RU154919U1 - DEVICE FOR APPLICATION OF CATTLE EMBRYOS - Google Patents

Abstract

A device for the application of cattle embryos, including a guide tube hollow along its entire length with the formation of a transport channel intended for the passage of an elastic capillary tube inside it, while the proximal end of the guide tube is open and non-plugged, and from the outside of this proximal end, an emphasis is made with a mark, and the distal end of the guide tube is muffled with a rounded outer wall, in addition, near the muffled end of the tube-nap the side hole made to exit from the transport channel of the distal end of the capillary tube, which is open and not plugged, in addition, the proximal end of the capillary tube is connected to the pneumatic ejector, characterized in that the transport channel in the section of its exit to the side hole is made curved while the bending of the transport channel is formed by the inner wall of the blanked distal end of the guide tube, paired with the outer rounded wall of this distal end in addition, the radius of curvature of the bend and the diameter of the side hole are designed so that the capillary tube at the outlet of the side hole forms an angle from the side of the outer rounded wall equal to 10-70 ° relative to the axis of the guide tube, in addition, the distal end of the tube -capillary is made expanded in the form of an ellipsoid adapter, the outer diameter of which is made with the possibility of free movement along the transport channel and exit through the side hole.

Description

The utility model relates to the field of biotechnology of reproduction of farm animals, in particular, cattle, and can be used for transplantation of embryos into the genitals of recipients.

Non-surgical transplantation of embryos in farm animals, recognized as the most effective technology for transplanting frozen, thawed, fresh and otherwise obtained embryos, is the transfer of an embryo with medium (hereinafter - the embryo) from a micropipette or from a sequin to the body of the uterus of a female animal using devices designed to transplantation, for example, syringe boats. Payeta is a polyethylene straw in which conditions are provided for aseptic storage and transportation of the embryos placed in it (V.V. Madison, V.L. Madison. Transplantation of embryos in the practice of breeding dairy cattle. - M: VO Agropromizdat, 1988 ., pp. 115-118).

Despite the increased scientific and practical interest in the topic of their transplantation, embryo survival rates are currently relatively low (about 50% and lower). This indicator depends on many factors, including the place of implantation, which consists in placing the embryo at a given point in the uterus of the animal (the so-called place of the intrauterine application of the embryo). In cattle, in particular, the top of the uterine horn is recognized as the most optimal place for application of the embryo, which is the zone where the embryo leaves its shiny shell when natural pregnancy occurs.

The constructions of a number of known embryo transplantation devices are a tubular body (tube) with a stop containing a mark and made on the outside of the proximal end of the tubular body, inside of which there is a regular place for placement of sequins from the distal end, from which the embryo is pushed into the process cavity of the uterine horn, and the device is removed from the genital tract of the animal (SU No. 1590069, No. 1802702, No. 1748813). The disadvantage of such devices is that they cannot reach the top of the horn of the uterus, and, as a result, there is no possibility of pinpoint application of the embryo to the desired location of the top of the horn of the uterus.

A device for transplantation of embryos (prototype - AS No. 1796171). allowing to reach the top of the horn of the uterus of cattle, which includes a flexible tube-catheter with a rigid tip equipped with a T-shaped hole, into which an elastic capillary is joined, which is joined to the sequin, inside which the embryo is contained. Payetu, in turn, is connected to a pneumatic ejector. The device also contains a mandrin, which is placed inside the catheter tube to give rigidity before introducing the catheter tube into the genitals of the animal. After this introduction, the mandrin is gradually removed from the catheter tube, and then a capillary with an embryo is inserted into it. It should be noted that the text of the original description of the prototype contains various names relating to the same structural element: the catheter tube, in addition, is called the “outer case of the device made of elastic material”, “elastic tube-catheter”, “elastic probe” “Flexible catheter”; an elastic capillary is also referred to as a “transport capillary”, and a pneumatic ejector is referred to as a “syringe-type air blower”. According to the original description and drawing of the prototype, the catheter tube performs the target function of the guide (hereinafter referred to as the guide tube) of the embryo to the place of its application inside the body of the uterus of the animal by passing the embryo from the payte through the transport capillary located inside this guide tube (hereinafter referred to as the capillary tube ) As can be seen from the drawing of the prototype, the guide tube is hollow along its entire length with the formation of a transport channel intended for the passage of a capillary tube inside it. The proximal end of the guide tube is open and unobstructed, through which a capillary tube is inserted into the transport channel of the guide tube. The distal end of the guide tube is muffled by a rigid tip with a rounded outer wall, in which a T-shaped hole is made. Moreover, a T-shaped hole made in a rigid tip, according to the formula of the prototype, is an axial hole communicating with the output channels (side holes) in a plane perpendicular to the axial hole. Side holes are made near the muffled end of the guide tube. When the capillary tube is distally advanced along the transport channel towards the rigid tip, when it is reached, the capillary tube is connected directly to the axial opening, from which the embryo enters the uterine cavity through the outlet channels that communicate with it (lateral openings).

