthermore,a series of LB management documents,including laws,regulations,standards,and guidelines,have been developed and published.This gradually maturing LB system has played a pivotal role in emerging infectious disease control and prevention,as well as in research,which in turn contributes to public health.In recent years,international collaboration between China and other countries has also been accelerated.Despite these achievements,we are still facing many challenges and opportunities in the field of LB.Sustainable LB development requires the joint efforts of the entire society and continuous international cooperation to safeguard global public health.展开更多
With the rapid development of intelligent technology,the smart heightened-containment biological laboratory(sHCBL)has moved from concept to reality.Experimental activities and laboratory construction,operation,and man...With the rapid development of intelligent technology,the smart heightened-containment biological laboratory(sHCBL)has moved from concept to reality.Experimental activities and laboratory construction,operation,and management will undoubtedly lead to disruptive changes.Conventional laboratories are increasingly being replaced by smart laboratories;however,the key technologies involved in this transition remain at an exploratory stage.It is necessary for HCBLs to absorb the advanced ideas of smart laboratories to guarantee the establishment of biosafety and biosecurity in a more automated way.This study examines in detail sHCBL module structures,the functions of each module,laboratory operation processes,and the advanced nature of smart laboratories.It may provide a theoretical foundation for the future transformation and smart construction of sHCBLs.展开更多
文摘为解决实验室监管环节数字化程度低、数据安全保障难度大、监测预警效率低等问题。该文介绍了基于Java EE 11技术规范的生物安全监管矩阵,在MVC架构模式上实现RESTful规范,监管矩阵包括1个平台(生物安全在线监管平台)和4个系统(生物安全眼实验室监管系统、实验室生物安全评价系统、病原微生物样本运输系统、病原微生物实验室备案系统)。该矩阵已在800余家单位完成部署使用,记录异常数据20余万条,帮助相关实验室整改风险点11余万个,帮助实验室管理人员及时发现异常并处置,实现实验室生物安全数字化治理。
文摘The launch of the new journal,Biosafety and Health,presents me with a unique opportunity to recount the progress of laboratory biosafety(LB)in China and my contribution to this area over the past 30 years.Since the severe acute respiratory syndrome epidemic in 2003,China has constructed a primary network of high-level biosafety laboratories at different levels and established an expert team on LB.Furthermore,a series of LB management documents,including laws,regulations,standards,and guidelines,have been developed and published.This gradually maturing LB system has played a pivotal role in emerging infectious disease control and prevention,as well as in research,which in turn contributes to public health.In recent years,international collaboration between China and other countries has also been accelerated.Despite these achievements,we are still facing many challenges and opportunities in the field of LB.Sustainable LB development requires the joint efforts of the entire society and continuous international cooperation to safeguard global public health.
基金This work was financially supported by the Beijing Nova Program(Z211100002121064).
文摘With the rapid development of intelligent technology,the smart heightened-containment biological laboratory(sHCBL)has moved from concept to reality.Experimental activities and laboratory construction,operation,and management will undoubtedly lead to disruptive changes.Conventional laboratories are increasingly being replaced by smart laboratories;however,the key technologies involved in this transition remain at an exploratory stage.It is necessary for HCBLs to absorb the advanced ideas of smart laboratories to guarantee the establishment of biosafety and biosecurity in a more automated way.This study examines in detail sHCBL module structures,the functions of each module,laboratory operation processes,and the advanced nature of smart laboratories.It may provide a theoretical foundation for the future transformation and smart construction of sHCBLs.