RU225990U1 - Container for donor organ preservation - Google Patents

Abstract

The utility model relates to devices for preserving donor organs and can be used in the medical industry, in particular in transplantology. A container for preserving a donor organ contains a sealed housing having an internal cavity for placing the organ, with a means installed in it for fixing the position of the organ, and a pumping device for supplying perfusate to the vascular network of the organ, configured to take the perfusate from the internal cavity of the container body and containing a motor and the executive part. The pumping device, located inside the sealed housing, is installed in such a way that its motor is located in the cavity for housing the organ, and its executive part is mounted in a recess made in the base of the housing. The utility model reduces the risk of failure of the pumping device of the container for preserving the donor organ. 2 salary f-ly, 2 ill.

Description

The utility model relates to devices for preserving donor organs and can be used in the medical industry, in particular in transplantology.

A known container for preserving a donor organ contains a cradle for placing a sealed bag in it, acting as a cavity for housing the organ, and a pumping device for supplying perfusate to the vascular network of the organ, configured to take the perfusate from the cavity for housing the organ and connected to the sealed bag through flexible hoses through sealing gaskets [WO 2004026031 A2, publication date 04/01/2004]

The disadvantage of the known technical solution is the high risk of failure of the container for preserving the donor organ, due to the possible loss of connection between the sealed bag and the injection device due to tension or twisting of the hoses connecting them.

As a prototype, a container for preserving a donor organ was selected, containing a sealed housing with a lid, having an internal cavity for placing the organ, with a means installed in it for fixing the position of the organ, and a pumping device for supplying perfusate to the vascular network of the organ, configured to take the perfusate from the internal cavity of the container body and containing the engine and the executive part, in the form of an impeller, with the impeller installed in the cavity of the housing cover, and the engine installed on its outside [WO 2020252148 A1, publication date: 12/17/2020]

The advantage of the prototype over the known technical solution is to reduce the risk of failure of the container for preserving a donor organ by providing a rigid connection between its elements.

However, the disadvantage of the prototype is the high risk of failure of the injection device, in particular its motor, due to its installation on the outside of the housing cover. This type of installation increases the vulnerability of the engine to external damage during transportation of the container, as a result of which the operating mode of the engine, and, consequently, the organ perfusion mode, may be disrupted, or a complete failure of the engine may occur, cessation of organ perfusion and, as a consequence, its loss , which significantly impairs the reliability of the container for preserving the donor organ.

The technical problem that the utility model is aimed at solving is the need to increase the reliability of the container for preserving the donor organ.

The technical result that the utility model is aimed at achieving is to reduce the risk of failure of the pumping device of the container for preserving the donor organ.

The essence of the utility model is as follows.

A container for preserving a donor organ contains a sealed housing having an internal cavity for placing the organ, with a means installed in it for fixing the position of the organ, and a pumping device for supplying perfusate to the vascular network of the organ, configured to take the perfusate from the internal cavity of the container body and containing a motor and the executive part. Unlike the prototype, the pumping device is installed in such a way that its motor is located in the cavity for housing the organ, and its executive part is mounted in a recess made in the base of the body.

The body, to ensure the possibility of placing the donor organ in its internal cavity, can be made detachable and consisting, for example, of a container with a base and a lid, or of a container with a removable base, or of two hollow mating containers, one of which has a base , etc., not limited by the number of components of the housing. These design features of the housing can be ensured while maintaining its tightness. At least one viewing window can be made in the lid and/or walls of the housing, providing the ability to visually monitor the preservation processes of the donor organ. One or more holes can be made in any part of the housing to supply a conservation medium into the internal cavity of the housing and/or remove the medium from it. The body of the container for preserving a donor organ can be made with the possibility of introducing into its internal cavity and/or removing from it both liquid and gaseous preservation medium, and can also be made with the possibility of bubbling a liquid preservation medium, for which it may have all the necessary providing the mentioned functions with design features. Shut-off valves can be attached to the said hole or holes, making it possible to regulate the rate of injection of the conservation medium into the internal cavity of the housing or discharge of the conservation medium from it. The housing can be made thermally insulated, for which it can have a double wall equipped with a thermally insulated layer.

The pumping device provides the ability to pump the perfusate into the vascular network of the organ and can be represented by any type of pump that contains a motor and an actuator and provides a sufficient pressure of the pumped medium at the outlet. The composition of the executive part may differ for different types of superchargers, while what is common to all types of superchargers is the presence of a housing in the executive part, in which all its main elements are located. For example, if the pumping device is represented by a peristaltic pump, then its executive part may include a rotor, pressure rollers, a hose and a guide for it, which is the body of the executive part. All elements included in the executive part can be made disposable or sterilizable to ensure their sterility.

During operation of the pumping device, the perfusate is taken from the internal cavity of the housing. The pumping device is installed in the body of the container for preserving the donor organ in such a way that its motor is located in the cavity for housing the organ, and its executive part is mounted in a recess made in the base of the container body for preserving the donor organ, which reduces the risk of failure of the pumping device container for preserving a donor organ. The dimensions of the recess made in the base of the container body for preserving the donor organ can correspond to the dimensions of the body of the executive part, while the cavity of the recess can communicate with the cavity for placing the organ.

To further reduce the risk of failure of the injection device and protect the engine from contact with the conservation environment, it can be enclosed in a sealed housing, and an oil seal can be installed in the gap between the engine shaft and its housing. In this case, to further enhance the mentioned technical result, the stuffing box seal may contain a metal reinforcing frame and a spring ring, which provides a tighter compression of the shaft encircling it and a more reliable sealing of the engine housing.

