RU2715926C1 - Method of fixing a cadaver intact eyeball and its sectional fragments during x-ray computer micro- and nanotomography and a device for its implementation - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to the field of analysis by means of X-ray computer micro- and nanotomography of biological objects, in particular, a cadaver whole eyeball and its sectional fragments. Method of fixing a scanning object is that the object is placed in front of the radiating X-ray tube in the focusing area and fixed in a collet clamp located on the free end of the rotating spindle installed by the other end by means of a perpendicular support on the micropositioning table, and to fix the scanning object, a polymer cylindrical container is used, the bottom of which in the center is equipped with a conic nozzle containing a coaxial through channel and a polymer conical cap congruent to the nozzle with a top pin with possibility of being fixed in a collet-type clip of the spindle. Object of scanning is inserted into polymer fixation ring and glued along perimeter with moisture-resistant glue.

EFFECT: use of the invention improves the quality of visualization of the scanned object during the entire process of X-ray computer micro- and nanoscanning.

7 cl

Description

X-ray computer micro-scanning of objects is a long-term procedure that takes from several hours to several days and requires high accuracy of object positioning, which consists in fixing the object of research in front of the radiating x-ray tube in the beam focusing area on the free end of the rotating spindle mounted on the microposition table perpendicular to the scanning axis.

To obtain high-quality results of visualization of X-ray computer micro and nanoscanning, the main condition must be met - the object must not be shifted from the scanning point during prolonged exposure during rotation, high accuracy of centering of rotation of the object and the reliability of its fixation on the rotating spindle are required. It is not difficult to achieve this when working with dry solid objects, for which they are directly fixed with a collet located at the end of the spindle or glued to its free end without a collet (www.bruker.com, www.optecgroup.com ).

However, such a simple and reliable method and device for fixing non-deformable objects is not suitable for working with elastic biological tissues, in particular, the eyeball, which during the scanning period can be displaced and deformed both mechanically and due to drying, which negatively affects the results of high-precision scanning.

To fix biological objects, there is a method consisting in preliminary filling of test objects with curable substances. For this purpose, water-insoluble substances are used: araldite, epon, Westopal, butyl methacrylate, methyl methacrylate, maraglas-cardolite compound, epoxy-dianes, styrene and water-soluble media: aquon, durkupan, glycol methacrylate, hydroxypropyl methacrylate, gelatin ( www. helpiks.org ).

The disadvantages of this fixation are, firstly, the relatively complex and lengthy preparation process, and secondly, due to heating in the x-ray focusing zone, the fixing substances can be deformed due to cracking and / or fusion, which also negatively affects the results of precision scanning .

A device for fixing objects for x-ray micro and nanoscanning (www.bruker.com, www.optecgroup.com) is known, which comprises a metal spindle equipped with a support pad from the end of the micro-positioning facing the stage and a collet clamp from the opposite end to fix the object to be scanned.

However, this kit is not enough for reliable long-term fixation of wet biological objects, including the eyeball.

To achieve high quality visualization of x-ray micro and nanoscans of biological objects, in particular cadaveric whole eyeball and its sectional fragments, the following are proposed:

