RU2435152C1 - Holder for soft biological tissue sample to microtome - Google Patents

Abstract

FIELD: mechanics.

SUBSTANCE: holder includes housing with surface on which there arranged is investigated object and pressure sponge containing a set of parallel located needles. Housing is made so that surface on which the investigated object is located is made in the form of flat base with holes, along the perimetre of which a guide is fixed on the side opposite to investigated object. Inside the guide there arranged is pressure sponge protruding beyond its limits and copying the inner shape of the guide with possibility of coaxial movement of pressure sponge inside guide. At that, pressure sponge is made in the form of upper part connected as one piece to lower part. In upper part there rigidly fixed are needles protruding beyond the limits of upper part towards the housing so that needles can be arranged in holes of the housing. At that, needles are located along the perimetre of upper part of pressure sponge at equal distance between each other, and holes of housing coincide with axis of needles the protruding pointed tips of which have chamfer opposite direction of microtome blade stroke. In lower part of pressure sponge on the side of microtome blade stroke there is longitudinal slot and transverse cavity interconnected with it. Spring-loaded limit stop made in the form of plate having corrugation in upper part of the plate and equal to the length of the guide is installed in longitudinal slot. At that, corrugation is made on the plate side facing inner side of the housing guide with possibility of interaction of corrugation with corrugation made on surface of the guide adjacent to plate of spring-loaded limit stop. Plate has bent end arranged in transverse cavity. Besides, length of upper and lower parts of pressure sponge, which are connected as one piece, is equal to sum of length of the guide at the position of upper part when it is combined with flat base of housing, and protruding beyond the limits of the guide of length of pressure sponge, which is enough to ensure possible arrangement of handles on side surfaces of pressure sponge. Push-button having the possibility of sliding in groove of microtome rod is fixed on the level of arrangement of handles on outer surface of spring-loaded limit stop plate.

EFFECT: lower deformation degree of soft biological tissue during sampling.

6 dwg

Description

The present invention relates to devices for microtomes designed to obtain with a knife thin sections of samples of biological tissue in order to study their microscopic structure.

In preparation for the placement of a sample of soft biological tissue in a microtome, it is necessary to exclude its deformation, which under microscope distorts the result of the study. Since a tissue sample is prepared outside the microtome, deformation of the tissue structure inevitably occurs due to the application of mechanical forces to it during sampling, in preparation for placement, as well as in the process of placement in the microtome.

Known holder of the preparation of soft biological tissue to the microtome in the form of a paraffin block, mounted on a wooden block, which is placed in a clamp on the microtome table. (Microtechnical studies based on modern equipment [Electronic resource]: Guide to practical exercises / Betekhtina A.A., Utkina I.A. - Ekaterinburg: Ural State University, 2008, pp. 69-71. - Access mode: http: / /elar.su.ru/bitstream/1234.56789/1570/5/1334882.guide.pdf.).

However, this holder of a biological tissue preparation for microtome does not prevent the deformation of soft biological tissue during preparation of the preparation for microtomy (when selecting a piece of soft biological tissue, pouring soft biological tissue into paraffin). In addition, it is impossible to control the degree of deformation of a sample of soft biological tissue during the preparation process and when performing microtomy.

A known sample holder, the design of which is contained in a vibrational microtome for soft tissue (as USSR AS No. 459686, G01h 1/06, 02/05/1975), also containing a housing, a vibrator, a micro-feed mechanism, a knife with interchangeable blades, a tray for collecting slices.

The sample holder is made in the form of two flat guide plates located before and after the knife in the cutting plane. The object is placed on the upper guide plate and hand held on it with a smooth advance on the protruding oscillating blade.

However, the sample holder of this vibrational microtome does not prevent the deformation of soft biological tissue during preparation of the preparation for microtomy (when selecting a piece of soft biological tissue, pouring soft biological tissue into paraffin). In addition, it is impossible to control the degree of deformation of a sample of soft biological tissue during the preparation process and when performing microtomy.

Known holder of soft objects to a vibrating microtome (prototype - patent for the invention of the Russian Federation 1283590, G01N 1/06, 01/15/1987), including a housing and clamping jaws. Each clamping jaw is made in the form of a set of needles located in parallel in the same plane with the possibility of moving the jaws of the needle tips towards each other in the same plane, the surface of the body on which the object is fixed is made with recesses.

