WO2023001451A1 - Sectional slide collecting device for use in a microtome or ultramicrotome - Google Patents

Abstract

The present invention relates to a sectional slide collecting device (1) which is designed to successively receive sectional slides produced by a microtome or ultramicrotome (38), comprising a housing (2) of cassette-like configuration, in which a first coil former (3) is arranged such that it can be rotated about a first rotational axis (A1) and a second coil former (4) is arranged such that it can be rotated about a second rotational axis (A2), a sectional slide collecting belt (8) which is preferably produced from plastic, extends between the coil formers (3, 4), and the end portions of which are wound partially onto the coil formers (3, 4), a gear device (5) which transmits the rotational movement of a motor unit (22) to one or to the two coil formers (3, 4), belt guides (6) which are arranged within the housing (2) and guide the sectional slide collecting belt (8) in the region between the coil formers (3, 4), and a sectional slide receiving device (7) which is designed to receive, so as to guide it, a sectional slide collecting belt portion which is guided out of the housing (2) through a housing opening (12).

Description

DESCRIPTION Section collection device for use in a microtome or ultramicrotome

The present invention relates to a section preparation collecting device which is designed to successively receive section preparations produced with a microtome or ultramicrotome. Furthermore, the invention relates to a microtome or an ultramicrotome, a plasma treatment device and a microscope in which such a section preparation collecting device is used. Microtomes and ultramicrotomes are generally known in the prior art. They are used to create very thin sections of samples for subsequent microscopic examinations. The section thickness of microtomes is about 5 miti, that of ultramicrotomes about 25 to 100 nm. To process a sample in a microtome or ultramicrotome, it is embedded, then fixed in a sample holder of the device and then cut using a cutter. With conventional microtomes and ultramicrotomes, the sections produced in this way then fall into a water bath from which they are removed manually. The sections can then be examined directly or prepared in advance for a subsequent examination. One disadvantage is that the manual removal of the sections from the water bath is very time-consuming and prone to errors. A further developed ultramicrotome, which is available on the market under the trade name "ATUMtome", has an automated section preparation device which is designed to sequentially pick up sections generated with the ultramicrotome. The section preparation collecting device has a comparatively large standing housing, inside which a drive is arranged. On the side of the housing, a section preparation collecting tape is guided between two coil formers via several tape guides and a section preparation receiving device which is fastened to the housing and protrudes outwards from the housing and can be moved by a motor. The section preparation receiving device is designed as an arm fixedly mounted on the housing, the free end of which is provided with a belt deflection. This free end is positioned immediately below the cutting device of the ultramicrotome in order to receive and collect the freshly cut sections on the section collection belt. The section collection band is designed as a polymer band and should be pretreated with plasma to give it improved wettability before it is then manually threaded into the section collection device. After the section preparations have been collected, the section preparation collection tape is then manually removed again from the section preparation collecting device in order to further process the section preparations collected on it. A major disadvantage of this known ultramicrotome is that the handling of the collection of section preparations between individual work steps, in particular between the treatment of the collection of section preparations with plasma and the production of the section preparations and/or between the production of the section preparations and staining or Contrasting the same and / or microscopy, is very cumbersome and time-consuming. A further disadvantage is that the section preparation collecting device cannot be used in cryo-ultramicrotomes due to the comparatively large housing. Proceeding from this state of the art, it is an object of the present invention to at least partially eliminate the aforementioned disadvantages.

To solve this problem, the present invention provides a section preparation-collecting device that is designed to sequentially record section preparations produced with a microtome or ultramicrotome, comprising a cassette-like housing in which a first coil body can be rotated about a first Axis of rotation and a second spool body are arranged so as to be rotatable about a second axis of rotation, a cut collecting belt, preferably made of plastic, which stretches between the spool body and whose end sections are partially wound onto the spool body, a transmission device which transfers the rotary motion of a motor unit to one or both Bobbin transfers within the housing to ordered tape guides that lead the section preparation collection tape in the area between the bobbins, and a section preparation recording device, which is designed to a guided through a housing opening from the housing section preparation collection take up the tape section as a leader. Thanks to the fact that the housing has a cassette-like design and the coil body, the tape guides and the section collection tape are positioned within the housing, the section preparation collection device according to the invention can be handled and transported very easily in the manner of a video or audio cassette and can be attached to a wide variety of devices Position devices that are used to pretreat the section collection band, to create section preparations, to prepare the section preparations produced and/or to examine them. Accordingly, manual handling of the cut collection tape is no longer required. In addition, the section preparation collection device according to the invention can be used very flexibly. According to one embodiment of the present invention, the gear unit has a first gear wheel, which is arranged to be rotatable about the first axis of rotation, a second gear wheel, which is arranged to be rotatable about the second axis of rotation, and a third gear wheel, which is arranged to be rotatable about a third axis of rotation and which is engages the first gear and the second gear and drives them at a uniform speed. One of the gears is driven before geous directly on the motor unit. In this way, a very simple structure of the transmission device is created with a few individual components.

