The present invention relates to a blood cell agglutination image determining method and a blood cell agglutination image determining apparatus for determining a blood type, an infectious disease, or the like in the medical field.
Tube tests, column agglutination technology, or plate settling methods in general have been conventionally known as a method for examining blood, e.g., a method for determining a blood type, on the basis of a reaction image from an antigen-antibody reaction.
In the tube tests, 50 μL of blood cells as a reagent and 50 μL of blood plasma as a sample are dispensed into a tube having an internal diameter of 10 mm, and are processed by centrifugation (900 G to 1,000 G, 15 seconds), so that blood cell pellets formed by the agglutination reaction between the blood cells and the blood plasma will be precipitated at the bottom of the tube. Subsequently, a blood type is determined from a result of agglutination (positive) or non-agglutination (negative), which is determined by visual observation on the basis of either blood cell agglutinates or un-agglutinated blood cells that are the blood cell pellets precipitated at the bottom of the tube, but re-suspending as blood cell agglutinates or un-agglutinated blood cells by the agitating of the tube (see, for example, Non-Patent Literature 1).
In the column agglutination technology, a blood type is determined, using a column in which inactive particles and an aqueous medium are filled, from a result of agglutination (positive) or non-agglutination (negative), which is determined by optically visualizing a complex obtained by the agglutination reaction between a carrier binding antibody and an antigen in the aqueous medium, or a complex obtained by the agglutination reaction between a carrier binding antigen and an antibody, when the blood of an examination subject is dispensed into the column (see, for example, Patent Literature 1).
In the plate settling method, using a microplate having a plurality of wells arranged in a matrix, a blood type is determined from a result of agglutination (positive) or non-agglutination (negative), which is determined on the basis of a blood cell agglutination image of a blood sample and a reagent dispensed into each of the wells (see, for example, Patent Literature 2).
The present invention provides a blood cell agglutination image determining method comprising: a reaction step of allowing a blood sample to react with a reagent in a reaction container; a centrifugation processing step of rotating the reaction container so that a bottom wall of the reaction container will turn outwards by centrifugal force; an inclining step of inclining the reaction container so that a front part of the reaction container along the rotating direction in the centrifugation processing step will be downwards with respect to the vertical direction more than a back part of the reaction container; and a determining step of determining the blood sample to be positive or negative on the basis of a blood cell agglutination image from a reaction formed in the reaction container between the blood sample and the reagent.
In another aspect, the blood cell agglutination image determining method according to the present invention is a blood cell agglutination image determining method for determining a blood sample to be either positive or negative on the basis of a blood cell agglutination image of a reaction between the blood sample and a reagent in a reaction container, characterized by comprising: a centrifugation processing step of rotating the reaction container so that a bottom wall of the reaction container will turn outwards by centrifugal force; and an inclining step of inclining the reaction container so that a front part of the reaction container along the rotating direction in the centrifugation processing step will be downwards with respect to the vertical direction more than a back part of the reaction container.
In one embodiment, with regard to the blood cell agglutination image determining method according to the present invention, in the invention above, the reaction container is a well formed in a microplate.
In one embodiment, with regard to the blood cell agglutination image determining method according to the present invention, in the invention above, a tiered portion is formed on an inner surface of a bottom wall of the reaction container or well, and the blood cell is a red blood cell.
In one embodiment, with regard to the blood cell agglutination image determining method according to the present invention, in the invention above, after the reaction or inclining step, the method further comprises: a canceling step of canceling the inclination of the reaction container; an image-capturing step of capturing an image of the reaction container, inclination of which is canceled; an image processing step of processing an image of the reaction container including a reaction image captured in the image-capturing step, and calculating a determination value on the basis of the image of the reaction container; and a determining step of determining the blood sample to be positive or negative on the basis of the determination value calculated in the image processing step. Alternatively, with regard to the blood cell agglutination image determining method according to the present invention comprising the determination step, in the invention above, after the inclining step, the method further comprises: a canceling step of canceling the inclination of the reaction container; an image-capturing step of capturing an image of the reaction container, inclination of which is canceled; and an image processing step of processing an image of the reaction container including a reaction image captured in the image-capturing step, and calculating a determination value on the basis of the image of the reaction container, wherein the determining step comprises a determining step of determining the blood sample to be positive or negative on the basis of the determination value calculated in the image processing step.