Despite the fact that the guide tube of the above prototype device is flexible and allows to reach the top of the horn of the uterus of cattle, its disadvantage is the high risk of injury to the uterine endometrium when it moves inside the genital tract using a hard mandrin to the desired point of the uterine horn, and also when removing this mandrel from the guide tube, especially in cases where the embryo transfer procedure is carried out on heifers whose genitals are smaller than adult cows, which due to their virility. A hard tip that allows you to freely manipulate inside the uterus and using palpation to control the location of the distal end of the guide tube during transplantation, causes additional injuries to the mucous membrane of the uterine horn. Another drawback is the lack of control over the movement of the embryo inside the capillary tube, since the long path that the embryo takes when moving from the sequel through the capillary tube to the place of application can lead to death of the embryo even when it is in the device. As a result, the embryo engraftment rate decreases, embryonic mortality rises, in addition, significant losses of valuable biological material, time and labor costs of the operator occur.

The task to which the claimed technical solution is directed is to provide the possibility of application of the embryo to the top of the uterine horn of the animal while reducing the risk of trauma to the endometrium.

The technical result is to increase the survival rate of the embryo after transplantation of frozen, thawed, fresh and otherwise obtained embryos by applying the embryo to a given point on the top of the uterine horn, corresponding to its physiological location depending on the stage of development, and minimizing injuries to the uterine endometrium.

The technical result is achieved by the fact that the device for the application of cattle embryos includes a guide tube 1 hollow along its entire length with the formation of a transport channel 2 intended for the passage of an elastic capillary tube 3 inside it, while the proximal end 4 of the guide tube 1 made open and not muffled, and on the outside of this proximal end there is a stop 9 with a mark 10, and the distal end of the guide tube 1 is made muffled with a rounded outer wall 5, in addition, near the muffled end of the guide tube 1, a side hole 6 is made for exiting from the transport channel 2 of the distal end of the capillary tube 3, which is open and non-muffled, in addition, the proximal end of the capillary tube 3 is connected to the pneumatic ejector 7. According to the utility model, the transport channel 2 in the area of its exit to the side hole 6 is made curved, while the bending of the transport channel 2 is formed by the inner wall 8 of the muffled distal end of the guide tube 1 coupled to the outer rounded wall 5 of this distal end, in addition, the radius of curvature of the bend and the diameter of the side hole 6 are designed so that the capillary tube 3 at the outlet of the side hole 6 forms an angle from the side of the outer rounded wall 5 equal to 10 70 ° relative to the axis of the guide tube 1, in addition, the distal end of the capillary tube 3 is made expanded in the form of an adapter 11 of an ellipsoid shape, the outer diameter of which is made with the possibility of free movement along the transport channel 2 and you stroke through the side hole 6.

The figure 1 shows a General view of a device for the application of embryos of cattle in longitudinal section.

The details of the embryo application device have the following characteristics. The guide tube 1, depending on the material from which it is made, can be disposable (in particular plastic) and / or reusable (in particular metal). In order to use the patented device for the application of embryos in cattle, the preferred parameters of the guide tube 1 are: length 30-50 cm, outer diameter 2-6 mm, inner diameter (diameter of the transport channel 2) 1.5-2.5 mm The transport channel 2 of the guide tube 1 has a smooth inner surface. The stop 9, made on the outside of the proximal end of the guide tube 1, contains a mark 10, the location of which on this stop 10 indicates the location of the side hole 6 made near the muffled end of the guide tube 1 The elastic capillary tube 3 can be made of polymers, used for the manufacture of medical tubes. Preferred parameters of the capillary tube 3 are: length - 45-65 cm, outer diameter - 0.5-2.0 mm, inner diameter 0.3-0.5 mm.

The capillary tube 3 may contain a scale that allows the operator during the embryo transplantation to determine the insertion depth of the capillary tube 3, as well as to control the exit moment of the adapter 11 (in the form of which the distal end of the capillary tube 3 is made) from the side hole 6. The scale can be used , in particular, when using ultrasonic control during the embryo transfer procedure, in addition, if necessary, conducting scientific research, in particular, when studying the characteristics of the optimal depth the input of the capillary tube 3. The scale is placed at the proximal end of the capillary tube 3 between the pneumatic ejector 7 connected to it and the stop 9 of the guide tube at this location of the adapter 11 in the transport channel 2, when the adapter 11 is near the exit from the side hole 6. When this, the zero mark of the scale is located opposite the stop 9, and the numerical increase in the divisions continues towards the pneumatic ejector 7, which can be made in the form of a syringe.

