DE2757753A1 - Ringer solution injection device - with non-return valves in pipes to syringe and heart catheter for better sterility - Google Patents

Abstract

An injection device for Ringer solutions during measurements of the blood circulation through the heart of a patient with a heart catheter includes a pipe system for a direct connection of catheter and infusion flask, with a branch to the hypodermic syringe. Non-return valves are arranged upsteam of the branch and downstream of it in the line to the heart catheter. This ensures that the Ringer solution can be injected under conditions which guarantee a lasting and reliable sterility. The hose from an infusion flask is coupled to a pipe system around an ice cube filled container. One outlet leads to a heart catheter. A T-branch leads to an outlet for an injection syringe. One non-return valve is arranged upstream of the branch, and another in the line to the catheter. The thermosensor of an injection probe protrudes into the pipe.

Description

Device for injecting Ringer's solution ...

The invention relates to a device for injecting ring redemption for carrying out cardiac output measurements with a solution bottle, a cardiac catheter with thermal probe and an injection syringe.

When measuring blood flow through a patient's heart (cardiac output measurement) is a cardiac catheter through a vein in the arm to the heart and through the patient Heart led. There is a thermal probe at the tip of the cardiac catheter Measurement of the blood fluid flowing past. In the realm of the heart the possesses Catheter an opening from which a Ringer's solution, i.e. a Saline solution exits at a defined temperature that was injected into the catheter and mixes with the blood flowing through it. Such can be done with knowledge of the quantity the ring he solution as well as the temperature of the patient's blood the blood flow rates to be determined. Such measurements are made several times a day for a patient carried out. For this purpose, Ringer's solution is obtained from a solution bottle with a syringe sucked in, the beginning of the cardiac catheter, usually with a plug or a cap is closed, opened and the Ringer's solution into the heart catheter injected. Then the syringe and the cardiac catheter are removed again locked again. The Ringer solutions must always be on a relatively low level Temperature are maintained.

A disadvantage of such a performance of CO measurements, such as it is common practice, above all, is that complete sterility is not guaranteed can be. For example, the injection syringe is at the transition from the solution bottle to the beginning of the cardiac catheter in a non-sterile atmosphere. The starting piece of the cardiac catheter and the locking means are also open not sterile. This non-sterility carries the risk of infections for the patient in itself.

The present invention is therefore based on the object of a device for injecting Ringer's solution when taking cardiac output measurements, which guarantees permanent, reliable sterility.

According to the invention, this object is achieved by a device as described at the outset mentioned type solved, which is characterized in that the solution bottle as an infusion bottle directly to the cardiac catheter via a line system and is connected directly to the injection syringe via a branch; that before the branch to the cardiac catheter or injection syringe one from the infusion bottle incoming liquid-permeable first check valve is arranged; and that behind the branch in the outlet of the line system to the cardiac catheter there is a liquid arranged in the direction of the cardiac catheter permeable, second non-return valve is.

It is advantageous that a large number of measurements can be carried out an infusion bottle is only connected once, and then the entire Device is kept sterile for many measurements.

A preferred embodiment of the device according to the invention is characterized by the fact that behind the branch there is one with a thermal sensor equipped injection probe protrudes into the pipe system. This can be reliable the temperature of the injection liquid measured before injection through the cardiac catheter will.

Another preferred embodiment is characterized by that the pipe system is at least partially led into a thermal container, this embodiment can be designed in that the line system in the thermal container forms a storage space that a storage space before the first Check valve is formed and that storage space after the first check valve formed between branches and an injector connection for the injection syringe is. Furthermore, it can advantageously be provided that the memory space between Branches and syringe significantly the volume of the Incection syringe and that the storage space in front of the first check valve is larger than the storage space between branches and injection syringe, where an extremely preferred embodiment provides that the storage space by cooling coils is formed. The thermal container is filled with ice and tap water filled up. After the lid has been closed, the temperature of the Ringer's solution can be reliably pre-cooled, the formed by the thermal container Cold reservoir for a long time, namely a small one at least over an entire work shift Maintains temperature, which even after several hours does not exceed about 10 & increases.

To improve the insertion process with the lid of the thermal container connected line system of the device according to the invention is according to a further Embodiment provided that a grid cylinder is arranged in the thermal container is. After insertion, the diving snakes surround the grid cylinder that holds the ice so that it does not leak to the outside and not the entire space of the thermal container can occupy, namely in particular not the space of the thermal container in the Immerse the piping system.

An extremely advantageous embodiment of the device according to the invention is characterized by the fact that thermal containers, pipe systems and lattice cylinders are autoclavable, it is advantageously provided that thermal containers, Pipe systems and lattice cylinders are made of stainless steel. Such can a sterilization up to temperatures of over 200 0c can be carried out.

For easy connectivity is according to a further embodiment of the present invention provided that connection connections formed as LuerLock connections are provided between the individual parts.

When putting the device according to the invention into operation, care must be taken make sure that the device is free of air bubbles, which can happen that the injection syringe is drawn up and emptied several times.

Further advantages and features of the invention emerge from the claims and from the following description, in which an exemplary embodiment is based on Drawing is explained in detail. The only figure shows: the essential ones Elements of the device according to the invention in a thermal container in section.

The device according to the invention for injecting Ringer's solution, i.e. a saline solution, for performing cardiac flow measurements (CO measurements) has an infusion bottle (not shown), which by means of a hose 10 continuously is connected to the inlet 11 of a line system 12.

The line system 12 leads to a heart catheter 13, the beginning of which is only shown, the cardiac catheter at an outlet 14 of the conduit system 12 is connected. Before the outlet 14 of the line system 12 to the cardiac catheter 13, the line system 12 has a branch 16 from which a branch 17 of Line system 12 via an injector connection 18 to an injection syringe 19 leads.