The disadvantage of this device is that using the holder it is impossible to take a sample of soft biological tissue from the studied object. The selection is carried out by various known methods and manually placed in the holder, while there is an uncontrolled deformation of the tissue. In addition, it is impossible to control the degree of deformation of a sample of soft biological tissue in the process of preparing it for microtomy and at the time of making thin sections from the object.

The technical task is to create a device that allows you to reduce the degree of deformation of soft biological tissue in the selection process, in preparation for microtomy and at the time of manufacture of thin sections and to provide the ability to control the deformation of a sample of biological tissue in the process of selection, preparation and conduct of microtomy.

The technical problem is achieved in that the holder of the sample of soft biological tissue to the microtome, comprising a body with a surface on which the test object is placed, and a clamping sponge containing a set of needles parallel to each other, characterized in that the body is made so that the surface on which place the studied object, made in the form of a flat base with holes, along the perimeter of which from the side opposite to the studied object, a guide is attached, inside which is placed beyond the limits of the guide are the pressure jaw, which copies the internal shape of the guide with the possibility of coaxially moving the pressure jaw inside the guide, while the pressure jaw is made in the form of an upper part, integral with the lower part, while the needles protruding beyond the upper part are rigidly fixed in the thickness of the upper part towards the body with the possibility of placing needles in the holes of the housing, while the needles are located around the perimeter of the upper part of the clamping jaw at an equal distance between each other, in addition, the holes the cases coincide with the axis of the needles, the protruding pointed ends of which are beveled against the direction of travel of the microtome knife, a longitudinal groove and a transverse recess connected with it are made in the lower part of the clamping lip on the side of the microtome blade, while a spring-loaded stopper is installed in the longitudinal groove, made in the form of a plate with corrugation made in the upper part of this plate and equal to the length of the guide, while the corrugation is made on the side of the plate facing the inner side of the guide body with The interaction of this corrugation with the corrugation also performed on the surface of the guide mating with the spring-loaded stopper plate, the plate having a bent end located in the transverse recess, in addition, the length of the upper and lower parts of the clamping jaw that are seamlessly connected is equal to the sum of the length of the guide in that position the upper part, when it is combined with the flat base of the body, and extending beyond the guide length of the clamping jaw, sufficient to allow the handles to be placed on the side overhnostyah clamping jaws, in addition, at placing arms on the outer surface of the plate is fastened a spring-loaded detent button slidable in a bore rod microtome.

The proposed invention is characterized in that the housing is made so that the surface on which the test object is placed is made in the form of a flat base with holes, a guide is attached around the perimeter from the side opposite to the test object, inside of which there is a clamping jaw extending outside the guide, which copies the internal shape of the guide with the possibility of coaxial movement of the clamping jaw inside the guide, while the clamping jaw is made in the form of an upper part, integral with single with the lower part, while in the thickness of the upper part the needles are protruding rigidly, protruding beyond the upper part towards the body with the possibility of placing needles in the holes of the body, while the needles are located along the perimeter of the upper part of the clamping jaw at an equal distance from each other, in addition, the openings of the body coincide with the axis of the needles, the protruding pointed ends of which are beveled against the direction of the microtome knife, in the lower part of the clamping lip on the side of the microtome knife there is a longitudinal groove that communicates I have a transverse recess with it, while in the longitudinal groove there is a spring-loaded stopper made in the form of a plate with a corrugation made in the upper part of this plate and equal to the length of the guide, while the corrugation is made on the side of the plate facing the inner side of the guide body with the possibility of interaction this corrugation with corrugation, also performed on the surface of the guide, paired with a plate of a spring-loaded stopper, while the plate has a bent end placed in a transverse recess to In addition, the length of the upper and lower parts of the clamping jaw that is seamlessly connected is equal to the sum of the length of the guide when the position of the upper part is aligned with the flat base of the housing and the length of the clamping jaw extending beyond the guide is sufficient to accommodate the handles on the side surfaces of the clamping jaw, in addition, at the level of placement of the handles on the outer surface of the plate of the spring-loaded stopper, a button is attached, made with the possibility of sliding in the groove of the rod microtome.

The figure 1 shows a General view of the holder of the sample of soft biological tissue.

Figure 2 shows a sectional side view of a holder of soft biological tissue mounted in a microtome.

Figure 3 shows a section aa in figure 2.

Figure 4 shows a holder of soft biological tissue mounted in a microtome, top view.

Figure 5 shows a holder with a sample of soft biological tissue placed on it.