A method of fixing a cadaver whole eyeball and its sectional fragments as a scanning object during X-ray computer micro and nanotomography, which consists in the fact that the scanning object is placed in front of the radiating X-ray tube in the focus area and fixed in a collet clip located on the free end of the rotating spindle mounted the other end by means of perpendicular support on the micro positioning table and to fix the object of scanning using a polymer cylinder In the center, the bottom of the tank is equipped with a conical fitting containing a coaxial through channel and a congruent fitting with a polymer conical cap with an apex pin serving for fixing in the collet clamp of the spindle, a polymer fixing ring is prepared with an optimum thickness of 3 mm, with an outer diameter corresponding to the inner diameter of the tank and the inner diameter the outer diameter of the eyeball when scanning it in its entirety or the diameter of the fragment cut out by a trepan from it, is inserted the fixing ring is the object of scanning and glued around the perimeter with moisture-resistant adhesive, the inner surface of the container in the area of the location of the fixing ring is lubricated with moisture-resistant adhesive, the fixing ring with the object of scanning, depending on the scanning conditions — longitudinal, diagonal or transverse, respectively, is positioned at the required angle inside the container in the area of adhesive fixing , after gluing the ring with the container with the transverse arrangement of the ring, the container is turned upside down, the space between the object of scanning and the end of the container through the nozzle channel is filled until the air is completely displaced from the container and the nozzle in the following variants: physiological buffer solution, gel with a humidity of at least 30% of the corresponding physiological humidity of the fibrous membrane of the eyeball, glycerin, the nozzle is closed with a cone-shaped cap, the container is turned downside down. and fill the space above the object with a similar medium, and in the longitudinal position of the ring, the fitting is closed with a cone-shaped cap, the container is turned with the cap kn They fill the container cavity until the scan object is completely submerged, the container end is hermetically sealed with a polymer plug, the pin of the nozzle cone-shaped cap is inserted into the spindle collet clamp, the spindle is mounted on a rotating micro-positioning table, the tank is vertically centered centrifugally with the spindle when the spindle is rotated, and fixed , the spindle is shifted so that the scanning point is the point around which the scanning object rotates, X-ray skoe micro computer or nanoskanirovanie.

As a container for scanning, in the embodiment, a ready-made disposable polymer medical syringe with a preferably central location of the nozzle for the needle is used, the syringe is shortened to the required length in order to prevent inertial deviations during rotation of the spindle, and the injection needle of the syringe is used as a cone-shaped cap, having shortened it beforehand to the required length, and as the end plug use a rubber head separated from the syringe piston.

Depending on the scanning goals, the cadaverous whole apple apple or its sectional fragments are preliminarily saturated with X-ray contrast agents and / or dried with alcohol and / or silica gel, while scanning the dried objects, they are not filled in the container cavity, water-soluble salts are used as contrast agents or metal oxides, the object to be scanned is immersed in a solution of the desired concentration and saturation is carried out in the following variants: passive — they simply withstand the necessary time or active — reproaching and deepen contrast penetration into the object scanning by electrically and / or phonophoresis, wherein the passive scanning saturation object is dipped completely in the solution, i.e., X-ray contrast of the contrast agent with the eyeball tissue is provided from the outer and inner sides of the eyeball tissue, in the case of the whole eyeball, the contrast solution is poured into its anterior chamber and vitreous cavity after removing the vitreous body, and with active saturation, on only one side, and saline solution is poured on the opposite, after contrasting, excess contrast is removed from the surface of the tissue with saline.

During preliminary preparation and subsequent installation of eyeball fragments cut out by trepan in the fixation ring to preserve their physiological sphericity and prevent deformation, a polymer cylinder is used, one end of which is made spherical for laying the cut out fragment, the surface curvature of the cylinder end face is selected according to the physiological curvature of the cut fragment, the cylinder height is selected respectively the thickness of the fixation ring, the cylinder with the fragment is installed and glued into lumen of the fixation ring.

The device for fixing the cadaveric whole eyeball and its sectional fragments during X-ray computer micro and nanotomography is a metal spindle equipped with a support pad from the end facing the micro positioning table and a collet clamp from the opposite end, additionally contains: a polymer cylindrical container, the inner diameter of which more than not less than 1 mm of the outer diameter of the object of scanning - the whole eyeball or its fragment cut out by trepan, in hundredth not less than 10 mm higher than the position of the highest point of the scan object placed inside the container, the bottom of the container contains a centrally located conical fitting equipped with a through coaxial channel and a removable polymer cone cap with a top pin, hermetically seated on the container fitting and used to fix the collets spindle, and the end face of the container is hermetically sealed with a removable polymer plug; a fixing polymer ring with an outer diameter corresponding to the inner diameter of the container, an inner diameter corresponding to the outer diameter of the object to be scanned, and an optimum thickness of 3 mm; a polymer cylinder, one end of which is made spherical, the curvature of the surface of the cylinder end is selected according to the physiological curvature of the eyeball fragment, the height of the cylinder is selected according to the thickness of the fixation ring, and the diameter of the cylinder is corresponding to the lumen of the ring.