In various embodiments, the method according to the present invention comprises any two or more of the characteristics described above.
In another aspect, the present invention provides a blood cell agglutination image determining apparatus comprising: a reaction container housing section for housing a reaction container for allowing a blood sample to react with a reagent therein; rotating means for rotating the reaction container so that a bottom wall of the reaction container will turn outwards by centrifugal force; inclining means for inclining the reaction container so that a front part of the reaction container along the rotating direction will be downwards with respect to the vertical direction more than a back part of the reaction container; and determining means for determining the blood sample to be positive or negative on the basis of a blood cell agglutination image from a reaction formed in the reaction container between the blood sample and the reagent.
Further, the blood cell agglutination image determining apparatus according to the present invention is a blood cell agglutination image determining apparatus for determining a blood sample to be either positive or negative on the basis of a blood cell agglutination image of a reaction between the blood sample and a reagent in a reaction container, the apparatus comprising: rotating means for rotating the reaction container so that a bottom wall of the reaction container will turn outwards by centrifugal force; and inclining means for inclining the reaction container so that a front part of the reaction container along the rotating direction will be downwards with respect to the vertical direction more than a back part of the reaction container.
In one embodiment, with regard to the blood cell agglutination image determining apparatus according to the present invention, in the invention above, the reaction container is a well formed in a microplate.
In one embodiment, with regard to the blood cell agglutination image determining apparatus according to the present invention, in the invention above, a tiered portion is formed on an inner surface of a bottom wall of the reaction container or well, and the blood cell is a red blood cell.
In one embodiment, with regard to the blood cell agglutination image determining apparatus according to the present invention, in the invention above, the rotating means comprises: a motor; and a rotor rotated by the motor, and the reaction container housing section comprises a bucket for retaining the reaction container or a microplate, the bucket being swingably supported by the rotor around the horizontal axis.
In one embodiment, with regard to the blood cell agglutination image determining apparatus according to the present invention comprising determining means, in the invention above, the apparatus further comprises: image-capturing means for capturing an image of the reaction container; and image processing means for processing an image of the reaction container including a reaction image captured by the image-capturing means, and calculating a determination value on the basis of the image of the reaction container, wherein the determining means comprises determining means for determining the blood sample to be positive or negative on the basis of the determination value.
In one embodiment, with regard to the blood cell agglutination image determining apparatus according to the present invention comprising determining means, in the invention above, the apparatus further comprises: image-capturing means for capturing an image of a plurality of the wells; and image processing means for processing an image of each of the wells including a reaction image captured by the image-capturing means, and calculating a determination value on the basis of the image of each of the wells, wherein the determining means comprises determining means for determining the blood sample to be positive or negative for each of the wells on the basis of the determination value.
In one embodiment, with regard to the blood cell agglutination image determining apparatus according to the present invention, in the invention above, the apparatus comprises: image-capturing means for capturing an image of a plurality of the wells; image processing means for processing an image of each of the wells including a reaction image captured by the image-capturing means, and calculating a determination value on the basis of the image of each of the wells; and determining means for determining the blood sample to be positive or negative on the basis of the determination value.
In one embodiment, with regard to the blood cell agglutination image determining apparatus according to the present invention, in the invention above, the inclining means comprises: holding means for holding an outer edge of the reaction container housing section; revolving means for revolving the holding means to incline the reaction container housing section so that a shorter side of the reaction container in the front of the rotating direction will be downwards with respect to the vertical direction; and elevating means for elevating the revolving means together with the holding means.