Advantageously, the first gear wheel and the first coil body are rotatable relative to one another about the first axis of rotation and are connected to one another via a spiral spring and/or the second gear wheel and the second coil body are arranged to be rotatable relative to one another about the second axis of rotation and are connected to one another via a spiral spring . This design allows relative rotation between the gear wheel and the spool against the spring force of the coil spring used to automatically tension the trimming collection belt.

Preferably, the tape guides are at least partially designed as rotatably mounted guide rollers in the Ge housing, as a result of which the mechanical reliability is improved. Alternatively or additionally, the guide rollers and/or the bobbins can be coated, for example with a PTFE coating or the like, in order to set the friction between the corresponding component and the section preparation collection tape as desired.

According to one embodiment of the present invention, the cutting preparation rat receiving device is web-like and is provided with a belt deflection in the region of its free end pointing away from the housing. on in this way, a filigree structure is achieved, which makes it possible to easily arrange the section preparation recording device at desired positions under different devices.

Advantageously, the section preparation receiving device is movably accommodated on the housing between a transport position in which it is arranged within the housing and a receiving position in which its free end protrudes outwards from the housing, with locking means being provided for this purpose are designed to lock the section specimen receiving device at least in its receiving position. In the transport position of the section preparation receiving device, the section preparation collecting device can be transported and stored much better without running the risk of the collected section preparations being damaged.

According to one embodiment of the present invention, the section specimen collection device has a motor unit which is positioned on the outside of the housing and is connected to the transmission device, in particular in the form of a stepping motor with transmission gear. Alternatively, the motor unit can also be installed on the device in which the section preparation collecting device is used. Furthermore, a controller for controlling the motor unit is advantageously provided, for example in the form of a Raspberry Pi with a touchscreen and GUI (Graphical User Interface).

According to one embodiment of the present invention, the housing is provided with a viewing window past which the section preparation collection tape is guided past in the interior of the housing. Correspondingly, a section preparation recorded on the section preparation collection tape can, for example, be examined under a microscope or treated through the viewing window. The viewing window is preferably designed as a simple housing section, ie without a window pane closing it. The housing advantageously has a maximum height of 100 mm and/or a maximum width of 70 mm and/or a maximum depth of 20 mm. Thanks to such small dimensions, the section preparation receiving device according to the invention can also be used in a cryo-ultramicrotome.

Furthermore, the present invention provides a microtome or ultramicrotome, in particular a cryo-ultramicrotome, to achieve the object mentioned at the outset, comprising a cutting device, characterized in that the microtome or ultramicrotome has a holder which is designed to accommodate a section preparation collecting device according to the invention in this way that the free end of the section specimen receiving device is positioned immediately adjacent to the cutting device.

In addition, the present invention creates a plasma treatment device comprising an atmospheric plasma device for pretreating a section preparation collection tape and a holder that is designed to hold a section preparation collection device according to the invention in such a way that an area of that section preparation collection tape section -Recording device is performed, is positioned in the Be processing area of the atmospheric plasma device.

In addition, the present invention creates a microscope comprising an objective and a holder which is designed to hold a section preparation collection device according to the invention in such a way that a region of that section preparation collection belt section that is guided by the section preparation receiving device is below the Lens is arranged net. If the section specimen collection device according to the invention has a viewing window, the holder can alternatively also be designed to to take up a section preparation collecting device according to the invention in such a way that the viewing window is arranged below the lens. The microscope can be, for example, a reflected-light microscope, a confocal microscope or a scanning electron microscope.

The production and examination of section preparations can be significantly simplified and accelerated with a system made up of the devices mentioned above, all of which are designed for the use of section preparation collecting devices according to the invention.

