COVER MEMBER WITH ORIENTATION INDICIA

Abstract

A cover member for use in the treatment of a sample on a substrate is disclosed. The cover member has fluid flow features and is adapted for use in an instrument, such as a laboratory instrument. The cover member comprises at least one orientation feature detectable by the instrument for ascertaining an orientation of the cover member. An automated method for detecting orientation of a cover member in a sample treatment assembly is also disclosed, in which a processor compares data corresponding to one or more images collected from the sample treatment assembly, with data representing a reference image to determine if a cover member is in the sample treatment assembly.

Claims

1. A cover member comprising: a recess defining a reaction chamber configured to receive reagent; and an orientation indicia comprising one of a projection and a notch, wherein the orientation indicia is configured to prevent cooperation of the cover member into a slot of a sample holder when the cover member is not a first orientation with respect to the sample holder, wherein the orientation indicia is further configured to allow cooperation of the cover member into the slot of the sample holder when the cover member is in the first orientation with respect to the sample holder, wherein in the first orientation, the one of the projection and the notch is accommodated by a corresponding notch or projection at the slot of the sample holder.

2. The cover member according to claim 1, further comprising: at least one other orientation feature incorporated into the cover member, the at least one other orientation feature comprising a feature that is at least one of human readable and machine readable.

3. The cover member according to claim 2, wherein the feature that is at least one of human readable and machine readable is selected from a group comprising a word, number, label, image, line, pattern, arrow, annulus, physical marking, tactile feature and coloured element.

4. The cover member according to claim 2, wherein the at least one other orientation feature comprises a magnetic portion.

5. The cover member according to claim 4, wherein the magnetic portion has a polarity configured to repel cooperation of the cover member from the slot of the sample holder when the cover member is not in the first orientation, and wherein the polarity is configured to permit alignment of the cover member in the slot of the sample holder, when the cover member is in the first orientation.

6. The cover member according to claim 4, wherein the magnetic portion is configured to trigger a sensor in the sample holder or in an instrument configured to receive the sample holder when the cover member is in the sample holder.

7. The cover member according to claim 1, further comprising: at least one other orientation feature that is asymmetrically disposed off-centre relative to a longitudinal axis of the cover member that is perpendicular to a shorter and transverse axis of the cover member.

8. The cover member according to claim 7, wherein, along the longitudinal axis, the at least one other orientation feature is disposed closer to the one of the projection and the notch than to a longitudinal center of the cover member.

9. A sample holder, comprising: a plurality of slots; and either a notch or a projection at each of the slots, wherein each slot is configured to receive a cover member comprising: a recess defining a reaction chamber configured to receive reagent; and an orientation indicia comprising one of a projection or a notch configured to cooperate with a corresponding one of the notch or the projection of any of the slots of the sample holder, wherein the orientation indicia is configured to prevent cooperation of the cover member into any of the slots of the sample holder when the cover member is not in a first orientation with respect to the sample holder, wherein the orientation indicia is further configured to allow cooperation of the cover member into any of the slots of the sample holder when the cover member is in the first orientation with respect to the sample holder, wherein in the first orientation, the one of the projection or the notch of the cover member is accommodated by the corresponding one of the notch or the projection of any of the slots of the sample holder.

10. The sample holder according to claim 9, further comprising: at least one other orientation feature incorporated into the cover member, wherein the at least one other orientation feature is asymmetrically disposed off-centre relative to a longitudinal axis of the cover member that is perpendicular to a shorter and transverse axis of the cover member.

11. The sample holder according to claim 10, wherein, along the longitudinal axis, the at least one other orientation feature is disposed closer to the one of the projection or the notch of the cover member than to a longitudinal center of the cover member.

12. The sample holder according to claim 9, further comprising: at least one other orientation feature incorporated into the cover member, the at least one other orientation feature comprising a feature that is at least one of human readable and machine readable.

13. The sample holder according to claim 12, wherein the feature that is at least one of human readable and machine readable is selected from a group comprising a word, number, label, image, line, pattern, arrow, annulus, physical marking, tactile feature and coloured element.

14. The sample holder according to claim 12, wherein the at least one other orientation feature comprises a magnetic portion.

15. The sample holder according to claim 14, wherein the magnetic portion has a polarity configured to repel cooperation of the cover member from any of the slots of the sample holder when the cover member is not in the first orientation, and wherein the polarity is configured to permit alignment of the cover member in any of the slots of the sample holder, when the cover member is in the first orientation.

16. The cover member according to claim 14, wherein the magnetic portion triggers a sensor in the sample holder or in an instrument configured to receive the sample holder when the cover member is in the sample tray.