In one embodiment, with regard to the blood cell agglutination image determining apparatus according to the present invention, in the invention above, the rotating means comprises: a motor; and a rotor rotated by the motor, wherein the reaction container housing section comprises a bucket for retaining the microplate, the bucket being swingably supported by the rotor around the horizontal axis, and wherein the inclining means comprises: holding means for holding an outer edge of the bucket; revolving means for revolving the holding means to incline the bucket so that a shorter side of the microplate in the front of the rotating direction will be downwards with respect to the vertical direction; and elevating means for elevating the revolving means together with the holding means.
In various embodiments, the apparatus according to the present invention comprises any one or a plurality of (two or more) of the characteristics described above of the blood cell agglutination image determining apparatus and method according to the present invention.
In another aspect, the present invention provides a control program for sample processing in a blood cell agglutination image determining apparatus for determining a blood sample to be positive or negative on the basis of a blood cell agglutination image of a reaction between the blood sample and a reagent in a reaction container, the control program for implementing processing that is executed by the blood cell agglutination image determining apparatus in accordance with an instruction from an operator, the processing comprising: a centrifugation processing procedure for rotating the reaction container so that a bottom wall of the reaction container will turn outwards by centrifugal force; and an inclining procedure for inclining the reaction container so that a front part of the reaction container along the rotating direction in the centrifugation processing step will be downwards with respect to the vertical direction more than a back part of the reaction container.
In various embodiments, the program according to the present invention comprises any one or a plurality of the characteristics described above of the apparatus and method according to the present invention.
In another aspect, the present invention provides a computer-readable recording medium recording a control program for sample processing in a blood cell agglutination image determining apparatus for determining a blood sample to be positive or negative on the basis of a blood cell agglutination image of a reaction between the blood sample and a reagent in a reaction container, the control program for implementing processing that is executed by the blood cell agglutination image determining apparatus in accordance with an instruction from an operator, the processing comprising: a centrifugation processing procedure for rotating the reaction container so that a bottom wall of the reaction container will turn outwards by centrifugal force; and an inclining procedure for inclining the reaction container so that a front part of the reaction container along the rotating direction in the centrifugation processing step will be downwards with respect to the vertical direction more than a back part of the reaction container.
In various embodiments, the recording medium according to the present invention comprises any one or a plurality of the characteristics described above of the apparatus and method according to the present invention.
According to the present invention, a reaction container is rotated so that a bottom wall of the reaction container will turn outwards by centrifugal force, and the reaction container is inclined so that a front part of the reaction container along the rotating direction will be downwards with respect to the vertical direction more than a back part of the reaction container. Thereby the present invention exerts an effect of providing a blood cell agglutination image determining method and a blood cell agglutination image determining apparatus capable of processing a blood sample in a shorter time and obtaining a reproducible determination result.
Hereinafter, embodiments of a blood cell agglutination image determining method and a blood cell agglutination image determining apparatus according to the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the present invention will not be limited by the present examples.
The casing 2 includes a door 2a as a lid for capping in a freely openable and closable manner in the upward direction, and the rotor 3 is positioned within a chamber 2b.
As illustrated in
As illustrated in
The inclining apparatus 7 is provided for each bucket 4, and is means for inclining the microplate 5, with a shorter side Ss (see
As illustrated in
A CCD camera 8 is means for capturing images of a plurality of wells 5a of a microplate 5, and the CCD camera 8 outputs image signals of a plurality of captured wells 5a to an image processing section 11. As illustrated in
Alighting 9 is lighting means, such as a fluorescent lamp, provided for a lower part of the inner wall of the chamber 2b, for lighting the microplate 5 from below.
The image processing section 11 performs image processing on an image of each well 5a on the basis of the image signals of the plurality of wells 5a that are inputted from the CCD camera 8, calculates a determination value for each well 5a, and outputs the thus obtained determination value for each well 5a to a determination section 12a.