Further advantages and features of the present invention will become apparent from the following description with reference to the attached drawing. inside is

FIG. 1 shows a perspective side view of a section preparation collecting device according to its embodiment of the present invention;

FIG. 2 shows a perspective side view of the section specimen collecting device illustrated in FIG. 1 with the housing cover lifted off;

Figure 3 is a top perspective view of the arrangement shown in Figure 2;

FIG. 4 is a side perspective view of a plasma pretreatment apparatus according to an embodiment of the present invention on which the slice collection apparatus shown in FIGS. 1 to 3 is mounted; Figure 5 is a perspective partial view of an ultramicrotome according to ei ner embodiment of the present invention, on which in the figures

1 to 3 is arranged; and

FIG. 6 is a partial view of a microscope according to an embodiment of the present invention, on which the section collecting device shown in FIGS. 1 to 3 is mounted.

The same reference numerals below refer to the same or similar components.

FIGS. 1 to 3 show a slice preparation collecting device 1 according to an embodiment of the present invention. The main components include a cassette-like housing 2, a first coil body 3, a second coil body 4, a gear mechanism 5, in this case three tape guides 6, a section preparation receiving device 7 and a section preparation collecting belt 8.

In the present case, the cuboid housing is made of plastic and has a surface area Fl of 90 mm, a width B of 65 mm and a depth T of 18.5 mm, the dimensions being fundamentally variable. Nevertheless, the fleas Fl should preferably not exceed 100 mm, the width B 70 mm and the depth T 20 mm in order to make the usability of the section preparation collecting device 1 as flexible as possible. In the exemplary embodiment illustrated, the housing 2 has a housing base 9 and a housing cover 10 which is screwed to this. Furthermore, the housing

2 has a housing opening 12 positioned in the edge region of a long side, through which the slice preparation receiving device 7 is guided is. Inside the housing 2, the two Spu are positioned adjacent to each other lenkörper 3 and 4, which are each made of plastic in the present case. The first coil body 3 is arranged to be rotatable about a first axis of rotation A1 and serves as a section preparation collection tape supply coil. The second coil body 4 can be driven in rotation about a second axis of rotation A2 using a motor unit (not shown in FIGS. 1 to 3) and serves as a section preparation collection tape collection coil. A gear wheel 14, 15 is positioned below each coil body 3, 4 and is fixedly connected to a pivot pin 16 which is mounted on both sides and extends in the direction of the respective axis of rotation A1, A2. Each of the two gear wheels 14, 15 is in turn connected to the associated coil body 3, 4 via a spiral spring 17, so that the gear wheel 14, 15 and the associated coil body 3, 4 move relative to one another against the force of the spiral spring 17 by a predetermined amount corresponding axis of rotation A1, A2 can rotate. A third gear 18, mounted on the lower portion of another bilaterally supported pivot 16 and rotatable about a third axis of rotation A3, meshes with both the first gear 14 and the second gear 15 and rotates them at a uniform speed. The first gear wheel 14 and the second gear wheel 15 are preferably of identical design for this purpose. The first gear wheel 14, the second gear wheel 15 and the third gear wheel 18 together form the gear mechanism 5. The tape guides 6 are each designed as guide rollers mounted on both sides and guide the specimen collection tape 8, which is wound onto the first spool body 3 Section preparation receiving device 7, as shown in particular in FIG. The section specimen receiving device 7 is constructed in the manner of a web and, in the region of its free end pointing away from the housing 2, has a belt deflection 19, which in the present case is formed by a nose tapering in a wedge-like manner with a rounded tip. At the other free end, a rod-like tape deflection 20 is provided, which guides the deflected section preparation collection tape 8 in the direction of the second coil former 4, where it is wound up again. A flange 21 is provided on the outside of the housing 2, which is used in the present case to accommodate the motor unit 22, as is described in more detail below. In the present embodiment, the section preparation receiving device 7 is designed in such a way that it moves between a transport position, in which it is arranged inside the housing 2, and a receiving position regulated in the figures, in which its free end protrudes outwards from the housing 2. is movably received on the housing 2. For this purpose, guide rails 24 are provided which protrude upwards from the housing base 9 and guide the section specimen receiving device 7 during its movement between the two positions. Analog guide rails can also be seen on the housing cover 10 before. In the present case, three bores 25 are provided in the rear region of the section preparation receiving device 7, into which a locking means in the form of a pin can be inserted in order to lock the section preparation receiving device 7 in its receiving position.