Figure 6 shows a holder with a sample of soft biological tissue placed on it embedded in a paraffin block.

The holder of the sample of soft biological tissue to the microtome includes a housing 1 with a surface 2, on which a sample of soft biological tissue 28 is placed, in particular, embedded in a paraffin block 29. The clamping sponge contains a set of needles parallel to each other 3. The housing 1 is made so that the surface 2, on which the studied object is placed, made in the form of a flat base with holes 4 along its perimeter. A guide 5 is attached to the side of the housing 1 opposite to the test sample 28. Inside the guide 5 and beyond, a clamping jaw is placed. The clamping jaw copies the internal shape of the guide 5 with the possibility of coaxially moving the clamping jaw inside the guide 5. The clamping jaw is made in the form of an upper part 6, which is integral with the lower part 7. At the same time, needles 3 protruding rigidly from the upper part are fixed in the thickness of the upper part 6 6 in the direction of the housing 1 with the possibility of placing the needles 3 in the holes 4 of the housing 1. The needles 3 are located around the perimeter of the upper part 6 at an equal distance from each other. The axis of the holes 4 of the housing 1 coincide with the corresponding axes of the needles 3. The protruding pointed ends 8 of the needles 3 are made with a bevel located opposite the direction of travel of the knife 27 microtome. A longitudinal groove 9 and a transverse recess 10 communicating with it are made in the lower part 7 of the clamping lip on the stroke side of the knife 27 of the microtome 10. A spring-loaded stopper 11 is installed in the longitudinal groove 9, which is made in the form of a plate with a corrugation 12 equal to the length of the guide 5. The corrugation 12 is made on the side of the plate of the spring-loaded stopper 11, facing the inner side of the guide 5 of the housing 1 with the possibility of interaction of this corrugation 12 with the corrugation (not shown in the figure), also made on the surface of the guide 5, paired with the spring-loaded stopper 11. The spring-loaded stopper plate 11 has a bent end 13, which is located in the transverse recess 10. The length of the upper part 6 and the lower part 7 of the clamping jaw, which are seamlessly connected, is equal to the sum of the length of the guide 5 when the position of the upper part 6 is aligned with the housing 1 , and the length of the clamping jaw extending beyond the guide 5, sufficient to accommodate the handles 14 on the side surfaces of the clamping jaw. According to the level of placement of the handles 14 on the outer surface of the spring-loaded stopper plate, a button 15 is attached. Button 15 is oval with the possibility of sliding in the groove 16 of the rod 17 of the microtome.

In addition, the figures depict the structural elements of the microtome on which the proposed device is installed: recess 18 of the rod 17, bed 19, recess 20 of the rod 17, the opening 21 of the table 22, the microfeed mechanism 23, screw 24, the window 25 of the table 22, the support 26.

The device operates as follows. Holding the handles 14 of the sample holder of the soft biological tissue prepared for operation (Fig. 1), press the button 15, immersing the spring-loaded stopper plate 11 in the longitudinal groove 9 with the part having the corrugation 12. In this case, the corrugation 12 is disconnected from the corrugation of the inner surface of the guide 5. Moving with your free hand, guide 5 relative to the clamping jaw, extend the needles 3 relative to the surface 2 of the housing 1 to the required length, respectively, the thickness of the soft biological tissue selected for examination 28. The needles 3 extend the black h holes 4 of the housing 1. Release the button 15. In this case, the spring-loaded stopper 11, fixed with its bent end 13 in the transverse recess 10, leaves the longitudinal groove 9 and is aligned with the corrugation 12 with the corresponding corrugation on the inner side of the guide 5, motionlessly fixing the guide 5 relative to the pressure sponges.

At the point of sampling, the pointed ends of 8 needles 3 are punctured with a soft biological tissue 28 to a specified depth until the surface 2 of the body 1 is aligned with the surface of the biological tissue 28. A sample of the soft biological tissue 28 is cut off with a scalpel along the contour of the body 1 and along the length of the needles 3 protruding from the body 1 ( 5). Moreover, in the directions parallel to the surface 2 of the housing 1, the deformation of the soft biological tissue 28 located between the needles 3 is prevented. A sample of the soft biological tissue 28 placed in the holder is fixed by placing it in a container, for example, with 10% formalin solution. Next, a sample of soft biological tissue 28, placed in the holder, is washed in running water, dehydrated in alcohols of increasing concentration, also alternately placed in containers with the corresponding reagents. After exposure in a container with xylene, a sample of soft biological tissue 28, placed in the holder, is poured into the paraffin block 29 according to the generally accepted technique. In this case, the paraffin block 29 surrounds the sample of soft biological tissue 28 together with the housing 1 of the holder (Fig.6).