The control section 12 controls respective sections by providing instructions of operation timing, transferring data, or the like to the respective sections that constitute the blood cell agglutination image determining apparatus 1, to control the operation of the overall blood cell agglutination image determining apparatus 1 collectively. The control section 12 constitutes a microcomputer or the like with a built-in memory for retaining various data necessary for the operation of the blood cell agglutination image determining apparatus 1, in addition to determination results regarding the blood type of each blood sample on the basis of the determination result of each well 5a or determination results of a plurality of wells 5a; and as illustrated in
For example, in determining a blood type, the blood cell agglutination image determining apparatus 1 constituted as described above dispenses undiluted blood plasma, or blood plasma diluted down to a predetermined concentration with physiological saline, and determines the blood sample to be either positive or negative for each well 5a of the microplate 5 on the basis of an agglutination image resulted from the reaction between the blood plasma and blood cells when the blood cells were dispensed at a predetermined ratio. Here, a reaction step of allowing a blood sample and a reagent to react with each other in a reaction container may be in progress at any time in relation to a centrifugation processing step and an inclination step. The reaction step may be in progress prior to either or both of those steps, or the reaction step may be in progress in parallel to, or after, those steps.
Here, if the blood plasma and blood cells react with each other to form an agglutination image, then the sample is positive; and if an agglutination image fails to form, then the sample is negative. Additionally, for the case of ABO typing for examining the blood type of red blood cells, red blood cells taken from blood are used as a blood sample, and an anti-A antibody and an anti-B antibody for determining the blood type are used as reagents. Further, for the case of ABO reverse testing for examining the blood type of blood plasma (blood serum), the blood plasma (blood serum) is used as a blood sample, and a type-A red blood cell suspension and a type-B red blood cell suspension are used as reagents, where type-A red blood cells of blood of a known blood type are suspended in physiological saline, and type-B red blood cells of blood of a known blood type are suspended in physiological saline. Hereinafter, an explanation will be provided with a case of the ABO reverse testing for examining the blood type of blood plasma (blood serum).
First, the blood plasma (blood serum) of an object for determination is dispensed to two wells 5a, then the type-A red blood cell suspension and the type-B red blood cell suspension are dispensed in these two wells 5a, and the microplate 5 after the dispensing is attached to a bucket 4. Then, the door 2a of the blood cell agglutination image determining apparatus 1 is opened upwards, and two of such buckets 4 each having a microplate 5 attached thereto are retained by the rotor 3 within the chamber 2b.
Here, the engagement groove 4b (see
Next, the operator closes the door 2a of the blood cell agglutination image determining apparatus 1, turns on the switch of the blood cell agglutination image determining apparatus 1, and presses a blood cell agglutination process determining button. Then, in accordance with a pre-set program, the blood cell agglutination image determining apparatus 1 drives the motor 6 to rotate the rotor 3, thus performing centrifugation processing on the microplates 5. Hereinafter, a blood cell agglutination image determining method according to the present invention will be described in detail on the basis of the flowchart illustrated in
First, under the control of the control section 12, the blood cell agglutination image determining apparatus 1 rotates the rotor 3 to perform centrifugation processing on the microplates 5 (step S100). While blood cells are separated out towards the side closer to the bottom wall 5b by the centrifugation processing, the control section 12 controls the rotation of the microplates 5 by the motor 6 so that the blood cells will not be completely pressed against the bottom wall 5b. For such controlling, the control section 12 controlled the motor 6 so that the rotor 3 rotated at a rotation rate of 1,000 rotations per minute (200G) for 15 seconds. In each well 5a, an agglutination reaction starts due to the antigen-antibody reaction between antibodies present in the blood plasma (blood serum) and antigen epitope present on the surfaces of the red blood cells. Thus, not only non-agglutinated blood cells, but also an agglutination mass produced due to the agglutination reaction, are included in the blood cells moving towards the side closer to the bottom wall 5b.
