Dry-type fluorescence immunoassay analyzer

A fluorescent immunoassay and dry-type technology, applied in the field of immune analyzers, can solve the problems of low accuracy, increased difficulty, complicated operation, etc., and achieve the effect of real-time monitoring

Pending Publication Date: 2022-03-22
SICHUAN XINCHENG BIOLOGICAL CO LTD
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  • Abstract
  • Description
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  • Application Information

AI Technical Summary

Problems solved by technology

Based on the principle of antigen-antibody binding, almost all protein molecules can be labeled theoretically. The disadvantage is that the sensitivity is low, the accuracy is low, and only negative and positive can be judged; after the technology is improved, colored microspheres are used. Compared with the previous ones, the sensitivity has been improved, and the test results are highly reproducible, but the sensitivity is limited; with the development of technology, the fluorescent microsphere labeling technology has been applied, and the fluorescent microsphere labeling has strong and stable luminescence, and has a high biophase Capacitive and basically not affected by changes in the external environment, quantitative detection can be achieved, but the requirements for product technology are high and the difficulty is increased
[0004] The current analytical instruments require a large number of tedious manual steps for auxiliary detection, the operation is complicated, and the efficiency is low

Method used

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  • Dry-type fluorescence immunoassay analyzer
  • Dry-type fluorescence immunoassay analyzer
  • Dry-type fluorescence immunoassay analyzer

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] Such as figure 1 As shown, this embodiment includes a bottom plate 6, on which a tip box 1, a sample module 2, an incubation module 3, a sample loading module 4 and a control module 5 are arranged, and the sample module 2 is arranged on the tip box 1 and the incubation module 3, the sample loading module 4 is close to the incubation module 3 and located above the incubation module 3, the control module 5 is connected to the incubation module 3 and the sample loading module 4 at the same time, and the sample loading module 4 can move relative to the bottom plate 6. Through this structural combination, this scheme realizes the combination and arrangement of components, realizes automatic operation according to operation needs, reduces manual operation steps, and improves work efficiency.

Embodiment 2

[0035] Such as figure 2 As shown, the sample module 2 of this embodiment includes a sample rack 7 and a linear guide rail-8. The linear guide rail-8 is installed on the base plate 6, and the sample rack 7 is arranged on the linear guide rail-8 and can move along the linear guide rail-8. A limit block 9 is arranged on the linear guide rail one 8, and the movement trajectory and position of the sample rack 7 are limited by the limit block 9 . With this structure, the sample tube 45 is installed on the sample rack 7, and the sample rack 7 is moved by the power mechanism to process samples at different positions.

Embodiment 3

[0037] Such as image 3 As shown, the incubation module 3 of this embodiment can place the reagent card, provide a suitable environment for the reagent reaction, and cooperate with other devices of the instrument to realize the calibration and removal of the reagent card. It includes an incubation chamber main body 12, which includes an incubation chamber main body 12, on which a number of incubation partitions 10 are arranged, and passages are formed between adjacent incubation partitions 10, which are used for reagent strips 11 to carry out incubation reactions. place.

[0038] Incubation partitions 10 are all arranged near the same side of the incubation chamber main body 12, and a temperature heating plate 15 is arranged at the bottom of the incubation chamber main body 12, and the temperature heating plate 15 is close to the directly below the incubation partition 10, and the temperature heating plate 15 is attached to the At the bottom of the incubation chamber main bod...

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Abstract

A suction head box, a sample module, an incubation module, a sample adding module and a control module are arranged on a bottom plate, the sample module is arranged between the suction head box and the incubation module, the sample adding module is close to the incubation module and located above the incubation module, and the control module is connected with the incubation module and the sample adding module at the same time; the sample adding module can move relative to the bottom plate. According to the invention, automatic suction head adding, removing and state detection are realized; the waste reagent card and the waste suction head can be automatically withdrawn; the automatic reading of reagent card strip information and the membrane rupture of the reagent cup are realized; mobile and dynamic lighting is realized; and automatic detection of the sample adding liquid level is realized. A biomedical technology and a chromatography technology are adopted to analyze and process chromatography, spectrum and biosensor information, and are applied to immunization and rapid detection, and through the position design, multi-channel and automatic detection is realized, the field applicability is improved, and the advantages of automation and simplification are presented.

Description

technical field [0001] The invention relates to the technical field of immune analyzers, in particular to a dry fluorescent immune analyzer. Background technique [0002] In recent years, due to the impact of the human body due to factors such as the environment, the emergence of new infectious diseases has continuously threatened human health, such as atypical pneumonia, Middle East respiratory syndrome, influenza, Ebola, Zika virus, yellow fever, crack The spread of infectious diseases such as valley fever has become a global public health problem. With the development of urbanization and the increase of global trade, environmental changes have increased the risk of transmission of infectious diseases in natural foci, and the prevention and control of infectious diseases is urgent. Therefore, the instant and rapid detection of infectious diseases is of great significance for the prevention and control of infectious diseases. At the same time, the rapid detection of human...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N35/00G01N35/10
CPCG01N35/00G01N35/10G01N2035/1027G01N2035/00178
Inventor 唐金鑫林源夏星吴茜蒋明君漆海林杨燕飞李蒙蒙邓志军
Owner SICHUAN XINCHENG BIOLOGICAL CO LTD
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