Movable pathogen nucleic acid testing laboratory system supporting rapid deployment

Abstract

The invention relates to a movable pathogen nucleic acid testing laboratory system supporting rapid deployment. Three main steps of reagent storage and preparation, specimen preparation, amplificationand product analysis involved in a nucleic acid testing process are independently arranged in three movable structures respectively; the isolation requirements among the three steps in the nucleic acid testing process are met, meanwhile, the three movable structures can be quickly moved and deployed to any required position and unfolded to form a pathogen nucleic acid testing laboratory with a complete function, detection is executed on site at the key prevention and control position, and centralized transfer of high-risk groups is avoided.

Description

technical field [0001] The invention relates to the technical field of pathogen detection equipment, in particular to a mobile pathogen nucleic acid detection laboratory system that supports rapid deployment. Background technique [0002] The 2019-nCoV pathogen is an airborne pathogen with strong contagiousness and pathogenicity. It often presents an explosive spread of infection in the community population, posing an extremely serious threat to the lives and health of the people. [0003] Since there is no targeted specific drug for pneumonia and other diseases caused by new coronavirus pathogens, early detection and isolation of infected people has become the most effective means to prevent and control new coronavirus pathogens. Currently, the most commonly used nucleic acid detection method is a screening method with high accuracy and reliable results. However, because nucleic acid detection generally needs to be performed in qualified testing laboratories, the number of ...

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Problems solved by technology

Currently, the most commonly used nucleic acid detection method is a screening method with high accuracy and reliable results. However, since nucleic acid detection generally needs to be performed in qualified testing laboratories, the number of testing laboratories is insufficient to meet the huge testing demand. , seriously restricting the efficiency of nucleic acid detection, many patients delayed the best treatment opportunity while waiting for nucleic acid detection, resulting in aggravation of the disease

[0004] On the other hand, the current method of nucleic acid testing is to collect samples in designated hospitals, and then send the samples to testing laboratories in a centralized way, causing a large number of patients to gather in designated hospitals, increasing the risk of cross-infection, and also increasing the contamination of nucleic acid testing reagents For some key prevention and control locations, such as airports, railway stations and other places with high traffic flow, if the method of centralized detection of people flow is used, it will inevitably lead to crowd concentration and increase the risk of pathogen infection, which is not conducive to pathogen prevention and control

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