Here,
Next, the blood cell agglutination image determining apparatus 1 inclines each microplate 5 so that the shorter side Ss (see
Here,
First, the blood cell agglutination image determining apparatus 1 drives the inclining apparatus 7 so that the chuck 71 holds the outer edge of the longer side of the bucket 4 by two holding pawls 71a. Thereafter, the revolving motor 72 is raised by the elevating device 73, and the bucket 4 is detached from the rotor 3 as illustrated in
After a lapse of two minutes, the blood cell agglutination image determining apparatus 1 drives the inclining apparatus 7 in the opposite direction from the description above to allow the rotor 3 to retain the bucket 4, and the incline of the microplate 5 is canceled (step S104). As a result the microplate 5 is retained horizontally with the bucket 4 (see
Next, the blood cell agglutination image determining apparatus 1 allows the CCD camera 8 to capture images of a plurality of the wells 5a of the microplate 5 (step S106). At this stage, since the microplate 5 is lighted by the lighting 9 from below as illustrated in
The image processing section 11 performs calculation, for example, with a determination parameter P/C of an agglutination reaction, which is obtained by multiplying a value Lp/Lc of the ratio between an average amount of light Lp in the periphery part and an average amount of light Lc in the center part of a well 5a by ten, as a determination value. Here, if the blood plasma (blood serum) is negative with respect to red blood cells for example, then the red blood cells will precipitate at the deepest part in the center of the bottom wall 5b of the well 5a, without causing an agglutination reaction. For this reason, in the reaction image of the well 5a as illustrated in
On the other hand, if the blood plasma (blood serum) is a weak positive sample indicating a moderate reactivity with respect to red blood cells for example, then the red blood cells are defined to be halfway between agglutination and non-agglutination. Thus, if such weak positive blood plasma (blood serum) is processed in a similar manner, then in the reaction image of the well 5a as illustrated in
If the blood plasma (blood serum) is a strongly positive sample indicating a strong reactivity with respect to red blood cells for example, then a fine agglutination mass is produced due to a reaction between the antigen present on the surfaces of red blood cells and the antibody present in the blood plasma (blood serum). Thus, if such strongly positive blood plasma (blood serum) is processed in a similar manner, then it disperses in a particle form throughout the well 5a. Accordingly, in the case of a strongly positive sample, the average amount of light Lp in the periphery part P of the well 5a and the average amount of light Lc in the center part C of the well 5a are almost equal in the reaction image of the well 5a. As a result, the value of the determination parameter P/C becomes within the range of 10 to 15. If the value of the determination parameter P/C becomes within the range of 30 to 40, then automatic determination cannot be made.
After image processing, the determination section 12a determines the blood plasma (blood serum) to be either positive or negative for each well 5a on the basis of the determination parameter P/C calculated by the image processing section 11 (step S110). Then, the determination section 12a determines the blood type of the blood plasma (blood serum) on the basis of the determination result made for each well 5a (step S112).
After determination of the blood type is finished, the operator opens the door 2a of the blood cell agglutination image determining apparatus 1 upwards, and detaches the bucket 4 retaining the microplate 5 from the rotor 3. Next, the microplate 5 is removed from the bucket 4, and then the bucket 4 retains a new microplate 5, in which new blood plasma (blood serum) of an object for determination is dispensed to two wells 5a, then a type-A red blood cell suspension and a type-B red blood cell suspension are dispensed in these two wells 5a. Similar to the case described above, the bucket 4 retaining the new microplate 5 is supported by the rotor 3 within the chamber 2b to repeat the blood cell agglutination image determining method.
As described above, according to the present invention, the microplate 5 is rotated to separate blood cells out towards the side closer to the bottom wall 5b, and then, the microplate 5 is inclined so that the side of the microplate 5 in the front of the rotating direction will be downwards with respect to the vertical direction to allow the reagent to react with the blood sample, and on the basis of the reaction image, the blood sample is determined to be either positive or negative for each well 5a. For this, the present invention requires only 15 seconds for the centrifugation processing to move blood cells towards the side closer to the bottom wall 5b of the microplate 5, and requires only 2 minutes to incline the microplate 5 and allow the reagent to react with the blood sample. Owing to this, even if the time required for dispensing the reagent and sample, attaching and detaching the plate to and from the bucket, and the like, and additionally for the determination, is considered, the present invention is capable of processing blood samples in a shorter time compared to the conventionally performed tube tests, column agglutination technology, or plate settling methods, thereby obtaining a reproducible determination result. Further, since the present invention determines the blood sample to be either positive or negative by centrifugation processing and inclination processing of the microplate into which the blood sample and reagent are dispensed, the determination can be performed at lower cost compared to the conventionally utilized tube tests or column agglutination technology.
