CN201917509U

CN201917509U - A flow cytometer

Info

Publication number: CN201917509U
Application number: CN 201020613651
Authority: CN
Inventors: 武晓东; 陈永勤; 王策; 赵书涛
Original assignee: Suzhou Institute of Biomedical Engineering and Technology of CAS
Current assignee: Suzhou Institute of Biomedical Engineering and Technology of CAS
Priority date: 2010-11-18
Filing date: 2010-11-18
Publication date: 2011-08-03
Anticipated expiration: 2020-11-18

Abstract

The utility model discloses a flow cytometry which comprises a light source illumination system, a liquid flow system, a light splitting system, a signal detection-analysis processing system, and a PC (personal computer) display control system. The liquid flow system comprises a flowing chamber; cells flowing linearly are arranged in the flowing chamber; a solid laser is used as an excitation light source of the light source illumination system; lasers are converged and irradiated on the flowing chamber through a reflector and a plane convex lens, and are further converged through an optical part integrated on the flowing chamber, and irradiated on the cells flowing linearly; the signal detection-analysis processing system comprises a lateral scattering detector, a yellow fluorescence channel detector, a near-infrared fluorescence channel detector, a forward scattering detector, and a signal processing module; and the detectors are all multi-pixel photon counters (MPPC). The flow cytometry has the characteristics of larger dynamic detection scope, high sensitivity, small and compact size, and convenience in maintenance.

Description

A kind of flow cytometer

Technical field

The utility model belongs to a kind of biomedical detecting instrument, is specifically related to a kind of flow cytometer.

Background technology

(flow cytometer is that multi-door subjects such as light harvesting, electronics, fluid mechanics, cytochemistry, biology, immunology and laser and computing machine and technology are in the advanced science and technology equipment of one FCM) to flow cytometer.It is widely used in fields such as clinical medicine, cytology, biology, microbiology, pharmaceutics, genesiology, is one of advanced instrument in the modern scientific research, is described as breadboard " CT ".It to single-row cell in the quick streamlined flow state or biologic grain carry out one by one, the technology of multiparameter, qualitative, quantitative test fast or sorting, have characteristics such as detection speed is fast, measurement parameter is many, the image data amount big, analyze comprehensively, separating purity is high, method is flexible.

At present commercial flow cytometer adopts gas laser, solid state laser etc., and it is big to have a volume, complex structure, and the shortcoming that maintenance cost is high, some flow cytometer adopts single excitation source, has limited the selection of cell fluorescence dyestuff.The detector of flow cytometer generally adopts photomultiplier (PMT), and it is long-pending that it has large photosensistive surface, the advantage of low noise equivalent power (NEP), but bulky, quantum efficiency is low, and reverse biased is too high, only can be operated in UV and the limit of visible spectrum, to external magnetic field resistibility weakness.

The liquid control system of commercial flow cytometer costs an arm and a leg, and is bulky, complex structure.

The utility model content

For overcoming deficiency of the prior art, the purpose of this utility model is to provide a kind of bigger dynamic detecting range that has, high sensitivity, and volume is little and compact, is convenient to safeguard, really realizes portable flow cytometer.

In order to solve the problems of the technologies described above, realize above-mentioned purpose, the utility model is achieved through the following technical solutions:

A kind of flow cytometer, comprise source illumination system, liquid fluid system, beam splitting system, acquisition of signal analysis process system and PC display control program, described liquid fluid system makes cell sample make streamlined flow under the parcel of sheath stream, described source illumination system carries out laser radiation to the interested stream of cells of fluorochrome label in the described liquid fluid system, excite transmitting of the fluorescence that obtains institute's mark, enter described acquisition of signal analysis process system by described beam splitting system and carry out acquisition of signal, analyze and output, described PC display control program shows the information of described acquisition of signal analysis process system and stores and the described source illumination system of FEEDBACK CONTROL, liquid fluid system and acquisition of signal analysis process system, described liquid fluid system comprises flow chamber, the cell that has streamlined flow in the described flow chamber, one solid state laser is as the excitation source of source illumination system, laser is through catoptron, plano-convex lens is assembled and is shone on the flow chamber, further assemble through the opticator that is integrated in flow chamber, make laser radiation on the cell of streamlined flow.