During operation, the second gear 15 is motor-driven in the direction of arrow 26. Correspondingly, the section preparation collection tape 8 wound onto the first coil body 3 is unwound and moved in the direction of the arrow 27 to the section preparation receiving device 7 . After leaving the last belt guide 6 , the section preparation collection belt 8 is guided further in the direction of arrow 28 to the outer belt deflection 19 and then back in the direction of arrow 29 to the inner belt deflection 20 . From there, the section preparation collection tape 8 is routed to the second spool 4, which is driven in the direction of arrow 30, and wound up on it. In this case, the cut specimen collection tape 8 is always stretched over the two countries 17 Spiralfe. The same applies if the second gear wheel 15 is driven in the opposite direction, so that the section preparation collection tape 8 wound onto the second spool body 4 is unwound and then placed on the first th bobbin 3 is wound up. The spiral springs 17 are proportioned and positioned in such a way that the section preparation collection belt 8 also remains tensioned when the section preparation receiving device 7 is manually transferred in the direction of the arrow 31 into its transport position.

FIG. 4 shows a plasma pretreatment device 32 according to an embodiment of the present invention, which in the present case has a frame 33 made from profiles. An atmospheric plasma device 34 is fastened to a portal-shaped section of the frame 33 and is used to pretreat the section preparation collection band 8 with a plasma in order to increase the wettability of the section preparation collection band 8 . Also attached to the frame 33 is the section preparation collecting device 1 shown in FIGS. A flange 35 fixed to the frame 33 in the form of a clamp is designed to receive the outer periphery of the transmission gear of the motor unit 22 and to position the section preparation collecting device 1 in such a way that a portion of that section preparation collecting section separated from the section preparation Recording device 7 is performed, is positioned in the processing area of the atmospheric plasma device 34. The flattening 35 is preferably designed in such a way that it can be adjusted at least for fine adjustment in the X, Y and Z directions. The stepper motor is controlled by a controller 36, which is shown only schematically in FIG. This can be a Raspberry Pi with a touchscreen and GUI, for example.

For the pre-treatment of the section preparation collection tape 8, the atmospheric plasma device 34 is switched on and the section preparation collection tape 8 wound on the second coil former 4 once in the direction of the arrows 37 unwound, treated with plasma and then wound onto the first bobbin 3.

In a subsequent step, the section preparation collecting device 1 is then inserted into an ultramicrotome 38, as shown in FIG. That

Ultramicrotome 38 also includes a holder 35, which is designed to accommodate motor unit 22 and thus section preparation collecting device 1 in such a way that the free end of section preparation receiving device 7 is positioned directly adjacent to a cutting device 39 of ultramicrotome 38. During operation of the ultramicrotome 38, the freshly cut section preparations are correspondingly placed directly on the pre-treated surface of the section preparation collection belt 8, while the latter is moved in the direction of the arrows 40 using the motor unit 22.

After collecting all the sections, the section collecting device 1 is removed from the holder 35 of the ultramicrotome 38 and inserted into another holder 35 of a microscope 41, as shown in FIG. This holder 35 is designed to hold the section preparation collection device 1 in such a way that a region of that section preparation collection belt section that is guided by the section preparation recording device 7 is arranged below an objective 42 of the microscope 41 . Alternatively, the section preparation collection device 1 can be positioned using a holder 35 in such a way that the section preparations collected on the section preparation collection belt 8 can be viewed through the viewing window 11 via the lens 42 . Correspondingly, the section preparation recorded on the section preparation collecting tape section can be examined using the objective lens 42 . Before the examination with the microscope 41, the Collection device 1 collected sections also pretreated who the, for example using a dye or contrast agent. For this purpose, a corresponding pre-treatment device can be equipped with a suitable holder 35 for the section preparation collecting device 1 .

An essential advantage of the section preparation collecting device 1 according to the invention is that it is easy to transport and handle and can be used flexibly, as is shown in FIGS. 4 to 6. A further advantage is that the device for collecting specimens 1 can also be used with cryo-ultramicrotomes due to the small dimensions of the housing 2 .

It should be understood that the embodiments described above are provided as examples only and are not intended to be limiting. Rather, changes and modifications are possible without departing from the scope of the present invention, which is defined by the appended claims. In particular, the holder 35 does not have to have a clamp-like structure. This can also be designed to record the section preparation collecting device 1 directly. The motor unit 22, which is flanged to the housing 2 in the previously described embodiments, can alternatively also be a component of the respective devices in which the section specimen collection device 1 is used. Furthermore, it should be clear that another of the gears or a plurality of gears on the motor unit 22 can be driven. reference number list