Placing and fixing the position of the organ in the internal cavity of the body can be ensured by means installed inside it, which can be represented by a tripod, bracket, cradle or open container containing the specified elements, etc. means that provide the possibility of transporting an organ in an anatomical position for it, in which there is no compression of the elements of its vascular network and its uniform perfusion is ensured, and can also be represented by a stand for the mentioned means. The specified means for placing and fixing the position of the organ in the internal cavity of the body can be made disposable or sterilizable to ensure their sterility.

A utility model can be made from known materials using known means, which indicates its compliance with the patentability criterion of “industrial applicability”.

The utility model is characterized by a set of essential features previously unknown from the prior art, characterized in that the pumping device is installed in such a way that its motor is located in the cavity for housing the organ, and its executive part is mounted in a recess made in the base of the housing, which eliminates access from the outside to any elements of the pumping device, during the process of organ preservation and transportation of the container, thereby achieving the technical result of reducing the risk of failure of the pumping device of the container for preserving the donor organ, thereby increasing the reliability of said container.

A utility model is characterized by a set of essential features previously unknown from the prior art, which indicates its compliance with the patentability criterion of “novelty”.

The utility model is illustrated by the following figures.

Fig. 1 - Container for preservation of a donor organ, longitudinal section.

Fig. 2 - Assembly of the pumping device of the container for preservation of the donor organ, longitudinal section.

To illustrate the possibility of implementation and a more complete understanding of the essence of the utility model, a variant of its implementation is presented below, which can be changed or supplemented in any way, while this utility model is in no way limited to the presented variant.

The container for preserving a donor organ contains a sealed body consisting of a base 10, a wall 12, an upper part 14 and a lid 16, forming an internal cavity for housing the donor organ. The cover 16 has a viewing window 18 and is configured to hermetically close the internal cavity to accommodate the donor organ. At the base 10 of the body there are holes for connecting needle taps to them, one of which acts as an element for introducing a conservation medium into the cavity for placing the organ, and the other acts as an element for removing the preservation medium from it.

In the internal cavity of the body there is installed a means for fixing the position of the organ, represented by a stand 20, which ensures installation of a container for the organ to be preserved on it. Also installed in the internal cavity of the housing is a pumping device, represented by a peristaltic pump and containing a motor 22 and an executive part, consisting of a rotor 24, pressure rollers 26, a hose 28 and a guide for it, which is the housing 30 of the executive part. The inlet end of the hose 28 is located in the cavity for placing the donor organ and makes it possible to collect the perfusate from the internal cavity of the housing.

The engine 22 is enclosed in a sealed housing 32, while in the gap between the motor shaft 34 and the housing 32 an oil seal 36 is installed, which has a metal reinforcing frame and a spring ring. The executive part, enclosed in a housing 30, is mounted in a recess made in the base 10. The sealed motor housing 32 is installed above the recess and secured to the base 10 with screws, while the shaft 34 is connected to the rotor 24, and the cavity formed by a recess made in base 10, communicates with the internal cavity of the housing. The housing 30 of the executive part also has holes made in its walls to communicate its internal cavity with the cavity of the recess and, as a consequence, with the internal cavity of the housing.

The utility model works as follows.

To preserve a donor organ, a container with it is placed in the internal cavity of the body on a stand 20 and the organ is connected to a peristaltic pump, in particular to the outlet end of the hose 28, using an adapter coupling installed in the artery of the organ, after which the lid 16 of the container body is closed, thereby ensuring the sealing of its internal space. After sealing, the needle valve is opened and a conservation medium is pumped into the internal space of the housing until the required pressure is established, while the conservation medium also fills the recess made in the base 10 and the internal cavity of the housing 30 of the executive part. In the process of perfusion of the donor organ, the perfusate is collected by a peristaltic pump through the inlet end of the hose 28 from the internal cavity of the body, filled with a preservation medium. At the end of the donor organ preservation process, the preservation medium is discharged from the internal cavity of the body by opening a needle valve.

When transporting a container for preservation of a donor organ, the peristaltic pump motor 22 is located in the cavity for placing the donor organ, which ensures its protection from external damage, thus reducing the risk of its failure.

In addition, the pressure of the preservation environment created during the process of preservation of the donor organ affects the stuffing box seal 36, thus ensuring a tighter compression of the shaft 34 encircling it and reliable sealing of the engine housing 32, which in turn protects the engine elements 22 from corrosion as a result of contact with the conservation environment.

Thus, the achievement of a technical result is achieved, which consists in reducing the risk of failure of the pumping device of the container for preserving a donor organ, thereby increasing the reliability of the said container.

Claims (3)

1. A container for preserving a donor organ, containing a sealed body having an internal cavity for placing the organ, with a means installed in it for fixing the position of the organ, and a pumping device for supplying perfusate to the vascular network of the organ, configured to take the perfusate from the internal cavity of the container body and containing a motor and an executive part, characterized in that the pumping device located inside the sealed housing is installed in such a way that its motor is located in the cavity for housing the organ, and its executive part is mounted in a recess made in the base of the housing. 2. The container according to claim 1, characterized in that the blower motor is enclosed in a sealed motor housing installed above the recess and secured to the base, while a gland seal is installed in the gap between the motor shaft and its housing. 3. The container according to claim 2, characterized in that the stuffing box seal contains a metal reinforcing frame and a spring ring.