A device for the application of cattle embryos works as follows. The operation of the device is shown in such an option when the use of ultrasound control is not available for the operator, which allows using ultrasound to ensure the visibility of the device inside the genital organs of the animal.

Before transplantation, the recipient's embryo is fixed in the machine and preparatory procedures are performed: low sacral anesthesia by introducing a 2% solution of novocaine into the epidural space between the first and second caudal vertebrae, and sanitary-hygienic treatment of the external genital organs.

Seeding with embryo is thawed according to the established instructions for embryo transplantation. A pneumatic ejector 7 is connected to the proximal end of the capillary tube 3 with 1-2 cm ^{3 of} air drawn into it. Through the adapter 11, the payet is connected to the distal end of the capillary tube 3, into which the contents from the payet (embryo with medium) are transferred. After that, the sequins are removed from the adapter 11. Due to its ellipsoid shape, the adapter 11 provides the operator with a convenient docking of the sequins with the distal end of the capillary tube 3 and the safe transfer of the embryo with the medium from the sequins to the capillary tube 3 to prevent losses of the contents of the sequins outside the tube- capillary 3 and reducing the risk of injury to the embryo or its death.

After the embryo is placed at the distal end of the capillary tube 3, a clip is installed on the capillary tube 3 from the proximal side just below the pneumatic ejector 7 (1-3 cm) to prevent spontaneous movement of the embryo inside the capillary tube 3 and leakage from her embryo.

The guide tube 1 is inserted at the distal end into the cow's reproductive organs. The muffled distal end of the guide tube 1 due to its implementation with a rounded outer wall 5 minimizes trauma to the mucous membrane of the uterine cervix. Under the control of the operator’s hands, the guide tube 1 is passed through the cervix and the distal end of the guide tube 1 is fixed behind the bifurcation line (bifurcation of the uterine horns) in one of the uterine horns. Moreover, the operator, focusing on the mark 10, palpation determines and adjusts the location of the lateral opening 6 so that it corresponds to the physiological direction of the horn of the uterus of the recipient.

After that, the distal end of the capillary tube 3 with the embryo is introduced into the transport channel 2 of the guide tube 1 from its proximal side. Since the distal end of the capillary tube 3 is made expanded in the form of an adapter 11 of an ellipsoidal shape, the outer diameter of the adapter 11 is made with the possibility of its free movement along the transport channel 2 and exit through the side hole 6. By smooth movements of the operator’s hands advance the distal end of the capillary tube 3 towards the bend of the transport channel 2 and to the side hole 6. The bend of the transport channel 2, formed by the inner wall 8 of the muffled distal end of the guide tube 1, paired with the outer ruglennoy wall 5 of the distal end allows to smoothly and without kinking pass-capillary tube 3 to the side opening 6 of the transport channel 2.

The operator monitors the process of moving the capillary tube 3 after it exits from the lateral opening 6 into the uterine cavity by the location of the adapter 11. Due to its ellipsoidal shape, the adapter 11 serves as an indicator for the operator about the location of the distal end of the capillary tube 3 during rectal palpation and promotes monitoring the management and conduct of the capillary tube 3 after it leaves the guide tube 1 into the uterine horn cavity. If there is a scale that can be applied to the capillary tube 3, the operator can determine the moment the adapter 11 exits the guide tube 1 and the depth of the capillary tube 3 in the inner cavity of the uterine horn by the location of the scale divisions. In addition, after the exit of the capillary tube 3 from the lateral opening 6 into the genitals, as well as during its further advancement to a given place of application, due to the presence of the adapter 11, made in the form of an ellipsoidal shape, trauma to the tissues of the genital organs of the animal is minimized. Thus, the implementation of the distal end of the tube-capillary 3 extended in the form of an adapter 11 of an ellipsoidal shape contribute to the achievement of the technical result stated in the proposed utility model.

After making sure that the adapter 11 has left the guide tube 1 into the uterine cavity, the operator continues to advance the capillary tube 3 and makes sure that the capillary tube 3 does not bend as it moves to the point of application of the embryo.