17. A system comprising: a sample holder comprising: a plurality of slots; and either a notch or a projection at each of the slots, wherein each slot is configured to receive a cover member comprising: a recess defining a reaction chamber configured to receive reagent; and an orientation indicia comprising one of a projection or a notch configured to cooperate with a corresponding one of the notch or the projection of any of the slots of the sample holder, wherein the orientation indicia is configured to prevent cooperation of the cover member into any of the slots of any of the recesses of the sample holder when the cover member is not in a first orientation with respect to the sample holder, wherein the orientation indicia is further configured to allow cooperation of the cover member into any of the slots of the sample holder when the cover member is in the first orientation with respect to the sample holder, wherein in the first orientation, the one of the projection or the notch of the cover member is accommodated by the corresponding one of the notch or the projection of any of the slots of the sample holder; and at least one hardware processor configured to implement: controlling an optical detection of the orientation indicia; and determining whether the orientation indicia indicates that the cover member is in the first orientation based on the optical detection.

18. The system according to claim 17, wherein the cover member further comprises at least one other orientation feature incorporated into the cover member which comprises a feature that is at least one of human readable and machine readable, wherein said feature is selected from a group comprising a word, number, label, image, line, pattern, arrow, annulus, physical marking, tactile feature and coloured element, and wherein the at least one hardware processor is further configured to implement: controlling another optical detection of the at least one other orientation indicia; and determining whether the at least one other orientation indicia indicates that the cover member in the first orientation based on the other optical detection.

19. The system according to claim 17, wherein the cover member further comprises at least one other orientation feature incorporated into the cover member which comprises a magnetic portion, and wherein the at least one hardware processor is further configured to implement: controlling magnetic detection of the at least one other orientation feature; and determining whether the at least one other orientation indicia indicates that the cover member is in the first orientation based on the magnetic detection.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0029] The present invention will now be described in greater detail with reference to the accompanying drawings. It is to be understood that the embodiments shown are examples only and are not to be taken as limiting the scope of the invention as defined in the claims appended hereto.

[0030] FIG. 1 is a schematic illustration of a cover member according to an embodiment of the invention.

[0031] FIG. 2 is a schematic illustration showing cover members in a sample holder, with one of the cover members in an incorrect orientation.

[0032] FIG. 3 is an isometric view of part of a sample holder loaded with slides and cover members.

[0033] FIG. 3A is an enlarged view of the region A identified in FIG. 3.

[0034] FIG. 4 is a flow chart demonstrating steps in an automated method for detecting presence or absence of a cover member in a treatment assembly, according to an embodiment of the invention.

[0035] FIG. 5 is a schematic illustration of an automated instrument with which the cover member and/or the method of the present invention may be used.

DETAILED DESCRIPTION

[0036] Referring firstly to FIG. 1, there is shown a cover member 100 of the type that is used for processing a sample a substrate such as a slide 300, using an automated instrument 500. An example of an automated instrument, with the external casing removed is illustrated in FIG. 5. FIG. 5 shows internal components of the instrument including robotic gantry 502 and probes 504, 506 for dispensing reagent into the designated areas of slide staining modules when loaded in the instrument. The instrument illustrated in FIG. 5 is not yet loaded with slide staining modules in the form of a sample holder prepared with a plurality of slides and respective cover members.

[0037] The cover member has fluid control features such as nib 102 onto which reagent is dispensed for reactions inside reaction chamber 110. In the embodiment illustrated, three orientation features are incorporated: (1) ring 104 which is configured for optical recognition by the instrument with which the cover member is used, (2) human and/or machine readable label 106 represented by the word “Leics”, and (3) a tab 108 in the form of a projection which is configured to cooperate with a recess in a sample holder with which the cover member is used.

[0038] FIG. 2 shows a sample holder 200 in the form of a slide tray, which holds ten slides each identified by reference numeral 300. It is to be understood however that the slide holder may hold as few as 1, 2 or 3 slides, or as many as 12, 15, 20 etc. The sample holder has slots 201, 202, . . . 210 which contain slides 300 and cover members. Slide slots 201 to 208 and 210 each contain the cover member 100 in the correction orientation, ascertainable by the label “Leics” being oriented so that it can be read from left to right. If the label was inverted, the label “Leics” would not be visible (as it would be facing the slide rather than the user) and in the case of transparent cover members, it would be reversed so that on visual inspection, it is obvious that the cover member is not correctly oriented within the sample holder 200. In slot 209, it is easily ascertained that the cover member 100a is incorrectly orientated because the label “Leics” is not visible.