1 slice collection device

2 housing

3 first bobbin

4 second bobbin

5 gear mechanism

6 tape guide

7 Section preparation receiving device

8 sections anthology

9 caseback

10 Housing cover 11 Viewing window 12 Housing opening

14 gear

15 gear

16 pivots

17 spiral spring

18 gear

19 belt deflection

20 belt deflection 21 flange 22 motor unit

23 bracket

24 guide rail

25 bore

26 arrow

27 arrow

28 arrow 29 arrow 30 arrow

31 arrow

32 plasma pretreatment device

33 frame

34 plasma facility

35 bracket

36 control

37 arrow

38 Ultramicrotome

39 editing setup

40 arrow

41 Microscope

42 lens

A1, A2, A3 axes of rotation H height

B width

T depth

Claims

EXPECTATIONS

1. Section preparation collecting device (1), which is designed to record section preparations produced with a microtome or ultramicrotome (38) in sequence, comprising a cassette-like housing (2) in which a first coil body (3) can be rotated a first axis of rotation (A1) and a second coil body (4) are arranged to be rotatable about a second axis of rotation (A2), a section preparation collection belt (8) preferably made of plastic, which extends between the coil bodies (3, 4). and the end portions of which are partially wound onto the bobbins (3, 4), a gear mechanism (5) which transmits the rotary motion of a motor unit (22) to one or both of the bobbins (3, 4) is arranged inside the housing (2). Tape guides (6) that lead the section preparation collection tape (8) in the area between the spools (3, 4), and a cutting preparation rat receiving device (7) which is designed to a through a housin seopening (12) from theHousing (2) guided cut specimen collection tape section leading record.

2. Section preparation collecting device (1) according to claim 1, characterized in that the gear device (5) has a first gear (14) which is rotatable about the first axis of rotation (A1), a second gear which is rotatable about the second axis of rotation (A2) and has a third gear (18) which is rotatable about a third axis of rotation (A3) and meshes with the first gear (14) and the second gear (15) and drives them at a uniform speed.

3. section preparation collecting device (1) according to claim 2, characterized in that the first gear (14) and the first coil body (3) arranged rotatably relative to each other about the first axis of rotation (A1) and over connected to each other by a spiral spring (17) and/or that the second gear wheel (15) and the second coil body (4) are rotatable relative to one another about the second axis of rotation (A2) and are connected to one another via a spiral spring (17).

4. Section preparation collecting device (1) according to one of the preceding claims, characterized in that the tape guides (6) are at least partially designed as rotatably mounted guide rollers in the housing (2).

5. Section preparation collection device (1) according to one of the preceding claims, characterized in that the section preparation recording device (7) is web-like and in the region of its free end pointing away from the housing (2) is provided with a belt deflection (19). is.

6. Section preparation collecting device (1) according to one of the preceding claims, characterized in that the section preparation recording device (7) between a transport position in which it is arranged within the housing (2) and a recording position in which it free end protrudes outwards from the housing (2), is movably received on the housing (2), locking means being provided which are designed to lock the section preparation receiving device (7) at least in its receiving position.

7. Section preparation collection device (1) according to one of the preceding claims, characterized in that it has a motor unit (22) which is positioned on the outside of the housing (2) and is connected to the transmission device (5), in particular in Form of a stepper motor with transmission gear.

8. Section preparation collection device according to one of the preceding claims, characterized in that the housing (2) is provided with a viewing window (11) on which the section preparation collection belt (8) is guided past in the interior of the housing (2).

9. Section preparation collecting device according to one of the preceding claims, characterized in that the housing (2) has a maximum height H of 100 mm and/or a maximum width B of 70 mm and/or a maximum depth T of 20 mm.

10. Microtome or ultramicrotome (38), in particular cryo-ultramicrotome, comprising a cutting device (39), characterized in that the microtome or ultramicrotome (38) has a holder (35) which is designed to have a section preparation collecting device ( 1) according to one of the preceding claims in such a way that the free end of the section preparation receiving device (7) is positioned immediately adjacent to the cutting device (39).

11. Plasma pretreatment device (32) comprising an atmospheric plasma device (32) and a holder (35) which is designed to accommodate a section preparation collection device (1) according to one of claims 1 to 9 in such a way that a region of that section preparation collection belt section, which is guided by the section preparation receiving device (7), is positioned in the processing area of the atmospheric plasma device (32).

12. Microscope (41) comprising a lens (42) and a holder (35) which is designed to accommodate a section preparation collecting device (1) according to ei nem of claims 1 to 9 such that a region of that Section preparation collecting tape section (7), which is guided by the section preparation receiving device, is arranged below the lens (42).