All components of the device — a container, a cap, a cork, a cylinder, and a fixation ring — are preliminarily made to individual sizes — the diameter, radius of curvature, and thickness of the object to be scanned from polymers by 3D-printing.

In an embodiment, the container is made of a disposable polymer medical syringe with a preferably central location of the needle nozzle, the syringe with the piston is shortened to the required length in order to prevent inertial deviations during the rotation of the spindle, the injection needle of the syringe is used as a conical cap with the top pin, and it is shortened to the necessary length, and as the end plug use a rubber head separated from the syringe piston.

The method of fixing the cadaveric whole eyeball and its sectional fragments as a scanning object during X-ray computer micro and nanotomography, and a device for its implementation, are used as follows: the scanning object is placed in front of the x-ray radiating tube in the focus area and fixed in a collet clamp located on the free end of the rotary spindle mounted at the other end by means of perpendicular support on the micro-positioning table and for fixing the ska object They use a polymer cylindrical tank whose bottom in the center is equipped with a conical fitting containing a coaxial through passage and a congruent plastic conical cap with an apex pin serving for fixing in the collet clamp of the spindle; a polymer fixing ring is prepared with an outer diameter corresponding to the inner diameter of the container and the inner diameter of the container eyeball when scanning it as a whole or to the diameter of a fragment cut out by a trepan from it That, and with an optimum thickness of 3 mm allowing reliable gluing of the scan object into the ring and fixing in the oblique positions of the ring in the container, insert the scan object into the fixation ring and glue along the perimeter with moisture-resistant adhesive, lubricate the inner surface of the container in the area of the fixation ring with moisture-resistant adhesive the ring with the object of scanning, depending on the scanning conditions - longitudinal, diagonal or transverse, respectively, is located under the necessary for an angle from 0 to 90 degrees, which allows you to get the necessary transverse, longitudinal or oblique x-ray tissue section inside the container in the glue fixing area, after gluing the ring with the container with the ring transverse, the container is turned upside down, the space between the scan object and the container end face through the channel the nipple is filled until the air is completely displaced from the tank and the nipple in the variants - physiological buffer solution, gel with a humidity of at least 30% to maintain physiological moisture The eyeball tissue, glycerin, the nozzle are closed with a cone-shaped cap, the container is turned with the nozzle down and the space above the object is filled with a similar medium, and in the longitudinal position of the ring, the nozzle is closed with a conical cap, the cap is turned down and the cavity is filled until the object is completely immersed until the object is completely immersed, the containers are sealed with a polymer stopper, the pin of the cone-shaped cap of the nozzle is inserted into the spindle collet clamp, the spindle is mounted on a rotating msya micro-positioning table, the capacity at a spindle rotation of the spindle coaxially vertically centered and finally fixed with collet clamp, the spindle is displaced so that the scanning point is the point around which the rotation of the scanning object is performed X or nanoskanirovanie micro computer.

At the same time, to fix the object of scanning, the device is used, all its component parts - capacity, cone-shaped cap, end cap, fixation ring and cylinder are preliminarily made to individual sizes - diameter, radius of curvature, thickness of the object to be scanned from polymers by 3D-printing.

The polymer cylindrical container is made with an inner diameter greater than at least 1 mm of the outer diameter of the object to be scanned - a whole eyeball or a fragment of it cut out by trepans to form a space for the installation of the fixation ring, at least 10 mm higher than the position of the highest point of the scanning object placed inside the tank, to form a space under the end cap.

