2022
06/30
相关创新主体

创新背景

核酸检测工作样本量大、工作繁琐、接触易感染,过程精细化要求极高,需要医护人员一丝不苟地进行,提高核酸检测效率,降低成本,将对医疗工作发展具有强大促进作用。

 

创新过程

2021年12月镁伽将机器人和人工智能结合应用到核酸检测全流程,实现了自动化核酸检测。自动检测包括样品前处理、核酸提取构建和荧光定量PCR检测流程,实现从样本到检测结果出报告全过程自动化。

在机器人和人工智能结合的基础上,可以加入大数据和物联网技术,将检测过程速度大幅度提高。有效连接从开盖分杯到核酸提取,PCR体系构建,封膜和qPCR检测的的流程模块。同时在系统内部设置无菌环境和消毒系统,自动消杀驱除影响因子,区分PCR前后区,在高效检测的同时严格遵照检测要求。

在机器人和人工智能结合的基础上,可以加入大数据和物联网技术,将检测过程速度大幅度提高。大数据和物联网在检测流程进行时对检测对象形成轨迹进行实时监测了解,采集数据信息和接触到的区域人群,真正达到核酸检测全覆盖和事后规定时间段内安全保障。

同时,在核酸过程进行时合理安排人数,防止人群大量聚集排队,实时将流程人数和速度控制在合理范围内。机器人、人工智能、物联网和大数据结合对于核酸检测效率的提高具有强力作用,并且可以在医疗或制药方面深入研究各项技术的交叉融合,提高医疗制药的效率。

 

创新关键点

核酸检测创新融合人工智能、机器人、大数据和物联网,提高检测效率,降低人力成本。

 

Innovative use of emerging technologies to complete the possibility of fully automated nucleic acid testing

In December 2021, Magega will combine robots and artificial intelligence to apply the whole process of nucleic acid detection to realize automatic nucleic acid detection. Automatic detection includes sample pretreatment, nucleic acid extraction and construction, and fluorescence quantitative PCR detection process, which realizes the automation of the whole process from sample to test result reporting.
On the basis of the combination of robots and artificial intelligence, big data and Internet of Things technologies can be added to greatly improve the speed of the detection process. Effectively connect the process modules from opening the lid and cup to nucleic acid extraction, PCR system construction, membrane sealing and qPCR detection. At the same time, a sterile environment and a disinfection system are set up inside the system to automatically disinfect and remove influencing factors, distinguish the front and rear areas of PCR, and strictly comply with the testing requirements while efficiently testing.
On the basis of the combination of robots and artificial intelligence, big data and Internet of Things technologies can be added to greatly improve the speed of the detection process. Big data and the Internet of Things can monitor and understand the trajectory of the detection object in real time during the detection process, collect data information and the people in the area contacted, and truly achieve full coverage of nucleic acid detection and security within a specified period of time after the event.
At the same time, rationally arrange the number of people during the nucleic acid process to prevent large crowds from gathering and queuing, and control the number and speed of the process within a reasonable range in real time. The combination of robots, artificial intelligence, the Internet of Things and big data has a strong role in improving the efficiency of nucleic acid detection, and can deeply study the cross-integration of various technologies in medical or pharmaceutical fields to improve the efficiency of medical pharmaceuticals.

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