This is a U.S. national phase of PCT/GB2003/003524 filed 13 Aug. 2003, claiming priority from GB 0301047.7 filed Jan. 16, 2003.
THIS INVENTION relates to a centrifugation device comprising a combined sample chamber and slide holder adapted to be mounted, with a microscope slide, in a centrifuge in a predetermined position, after placing, in the sample chamber, a fluid biological sample containing cells, the device being so-arranged that when the centrifuge is operated, a thin layer—ideally a monolayer of cells is deposited from the fluid onto a predetermined deposition area on the glass microscope slide. Such a centrifugation device is herein referred to as being “of the kind specified”.
Various forms of centrifugation device of the kind specified have been known in the past. Examples of such devices are disclosed, for example, in U.S. Pat. Nos. 4,391,710; 4,696,743; 4,853,188 and 4,874,582 and European Patents Nos. 0184374 and 0047840. Some examples have been reusable, that is to say it was possible and intended that after the device had been used to deposit cells from a fluid sample onto a first microscope slide, and the slide removed, the device could be cleaned, a fresh slide fitted, a fresh fluid sample placed in the sample chamber and the device again placed into the centrifuge and so on indefinitely. In these arrangements the slide is, of course retained by a releasable and re-attachable clip of some description. Some later centrifugation devices of the kind specified were of the single-use type, that is to say they were designed in such a way that they could not, or could not conveniently, be used more than once, thereby avoiding contamination problems resulting from improper cleaning procedures between uses. In view of their inevitably disposable nature, devices of the latter character have generally been largely of plastics in order to minimise production costs.
It is an object of the present invention to provide an improved centrifugation device of the single use type.
According to one aspect of the present invention there is provided a centrifugation device as herein defined comprising an integrally moulded body affording a base adapted for engagement with a microscope slide, structure on one side of the base defining a chamber for a fluid sample, with an opening for the introduction of fluid to said chamber, the base including an aperture and carrying a means for sealing the edges of such aperture with respect to the surface of a microscope slide placed across the base, or for allowing the passage of liquid but obstructing the passage of cells, the centrifugation device further including a back plate connected with the base plate by an integral hinge and a latch mechanism formed integrally with the remainder of the device and arranged, when the back plate is closed against the rear of a microscope slide engaged with the base, to locate the slide between the base and the cover plate and to hold the cover plate in this closed position until fracture of a retaining element from the integrally moulded body.
The catch arrangement preferably comprises a detent carried by the back plate adjacent the free edge of the latter and which, in operation, co-operates, in the closed position of the device, with a complementary latch carried by the body of the device and connected with said body by an integral live hinge, the catch arrangement further comprising a shield element which, in the condition of the device before use, is secured in a position in which it extends over the complementary latch at a predetermined distance from the integral live hinge of the said complementary latch, the arrangement being such that in the closed position, with the shield element still attached, the detent on the back plate is retained between the shield element and the complementary latch and the shield element counteracts a turning moment applied to the complementary latch as a result of tension in the back plate detent, whilst on breaking of a frangible retaining element holding the shield member in position relative to the device body, the shield element is able to move away from said complementary latch allowing the latter to swing away from the back plate detent for release of the back plate detent to allow the back plate to swing away from the body of the device, and to allow removal of the microscope slide.
The complementary latch may be provided with a retaining arm which engages a face of the detent on the back plate to push the detent across the abutment face of the latch as the latch tilts outwardly and backwards during the release of the detent after rupture of the connection of the shield member with the body part, and thus to ensure release of the detent from the latch.
An embodiment of the invention is described below by way of example with reference to the accompanying drawings in which:
Referring to
The base 14 is generally rectangular, as is the back plate 12, and the living hinge 22 extends along one vertical edge of the base 14 and the adjacent vertical edge of the back plate 12. The vertical edge of the back plate 12 remote from the living hinge 22 carries a detent 24 for co-operating with elements carried by the body 10 adjacent the edge of the base 14 remote from the living hinge 22 and which elements, together with detent 24, form a catch arrangement whereby the back plate may be secured in a closed position on the base 14 with a microscope slide, indicated at 26 in
In use of the device, a microscope slide is located between the back plate 12 and the base 14. (
The device is then mounted in a centrifuge (not shown) in such a manner that bosses 30 projecting from the sides of the back plate act as journals received in bearings provided by complementary slots in mounting structure within the centrifuge. When the centrifuge is at rest, the device rests in the centrifuge in a position in which the slide 26 is at an angle. When the centrifuge is spun up, the device pivots about the axis of bosses 30, into a position in which the slide is vertical. When the centrifuge is spun, the centrifugal force generated produces a rapid settling of the cells within the biological sample against the surface of the glass slide 26, within an area bounded by gasket 20 and these cells remain in a thin layer on the slide after the centrifuge is stopped. In order to ensure a more even distribution of cells across the exposed area of the slide during the centrifuging step, the sample chamber has a plurality of parallel baffle plates 17 extending alternately from opposite sides of the sample chamber, part-way across the latter and generally parallel with the bottom wall of the sample chamber. After the centrifuge is stopped, the centrifugation device removed from the centrifuge, and the slide carefully removed after opening of the back plate as described below.
Referring to
As a result of the arrangement described, it is not possible to open the back plate 12 without removal or displacement of the shield element 36 which, as described below, necessarily involves rupture of a connecting element. As indicated in
Number | Date | Country | Kind |
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0301047.7 | Jan 2003 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/GB03/03524 | 8/13/2003 | WO | 00 | 12/8/2005 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2004/063721 | 7/29/2004 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3676387 | Lindlof | Jul 1972 | A |
4696743 | Billington | Sep 1987 | A |
4853188 | Matsumi | Aug 1989 | A |
4874582 | Billington | Oct 1989 | A |
5679154 | Kelley et al. | Oct 1997 | A |
6162401 | Callaghan | Dec 2000 | A |
Number | Date | Country |
---|---|---|
0 184 374 | Jun 1986 | EP |
Number | Date | Country | |
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20060135337 A1 | Jun 2006 | US |