In the embodiment for scanning, the container is made of a disposable polymer medical syringe with a preferably central location of the nozzle for the needle, the syringe is shortened to the required length in order to prevent inertial deviations during rotation of the spindle, an injection needle of the syringe is used as a cone-shaped cap with the top pin, and it is shortened to the necessary length, and as the end plug use a rubber head separated from the syringe piston.

Depending on the scanning objectives, the cadaver whole eyeball or its sectional fragments are preliminarily saturated with X-ray contrast agents and / or dried with alcohol and / or silica gel, while scanning the dried objects they are not filled in the container cavity, water-soluble salts are used as contrast agents or metal oxides, the object to be scanned is immersed in the solution of the desired concentration and the saturation is carried out in the following versions: passive - they simply withstand the necessary time or active - skoryayut and deepen contrast penetration into the object scanning by electrically and / or phonophoresis, wherein the passive scanning saturation object is dipped completely in the solution, i.e., X-ray contrast of the contrast agent with the eyeball tissue is provided from the outer and inner sides of the eyeball tissue, in the case of the whole eyeball, the contrast solution is poured into its anterior chamber and vitreous cavity after removing the vitreous body, and with active saturation, on only one side, and saline solution is poured on the opposite, after contrasting, excess contrast is removed from the surface of the tissue with saline.

During preliminary preparation and subsequent installation of eyeball fragments cut out by trepan in the fixation ring to preserve their physiological sphericity and prevent deformation, a polymer cylinder is used, one end of which is made spherical for laying the cut out fragment, the surface curvature of the cylinder end face is selected according to the physiological curvature of the cut fragment, the cylinder height is selected respectively the thickness of the fixation ring, the cylinder with the fragment is installed and glued into lumen of the fixation ring.

After performing all of the above steps and produce high-precision x-ray micro and nanoscanning.

The advantages of the claimed method and device is to improve the quality of visualization of the scanned object by achieving a long stable spatially oriented position in the physiological state, eliminating osmotic artifacts and keeping the object's morphological parameters unchanged throughout the entire process of x-ray computer micro and nanoscanning.

Claims (7)