[0039] Furthermore, In FIG. 2 cover member 100a is not correctly positioned within the slot 209 of sample holder 200. This is readily ascertainable because cover member 100a is not in the orientation seen in slots 201 to 208 and 210. Cover member 100a cannot be placed in the sample holder 200 because the orientation is incorrect (it has been inverted) and tab 108 precludes the cover member 100a from sitting correctly in the tray.

[0040] FIG. 3 provides an isometric view of part of the sample holder in FIG. 2, with an encircled region labelled A, providing closer detail of the tab 108. An enlarged version of region A is shown in FIG. 3A which also shows recess 218 in the sample holder 200 in which the tab 108 sits when the cover member is correctly orientated. In slot 209 of the sample holder, the tab 108 on the cover member prevents the cover member from sitting correctly in the slide slot.

[0041] In a preferred embodiment, the machine-readable orientation feature 104 is a ring configured to be identified by the instrument 500. The feature may be readily visible to the human operator but need not be. Thus, it may be replaced by or incorporated into a magnetic, radio frequency, infra-red, or other machine-readable element that can be adapted for automatic detection by the instrument. In the embodiment illustrated, ring 104 is a substantially circular annular feature that is detectable by the instrument prior to performing a processing run on samples in the instrument. This enables the instrument system to notify a user that it detects a cover member is not present on a slide, or the cover member has been incorrectly loaded, i.e. in the wrong orientation.

[0042] Ideally, the feature 104 is positioned off-centre from the centreline 120 of the cover member 100 so that if the cover member is transparent and inverted, the feature 104 will not appear in the image collected by the instrument. Preferably, the feature is annular with a substantially semi-circular cross section. In the embodiment illustrated the annulus has a cross-sectional radius of about 2 mm giving rise to a feature height of 0.2 mm which is detectable by the instrument and also providing tactile feedback to a user.

[0043] The machine-readable feature may be moulded as part of the cover member material, or it may be applied to the surface of the cover member. Preferably, the feature 104 is circular so that the system is unsusceptible to relative rotation between the cover member and the imaging device (not shown) in the instrument.

[0044] FIG. 4 is a schematic illustration representing interaction between data obtained by an imager (such as a scanner or camera in the instrument) and a processor 410 for performing a method for detecting automatically an orientation (including presence or absence) of a cover member 100 in a sample treatment assembly such as an instrument 500. The method includes receiving at processor 410 data 412 representing one or more images collected from the sample treatment assembly as well as data 414 representing a reference image. The reference image data represents a “template” of the image that the system is looking for to ascertain the orientation of the cover member. In the embodiment illustrated, this is a ring 104.

[0045] The received data representing collected images may contain images representing a plurality of slides in the sample treatment assembly which have been imaged simultaneously. This may enhance processing efficiency, when automatically ascertaining the orientation of more than one cover member in the assembly. Alternatively, the received data representing collected images may pertain to a plurality of slides in the sample treatment assembly, but which have been individually imaged in sequence, rather than simultaneously.

[0046] The processor compares reference image data 414 and collected image data 412 to produce a correlation value 420. The correlation value represents how well the image represented by the collected data 412 matches the reference image represented by the reference data 410. This may be achieved using software algorithms designed to compare image data e.g. using iterative techniques. A threshold value is stipulated (typically pre-defined in the algorithm) and when processor 410 determines that the correlation value 420 exceeds the threshold 430, a determination can be made that the cover member 100 is present in the instrument and correctly oriented. In the event that the correlation value 420 does not exceed the threshold 430, then a negative result ensues which typically prompts an error signal for the user to check the presence and orientation of the cover member.

[0047] Outputs from the processor may include e.g. a cropped version of the collected image and this may be saved to a storage module in the instrument as evidence of the region that correlated most highly with the reference image; the x and y coordinates of the detected image may also be included. The correlation value may also be stored as well as the final detection result (i.e. true/false). This data can be used in event logs generated by the instrument and audit trails aimed at enhancing efficient operation of the instrument and optimising its use.

[0048] The automated method may be embodied in machine-readable code representing instructions executable by processor 410 to perform the method described herein. That code may be updated from time to time e.g. to improve efficiency of image matching algorithms.

[0049] Where the terms “comprise”, “comprises”, “comprised” or “comprising” are used in this specification (including the claims) they are to be interpreted as specifying the presence of the stated features, integers, steps or components, but not precluding the presence of one or more other features, integers, steps or components or group thereof.

[0050] It is to be understood that various modifications, additions and/or alterations may be made to the parts previously described without departing from the ambit of the present invention as defined in the claims appended hereto.

[0051] It is to be understood that the following claims are provided by way of example only, and are not intended to limit the scope of what may be claimed.