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Molecular diagnosis micro-fluidic chip, molecular diagnosis micro-fluidic chip system and applications of molecular diagnosis micro-fluidic chip and molecular diagnosis micro-fluidic chip system

A microfluidic chip and molecular diagnosis technology, applied in the fluidic chip system of molecular diagnosis and the application field of nucleic acid amplification, can solve the problem of no reagent storage, avoid pollution problems, ensure accuracy, and avoid detection. the effect of interference

Pending Publication Date: 2018-04-10
丁锐
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

After patent research, it was found that there have been a small number of patents related to molecular diagnosis using microfluidic technology at home and abroad in recent years. It has the function of nucleic acid amplification, but does not have the functions of reagent storage, reagent mixing, and sample quantification; another example is a centrifugal disk array nucleic acid detection microfluidic chip disclosed in Chinese patent 201610242532, but the chip is only for nucleic acid extraction For detection with liquid, the user needs to manually process the sample to be tested to extract the nucleic acid in the sample before use, and then inject the nucleic acid into the chip for detection. The use of this chip has raised user requirements, and the nucleic acid needs to be extracted in advance

Method used

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  • Molecular diagnosis micro-fluidic chip, molecular diagnosis micro-fluidic chip system and applications of molecular diagnosis micro-fluidic chip and molecular diagnosis micro-fluidic chip system

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Experimental program
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Effect test

preparation example Construction

[0089] The method for preparing a preferred molecular diagnostic microfluidic chip provided by the present invention preferably includes the following steps:

[0090] Step 1) Pre-install the reaction reagents required for lysis, purification and nucleic acid amplification of the sample to be tested into the reagent pouch 21, and seal the sealing opening 212 of the reagent pouch 21 by means of thermoplastic sealing; and The positioning hole 211 is placed at the specific liquid storage structure of the middle layer structure of the chip system, and the reagent pouches 21 of each liquid storage are further fixed on the middle layer structure of the chip system by means of thermoplastic sealing.

[0091] Step 2) Place a certain amount of grinding beads in the first chamber 32 of the chip, and place a certain amount of silica gel magnetic beads in the nucleic acid purification unit 5 of the chip.

[0092] Step 3) Laminating the lower layer structure to the bottom of the above middle layer...

Embodiment 1

[0105] This example is used to illustrate the detection of the presence of E. coli by using the microfluidic chip system of the present invention

[0106] The main reason for using Escherichia coli as the experimental material in this embodiment is that the gene structure of Escherichia coli is clear, the bacteria are simple to cultivate, the bacteria are easy to obtain, and the bacteria are cheap. Of course, the experimental method disclosed in this embodiment can also be used for the detection of other pathogenic bacteria, such as the detection of pathogenic bacteria in sepsis and the detection of respiratory tract infection bacteria.

[0107] The preparation method of the cell lysate used in this example is: use sterile water to prepare the solution so that the final concentration of each component is: 55mmol / L sodium dodecyl cycloxide (SDS), 25mmol / L ethyl acetate Diaminetetraacetic acid (EDTA), 100mmol / L tris (Tris), 500mmol / L sodium chloride (NaCl), finally adjust the pH valu...

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Abstract

The invention relates to the field of micro-fluidic chip molecular diagnosis, and in particular to a molecular diagnosis micro-fluidic chip, a molecular diagnosis micro-fluidic chip system and applications of the molecular diagnosis micro-fluidic chip and the molecular diagnosis micro-fluidic chip system. The chip comprises a sample injection unit (1) which is used for receiving to-be-detected samples, at least one liquid storage unit (2) for storing reaction reagents, a cell lysis unit (3) for conducting cell lysis and a nucleic acid amplification unit (4) for conducting nucleic acid amplification, wherein the cell lysis unit comprises a slit (31) as well as a first compartment (32) and a second compartment (33) which are separated by virtue of the slit; at least one compartment is configured with grinding micro-beads; the first compartment communicates with the sample injection unit; and the second compartment communicates with the at least one liquid storage unit, so as to receive acell lysis solution. The chip system is composed of three layers, namely an upper layer, a middle layer and a lower layer, wherein the chip is arranged on the middle layer; the upper and lower layersare used for covering and sealing the middle layer; the upper layer is provided with a sample injection hole which is connected to the sample injection unit, and the sample injection hole correspondsto an avoiding hole of the liquid storage unit. The chip is simple in detection process, high in sensitivity and strong in repeatability, and reaction samples can be quantified.

Description

technical field [0001] The invention relates to the field of microfluidic chip molecular diagnosis, in particular to a microfluidic chip for molecular diagnosis and a fluidic chip system for molecular diagnosis, and their application in nucleic acid amplification. Background technique [0002] Microfluidics, also known as microfluidic chip laboratory or chip laboratory (lab-on-a-chip), refers to a chemical or biological laboratory built on a chip of a few square centimeters. , it integrates the basic operation units involved in the fields of chemistry and biology, such as sample preparation, reaction, separation, detection, cell culture, sorting, lysis, etc. The control fluid runs through the entire system to realize various functions in the fields of biology, chemistry, and medical diagnosis. [0003] The basic characteristics and biggest advantages of microfluidic chip technology are: a variety of unit structures can be flexibly combined on the tiny chip platform, making ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12M1/00C12M1/34
CPCC12Q1/6806C12Q1/6851C12Q2565/629C12Q2523/308C12Q2531/113C12Q2563/107
Inventor 丁锐
Owner 丁锐
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