The sample holder of the soft biological tissue 28 when installed on the microtome is placed in such a way that the bevels on the protruding pointed ends 8 of the needles 3 are located opposite the direction of travel of the microtome knife 27. In this case, the handle 14, directed to the rod 17, which is fixedly mounted on the microtome bed 1, is placed in the recess 18 of the rod 17, which extends beyond the guide 5. The lower part 7 of the clamping jaw is aligned with the recess 20 of the rod 17. The pointed ends of the 8 needles 3 are located near the plane of movement the edges of the knife 27 without touching it. Guide 5 is located in the opening 21 of the table 22, which interacts with the microtome microflow mechanism 23. The screw 24 still fixes the guide 5 in the opening 21 of the table 22. In this case, the table 22 can move relative to the rod 17 located in the window 25 of the table 22.

Button 15, having an oval shape, slides in the groove 16 of the rod 17 of the microtome when placing the lower part 7 of the clamping jaw in the recess 20 of the rod 17. In this case, the plate of the spring-loaded stopper 11 is immersed in the longitudinal groove 9 with the part having the corrugation 12. The corrugation 12 is disconnected with the corrugation of the inner the surface of the guide 5, unlocking it relative to the clamping jaw. Screw 24 fix the guide 5 in the opening 21 of the table 22.

The support 26 is moved along the microtome bed 19 in such a way that the knife 27 moves in the cut plane of the sample of soft biological tissue 28. The support 26 interacts with the microfeed mechanism 23. Each new movement of the support 26 along the microtome bed 19 is accompanied by a rise in thickness a cut of the table 22 together with a guide 5 fixed by a screw 24 in the opening 21. A sample of soft biological tissue 28, surrounded by a paraffin block 29 on the housing 1 s, extends relative to the needles 3 apravlyayuschey 5.

Thus, at the stages of sampling a soft biological tissue, its preparation for carrying out and in the process of performing slices on a microtome, the possibility of deformation of a soft biological tissue sample under the action of external forces in the plane parallel to the surface of the holder body is prevented. With microscopy of sections of a sample of soft biological tissue, it is possible to control the deformation with respect to the initial state of the tissue by the relative position and size of the holes formed in the tissue by the holder needles.

Claims (1)

The holder of the sample of soft biological tissue to the microtome, comprising a body with a surface on which the test object is placed, and a clamping sponge containing a set of needles parallel to each other, characterized in that the body is made so that the surface on which the test object is placed is made in in the form of a flat base with holes, along the perimeter of which from the side opposite to the object under study, a guide is attached, inside of which a clamping sponge extending beyond the limits of the guide is placed, to the second one copies the internal shape of the guide with the possibility of coaxial movement of the clamping jaw inside the guide, while the clamping jaw is made in the form of an upper part, integral with the lower part, while in the thickness of the upper part the needles protruding beyond the upper part towards the body can be fixed placing the needles in the holes of the housing, while the needles are located around the perimeter of the upper part of the clamping jaw at an equal distance between each other, in addition, the holes of the housing coincide with the axis of the needles, protruding the pointed ends of which are slanted against the direction of travel of the microtome knife, a longitudinal groove and a transverse recess connected with it are made in the lower part of the clamping jaw on the side of the microtome knife stroke, while a spring-loaded stopper made in the form of a plate with corrugation is made in the longitudinal groove in the upper part of this plate and equal to the length of the guide, while the corrugation is performed on the side of the plate facing the inner side of the guide body with the possibility of interaction of this corrugation with corrugation also performed on the surface of the guide mating with the spring-loaded stopper plate, the plate having a bent end located in the transverse recess, in addition, the length of the upper and lower parts of the clamping jaw that are seamlessly connected is equal to the sum of the length of the guide when the position of the upper part is it is combined with the flat base of the housing, and beyond the limits of the guide length of the clamping jaw, sufficient to allow the handles to be placed on the side surfaces of the clamping jaw, in addition , at the level of placement of the handles on the outer surface of the plate of the spring-loaded stopper, a button is attached, made with the possibility of sliding in the groove of the rod microtome.

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