Further, described acquisition of signal analysis process system comprises a lateral scattering detector, a yellow fluorescence channel detector and a near-infrared fluorescent channel detector that is separately positioned on after the described beam splitting system, also comprise a forward scattering detector, and the signal processing module of the described forward scattering detector of a connection, lateral scattering detector, yellow fluorescence channel detector and near-infrared fluorescent channel detector.

Preferably, described lateral scattering detector, yellow fluorescence channel detector and near-infrared fluorescent channel detector are formed detector module, and described flow chamber, beam splitting system and the detector module drawn together formed a point-to-point imaging system.

Further, also be provided with a light barrier between described forward scattering detector and the described liquid fluid system.

Further, described forward scattering detector, lateral scattering detector, yellow fluorescence channel detector and near-infrared fluorescent channel detector are all many pixels photon counter (MPPC).

By the utilization of above technology, the utlity model has following advantage:

1, adopts many pixels photon counter (MPPC), the array that it has a plurality of avalanche diodes (APD) to form, constituted the output of MPPC from the summation of the pixel of each APD output, has good photon counting performance, low bias voltage, fabulous temporal resolution, high-gain, high sensitivity, the advantage that volume is little can make instrument little and compact, highly sensitive.

2, adopt point-to-point imaging system, can make the scattered light of flow chamber cell and the faint fluorescence that produces that is excited better be detected the device response.

Above-mentioned explanation only is the general introduction of technical solutions of the utility model, for can clearer understanding technological means of the present utility model, and can be implemented according to the content of instructions, below with preferred embodiment of the present utility model and conjunction with figs. describe in detail as after.Embodiment of the present utility model is provided in detail by following examples and accompanying drawing thereof.

Description of drawings

Below in conjunction with drawings and embodiments the utility model is described in further detail.

Fig. 1 is the structural representation of an embodiment of flow cytometer of the present utility model.

Fig. 2 is the point-to-point imaging system structural representation of an embodiment of flow cytometer of the present utility model.

Number in the figure explanation: 1, solid state laser, 2, catoptron, 3, plano-convex lens, 4, flow chamber, 5, the cell of streamlined flow, 6, light barrier, 7, forward scattering detector, 8, lateral scattering detector, 9, the yellow fluorescence channel detector, 10, the near-infrared fluorescent channel detector, 11, beam splitting system, 12, signal processing analysis module, 13, the PC display control program, 14, signal processing system, 15, source illumination system, 16, liquid fluid system, 17, point-to-point imaging system, 18, detector module.

Embodiment

Referring to shown in Figure 1, a kind of flow cytometer, comprise source illumination system 15, liquid fluid system 16, beam splitting system 11, acquisition of signal analysis process system 14 and PC display control program 13, described liquid fluid system 16 makes cell sample make streamlined flow under the parcel of sheath stream, the interested stream of cells of fluorochrome label is carried out laser radiation in 15 pairs of described liquid fluid systems 16 of described source illumination system, excite transmitting of the fluorescence that obtains institute's mark, enter described acquisition of signal analysis process system 14 by described beam splitting system 11 and carry out acquisition of signal, analyze and output, the information of 13 pairs of described acquisition of signal analysis process systems 14 of described PC display control program shows and stores and the described source illumination system 15 of FEEDBACK CONTROL, liquid fluid system 16 and acquisition of signal analysis process system 14, described liquid fluid system 16 comprises flow chamber 4, has the cell 5 of streamlined flow in the described flow chamber 4.

It is excitation source that the flow cytometer of present embodiment adopts the solid state laser 1 of 532nm, laser is assembled and is shone on the flow chamber 4 through catoptron 2, plano-convex lens 3, further assemble through the opticator that is integrated in flow chamber, make laser radiation on the cell 5 of streamlined flow.

Described acquisition of signal analysis process system comprises a lateral scattering detector 8, a yellow fluorescence channel detector 9 and a near-infrared fluorescent channel detector 10 that is separately positioned on after the described beam splitting system 11, also comprise a forward scattering detector 7, and the signal processing module 12 of the described forward scattering detector 7 of a connection, lateral scattering detector 8, yellow fluorescence channel detector 9 and near-infrared fluorescent channel detector 10.