It should be noted that after leaving the side hole 6, the distal end of the capillary tube 3 forms an angle from the side of the outer rounded wall 5 equal to 10-70 ° relative to the axis of the guide tube 1. The radius of curvature of the bend formed by the inner wall 8, as well as the diameter of the side holes 6 are made in such a way (for example, using computer programs) that allow the capillary tube to form the aforementioned angle in the range of 10-70 ° when it leaves the side hole 6 in the uterine cavity. Within this angle range, the capillary tube 3 bends in accordance with the physiological structure of the uterine horn, which allows it to freely pass through the internal cavity of the uterine horn and minimize the risk of injury to the uterine endometrium. If the capillary tube 3 forms an angle of less than 10 ° or more than 70 °, its distal end in the process of exiting from the lateral opening 6 may abut against the wall of the uterine horn and injure the mucous membrane. At the same time, a jam (hooking) of the distal end of the capillary tube 3 at the injury site and bending of the capillary tube 3 can occur. With further manipulations of the operator with the capillary tube 3, which does not see the hook and continues to advance the capillary tube 3 further into the cavity of the horn the uterus, capillary tube 3 can form a loop when bent. In this case, the operator may have the impression that the procedure is going as usual, but in fact the distal end of the capillary tube 3, which should reach the application point, remains near the side hole 6, while the capillary tube 3 continues to move along the inner the cavity of the uterine horn is just an educated loop forward.

Due to the fact that such structural elements of the patented device as the bend of the transport channel 2, formed by the inner wall 8 of the muffled distal end of the guide tube 1, paired with the outer rounded wall 5 of this distal end, as well as the radius of curvature of the bend and the diameter of the side hole 6 so that the capillary tube 3 when it leaves the lateral opening 6 into the uterine cavity forms an angle in the range of 10-70 °, contribute to the achievement of the technical result stated in the proposed floor heat model.

The operator’s further action to advance the capillary tube 3 inside the uterine horn cavity after the distal end leaves the guide tube 1 is to route the capillary tube 3 to the desired place for application of the embryo. The application point of the embryo is determined by rectal palpation, focusing on the location of the adapter 11 in the internal cavity of the uterine horn, reaching the top of the uterine horn. When the point of application is reached, the clamp is removed from the proximal side of the capillary tube 3 and gently pressing the piston of the pneumatic blower 7 squeezes air into the cavity of the capillary tube 3. Under air pressure, the embryo with the medium from the distal end of the capillary tube 3 moves to the point of application.

If it is necessary to transplant another embryo into the opposite uterine horn, the capillary tube 3 is removed from the genitals and from the guide tube 1, and the guide tube 1 is pulled back a little, retreating the bifurcation line, and inserted into the contralateral horn of the cow uterus, without injuring the cervix repeated passage. Re-introduction of the capillary tube with the embryo is carried out similarly. At the end of the embryo application procedure, the device is removed from the genital tract of the animal.

The patented device for embryo application was manufactured by the Federal State Budget Scientific Institution “Center for Experimental Embryology and Reproductive Biotechnologies” (FGBNU TSEERB) and tested on cows and heifers in a number of farms in the Moscow region. 17 transplants were performed on one frozen-thawed embryo to the recipient heifers at the top of the uterine horn ipsilaterally to the corpus luteum. Pregnancy was diagnosed by ultrasound scanning 35 days after transplantation. Of the 17 goals of the recipients, 11 showed pregnancy, while the survival rate was 64.7%.

The results obtained indicate that the patented device for applying embryos to the top of the uterine horn increases the survival rate of embryos during their transplantation to recipients.

The proposed utility model is new, since the set of its essential features is not known from the prior art, and also meets the patentability condition “industrial applicability”.

A device for applying embryos can be manufactured industrially.

Claims (1)

A device for the application of cattle embryos, including a guide tube hollow along its entire length with the formation of a transport channel intended for the passage of an elastic capillary tube inside it, while the proximal end of the guide tube is open and non-plugged, and from the outside of this proximal end, an emphasis is made with a mark, and the distal end of the guide tube is muffled with a rounded outer wall, in addition, near the muffled end of the tube-nap the side hole made to exit from the transport channel of the distal end of the capillary tube, which is open and not plugged, in addition, the proximal end of the capillary tube is connected to the pneumatic ejector, characterized in that the transport channel in the section of its exit to the side hole is made curved while the bending of the transport channel is formed by the inner wall of the blanked distal end of the guide tube, paired with the outer rounded wall of this distal end in addition, the radius of curvature of the bend and the diameter of the side hole are designed so that the capillary tube at the outlet of the side hole forms an angle from the side of the outer rounded wall equal to 10-70 ° relative to the axis of the guide tube, in addition, the distal end of the tube -capillary is made expanded in the form of an ellipsoid adapter, the outer diameter of which is made with the possibility of free movement along the transport channel and exit through the side hole.

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