Shortly before branch 16, there is a check valve in the line system 12 21 attached, the liquid in the pipe system 12 only in the direction of the inlet 11 to the branch 16 and thus to the cardiac catheter 13 and to the injection syringe 18, while it closes automatically when the fluid pressure is in the opposite direction.

Another check valve 22 is located behind the branch in the outlet 14 to the cardiac catheter 13. This check valve 22 leaves only one Fluid flow from the line system 12 to the cardiac catheter 13. Will on that Check valve 22 an opposite pressure, so from the heart catheter 13 in the direction exercised on the branch 16, it flows automatically.

Behind branch 16 protrudes into branch 17 of the line system 12 via a connection 23 of the thermal sensor 24 of an injection probe 26.

The line system 12 is wound several times in the form of diving coils 27, in order to form a storage space for the injectate liquid. A big one, through Storage space formed by diving coils 27 is located between the inlet 11 and the check valve 21, while a smaller one formed by diving coils 27 ' Storage space between branch 16 and injector connection 18 for the injection syringe 19 is arranged.

The entire pipe system is located in a thermal container 28 made of stainless steel with double walls 29, 29 'between which there is a vacuum. The thermal container 28 is provided with an associated lid 29 in which the inlet 11, the outlet 14 and the connections 18 and 23 are located, so that the pipe system 12 is firmly connected to the cover 29. Various Branches of the line system 12 are connected to one another by clamps 31. In the thermal container 28, a grid cylinder is still located within the line system 12 used 32.

To use the device for injecting Ringer's solution for Carrying out CO measurements, the grid cylinder 32 is filled with ice and that Inside of the thermal container 28 filled with water. Then the pipeline system 12 inserted around the grid cylinder 32 reaching into the thermal container 28 and the Lid 29 firmly connected to the walls of the thermal container 28.

The entire line system 12 is made from the infusion bottle that has flowed on filled with Ringer's solution. If a cardiac output measurement is to be carried out, the injection fluid is used by means of the injection syringe 19 from the immersion coil 27 and the branch 17 of the line system 12 raised.

In this case, pre-cooled liquid flows through the check valve 21 from the diving line 27 into the branch 17 and the diving line 27 1 of the pipe system 12. The check valve 22 is closed by the negative pressure acting, see above that no injection fluid flows back from the heart catheter 13 and above all no blood fluid can strike back.

The through the check valve 21 in the branch 17 of the line system 12th The injection liquid that is sucked in is released when the injection syringe is pressed down 19 via the opening check valve 22 into the heart catheter 13 and thus into the ventricles depressed. The overpressure closes this Check valve 21, so that no infusion fluid enters the diving coils 27 can be pushed back.

Due to the measurement of the temperature of the liquid to be injected by means of the injection probe 26 and measurements of the temperature by means of a thermal sensor (not shown) at the end of the cardiac catheter 13 can then in a conventional manner CO measurement due to the mixture of injection fluid and blood fluid carried out and determined the blood flow rate through the heart in a known manner will.

The in the above description, in the drawing and in the Features of the invention disclosed claims can both individually and in any combinations for realizing the invention in its various Embodiments are essential.

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Claims (15)

Claims device for injecting Ringer's solutions for implementation of cardiac output measurements with a solution bottle, a cardiac catheter with a thermal probe and an injection syringe, characterized in that the solution bottle is an infusion bottle Via a line system (12) directly to the cardiac catheter (13) and via a branch (16) is connected directly to the injection syringe (19); that before the branch to the cardiac catheter (13) or injection syringe (19) comes from the infusion bottle Liquid-permeable first check valve (21) is arranged; and that behind the branch (16) in the outlet (14) of the line system (12) to the cardiac catheter (13) a liquid in the direction of the cardiac catheter (13) permeable, second non-return valve (22) is arranged. 2. Apparatus according to claim 1, characterized in that Behind the branch (16) an injection probe equipped with a thermal sensor (24) (26) protrudes into the line system (12). 3. Apparatus according to claim 1 or 2, characterized in that the line system (12) at least partially led into a thermal container (28) is. 4. Apparatus according to claim 3, characterized in that the line system (12) forms a storage space in the thermal container (28). 5. Apparatus according to claim 4, characterized in that a storage space is formed in front of the first check valve (21). 6. Apparatus according to claim 4 or 5, characterized in that Storage space after the first check valve (21) between branches (16) and an injector connection (18) for the injection syringe (19) is formed. 7. Apparatus according to claim 5 or 6, characterized in that the storage space between branches (16) and injection syringe (19) is essential in the volume of the injections of the injection syringe (19). 8. Apparatus according to claim 6 or 7 in conjunction with claim 5, characterized in that the storage space in front of the first check valve (21) is larger than the storage space between branches (16) and injection syringe (19). 9. Device according to one of claims 5 to 8, characterized in that that the storage space is formed by Kfjhlschlangen (27, 27 '). 10. Device according to one of claims 3 to 9, characterized in that that a grid cylinder (32) is arranged in the thermal container (28). 11. Device according to one of claims 3 to 10, characterized in that that thermal containers (28), line systems (12) and grid cylinders (32) are autoclavable are. 12. Device according to one of claims 3 to 11, characterized in that that thermal container (28), line systems (12) and grid cylinder (32) made of stainless steel are made. 13. Device according to one of claims 3 to 12, characterized in that that the line system (12) mechanically rigid with a lid (29) of the thermal container (28) is connected. 14. Device according to one of the preceding claims, characterized in that that formed as Luer-Lock connections connection connections (11, 14, 18, 23) between the individual parts are provided. 15. Device according to one of claims 3 to 14, characterized in that that the connections (11, 14, 18, 23) are permanently marked.