Further, described forward scattering detector 7, lateral scattering detector 8, yellow fluorescence channel detector 9 and near-infrared fluorescent channel detector 10 are all many pixels photon counter.

Further, forward scattering light is more intense, makes forward scattering detector 7 saturated easily, allows a small amount of forward scattering light enter forward scattering detector 7 to survey so be aided with little light barrier 6.

Further, side scattered light, the fluorescence that excites generation are assembled through the lens in the beam splitting system 11, mating plate makes scattered light after filtration then, the fluorescence approaching side is to scattering detector 8, yellow fluorescence channel detector 9 and near-infrared fluorescent channel detector 10, converge on the detector through lens, wherein lateral scattering detector 8 is that detection channels, the yellow fluorescence channel detector 9 of scattered light 532nm wavelength is the detection channels of near infrared 780nm wavelength for the detection channels of yellow fluorescence 585nm wavelength, near-infrared fluorescent channel detector 10 again.

Preferably, referring to shown in Figure 2, described lateral scattering detector 8, yellow fluorescence channel detector 9 and near-infrared fluorescent channel detector 10 are formed detector module 18, the described flow chamber 4, beam splitting system 11 of drawing together formed a point-to-point imaging system 17 with detector module 18, and the optical module that being observed of described flow chamber 4 a little can be passed through on the beam splitting system 11 is respectively in the light-sensitive surface imaging of lateral scattering detector 8, yellow fluorescence channel detector 9, near-infrared fluorescent channel detector 10.Be observed the scattered light of cell, faint fluorescence can better converge on the detector light-sensitive surface through described optical module, finishes the detection of feeble signal.

The foregoing description just is to allow the one of ordinary skilled in the art can understand content of the present utility model and enforcement according to this for technical conceive of the present utility model and characteristics being described, its objective is, can not limit protection domain of the present utility model with this.The variation or the modification of every equivalence of having done according to the essence of the utility model content all should be encompassed in the protection domain of the present utility model.

Claims

1. a flow cytometer, comprising a light source irradiation system (15), a liquid flow system (16), a spectroscopic system (11), a signal detection analysis processing system (14) and a PC display control system (13), the The liquid flow system (16) makes the cell sample flow in a straight line under the wrapping of the sheath flow, and the light source irradiation system (15) performs laser irradiation on the cell flow of interest marked by the fluorescent dye in the liquid flow system (16), The emission signal of the labeled fluorescence is excited, enters the signal detection analysis processing system (14) through the spectroscopic system (11) for signal detection, analysis and output, and the PC display control system (13) controls the The information of the signal detection analysis processing system (14) is displayed and stored, and the light source irradiation system (15), the liquid flow system (16) and the signal detection analysis processing system (14) are feedback controlled, and the liquid flow system (16) It comprises a flow chamber (4), which has cells (5) flowing in a straight line in the flow chamber (4), a solid-state laser (1) as the excitation light source of the light source irradiation system, and the laser passes through a reflector (2), a plano-convex lens (3 ) converging on the flow chamber (4), further converging through the optical part integrated in the flow chamber (4), so that the laser light is irradiated on the cells (5) flowing in a straight line, it is characterized in that: the signal detection analysis processing system includes A side scatter detector (8), a yellow fluorescence channel detector (9) and a near-infrared fluorescence channel detector (10) respectively arranged behind the spectroscopic system (11) also include a forward scatter detector device (7), and a signal processing module connecting the forward scatter detector (7), side scatter detector (8), yellow fluorescent channel detector (9) and near-infrared fluorescent channel detector (10) (12).

2. The flow cytometer according to claim 1, characterized in that: a light blocking plate (6) is further arranged between the forward scatter detector (7) and the liquid flow system (16).

3. The flow cytometer according to claim 1, characterized in that: the side scatter detector (8), the yellow fluorescent channel detector (9) and the near-infrared fluorescent channel detector (10) form a detector The module (18), the flow chamber (4), the spectroscopic system (11) and the detector module (18) form a point-to-point imaging system (17).

4. The flow cytometer according to claim 1, 2 or 3, characterized in that: the forward scatter detector (7), the side scatter detector (8), the yellow fluorescent channel detector (9) and the near-infrared fluorescence channel detector (10) are multi-pixel photon counters.