1. The method of fixing the scan object in the form of a cadaverous whole eyeball and its sectional fragments during X-ray computer micro- and nanotomography, which consists in the fact that the scan object is placed in front of the radiating X-ray tube in the focus area and fixed in a collet clip located on the free end a rotating spindle mounted at the other end by means of a perpendicular support on a micro-positioning table, and a polymer cylinder is used to fix the scanning object a container with a conical fitting in the center containing a coaxial through channel and a conical congruent conical cap with a vertex pin that can be fixed in the spindle collet mentioned above, prepare a polymer fixing ring with a thickness of 3 mm and with an outer diameter corresponding to the inner diameter of the aforementioned capacity, and an inner diameter corresponding to the outer diameter of the eyeball when scanning it in its entirety or the diameter of a fragment cut out by a trepan from it nt, insert the object of scanning into the fixation ring and glue it around the perimeter with moisture-resistant adhesive, lubricate the inner surface of the container in the area of the fixation ring with moisture-resistant adhesive, the fixation ring with the object of scanning, depending on the scanning conditions — longitudinal, diagonal or transverse, respectively, at the angle specified for scanning from 0 to 90 degrees, inside the container in the area of adhesive fixation after gluing the ring with the container with the transverse arrangement of the ring mentioned the container is turned upward by the nozzle, the space between the object to be scanned and the end of the reservoir is filled through the nozzle channel until the air is completely displaced from the reservoir and the nozzle with physiological buffer solution, or gel with a humidity of at least 30%, corresponding to the physiological humidity of the fibrous membrane of the eyeball, or glycerin, while the nozzle is closed with a cone-shaped cap, the container is turned with the nozzle down and the space above the object is filled with a similar medium, and with a longitudinal position of the ring, the nozzle they dig it out with a cone-shaped cap, turn the container down and fill up the cavity until the scanning object is completely immersed, seal the container end face with a plastic stopper, insert the cone-shaped cap cap into the spindle collet, install the spindle on a rotating microposition centering table, spindle and finally fixed with a collet clamp, while the spindle is shifted so that the scan point is a point, District which the rotation of the scanning object, and carry out X-ray micro-computer or nanoskanirovanie. 2. The method according to p. 1, characterized in that for scanning as a container use a ready-made disposable polymer medical syringe with preferably a central location of the nozzle for the needle, while the syringe is shortened to the required length to prevent inertial deviations during rotation of the spindle, and as a cone-shaped the cap with the top pin uses an injection needle of the syringe, previously shortened to the required length, moreover, the rubber g separated from the syringe piston is used as the end plug a shackle. 3. The method according to p. 1, characterized in that the cadaveric whole eyeball or its sectional fragments, depending on the purpose of the scan, are pre-saturated with X-ray contrast agents and / or dried with alcohol and / or silica gel, while scanning the dried objects by filling them into the cavity they do not produce, water-soluble salts or metal oxides are used as contrasting substances, the object to be scanned is immersed in a solution of the desired concentration and saturation is carried out in a passive version upon exposure to time or in the active version when accelerating and deepening the penetration of contrast into the scan object by electrophoretic and / or phonophoresis, while passively saturating the scan object, immerse it completely in the solution, and the contact of the radiopaque substance with the tissues of the eyeball is provided from the outside and inside eyeball, in the case of a whole eyeball, a contrast solution is poured into its anterior chamber and vitreous cavity, having previously removed the vitreous body, and with active saturation SRI with only one hand necessary, while the opposite side is filled with saline, and, after the excess staining contrast is removed from the surface of the fabric with saline. 4. The method according to p. 1, characterized in that during preliminary preparation and subsequent installation of fragments of the eyeball cut out by trephine in the fixation ring, a polymer cylinder is used, one end of which is made spherical to fit the cut out fragment, to preserve their physiological sphericity and prevent deformation. the curvature of the surface of the cylinder end face is selected according to the physiological curvature of the cut fragment, the height of the cylinder is selected according to the thickness of the fixation ring, and the cylinder with the fragment is mounted and glued into the lumen of the fixation ring. 5. A device for fixing a scan object in the form of a cadaverous whole eyeball and its sectional fragments during X-ray computer micro- and nanotomography, containing a metal spindle equipped with a support pad from the end facing the micropositioning table, and a collet clamp from the opposite end, a polymer cylindrical a container whose inner diameter is not less than 1 mm greater than the outer diameter of the object to be scanned, whose height is not less than 10 mm higher than the position the highest point of the scan object placed inside the said container, while the bottom of the container has a centrally located conical fitting equipped with a through coaxial channel and a removable polymer cone cap with a vertex pin, which can be sealed on the container nozzle for fixing in the collet clamp of the spindle, the container is hermetically sealed with a removable polymer plug, a fixing polymer ring with an outer diameter corresponding to the inner diameter of the said container and inside the diameter, corresponding to the outer diameter of the object to be scanned, is a polymer cylinder, one end of which is spherical with a curvature corresponding to the physiological curvature of the eyeball fragment, the cylinder height corresponding to the thickness of the fixation ring and the cylinder diameter to the lumen of the ring. 6. The device according to claim 5, characterized in that the components of the device in the form of a container, cap, cork, cylinder and fixation ring are preliminarily made in accordance with the individual dimensions of the diameter, radius of curvature and thickness of the scanning object from polymers using 3D printer printing. 7. The device according to p. 5, characterized in that the said container is made of a disposable polymer medical syringe with preferably a central location of the nozzle for the needle, while the syringe with the piston is made shortened to a predetermined length to prevent inertial deviations during rotation of the spindle, and as a cone-shaped the cap with the top pin used the injection needle of the syringe, previously shortened to a predetermined length, and the rubber tube separated from the syringe piston was used as the end plug head.