Hereinafter, an example of the present invention will be described.
In the meantime,
As apparent from the diagrams illustrated in
Here, the blood cell agglutination image determining method according to the present invention and a tube test, as a comparative example of the present invention, were used to determine a blood sample three times each. In such tube testing, the intensity of agglutination is represented in such a manner as “1+” and “2+”, where “2+” represents a weak positive image that can be comparatively easily determined from negative, while “1+” represents a weak positive image that requires some level of performance to determine the sample as positive (see Non-Patent Literature 1). While the determination results of the tube test for a weak positive blood sample varied from “2+” to “1+”, reaction images that were able to be readily determined to be positive were always formed using the blood cell agglutination image determining method according to the present invention, and the blood cell agglutination image determining method according to the present invention was superior to the tube test with regard to the reproducibility in the determination results of the weak positive blood sample.
Additionally, as another comparative example of the present invention, the blood cell agglutination image determining method was performed under the same conditions as described above by the blood cell agglutination image determining apparatus 1, using a microplate having the same number of wells W as the microplate 5, except that the inner surface of each bottom wall is processed to be a smooth U-shape and adjacent wells are closer to each other. The result thereof will be illustrated in
Here,
In the blood cell agglutination image determining method according to the present invention, it should be noted that after performing the centrifugation processing and inclination processing of the microplate 5, the microplate 5 may be taken out of the blood cell agglutination image determining apparatus 1 to make a determination of being positive or negative by visual observation. However, making a determination in the blood cell agglutination image determining apparatus 1 provides an advantage of obtaining a determination result on the basis of a constant standard.
While the image processing section 11 performs calculation with the determination parameter P/C as a determination value in the embodiment described above, the embodiment is not limited to this. For example, the average amount of light Lc in the center part C, or other determination parameters may be used, and moreover, it is also possible to combine and use these determination parameters to determine if a blood sample is positive or negative.
Further, while the wells 5a of the microplate 5 are used as reaction containers in the embodiment described above, a reaction container of an individually independent well 5a may be used instead of the wells 5a.
A control program for controlling the processing executed by the blood cell agglutination image determining apparatus 1 is installed on a storage section (not shown) of the control mechanism 12 illustrated in
Once the control program is installed on a computer, the computer will function as a part or all of the control section 12 (
As described above, the present invention is exemplified by the use of its preferred embodiment. However, the present invention should not be interpreted solely based on the embodiment described above. It is understood that the scope of the present invention should be interpreted solely based on the claims. It is also understood that those skilled in the art can implement equivalent scope of technology, based on the description of the present invention and common knowledge from the description of the detailed preferred embodiment of the present invention. Furthermore, it is understood that any patent, any patent application and any references cited in the present specification should be incorporated by reference in the present specification in the same manner as the contents are specifically described therein.
The present application claims priority to Japanese Patent Application No. 2009-293376, and it is understood that the entire contents of which are incorporated by reference herein as a part constituting the present specification in the same manner as the contents are specifically described in the present specification.
As described above, the blood cell agglutination image determining apparatus and blood cell agglutination image determining method according to the present invention are useful for processing and determining a blood sample in a simple manner and in a shorter time.
Number | Date | Country | Kind |
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2009-293376 | Dec 2009 | JP | national |
Number | Date | Country | |
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Parent | PCT/JP2010/007451 | Dec 2010 | US |
Child | 13530041 | US |