RU2413542C1 - Disposable carpule device for aers-2 administration - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment, namely to devices for subcutaneous, intramuscular, intravenous and intraosseous administrations of liquid drugs placed in ampoules or carpules used for disposable injections. A disposable carpule device for drug administration comprises a cylindrical body with finger supports on one side and a fixation assembly with an injection needle at a case end face of the body on the other side, a needle safety cap and a safety attachment to be moved on the injection needle and fixed on the cylindrical body upon injection termination. The body encloses a piston drug carpule movable in the cylindrical body. The carpule integrates an opening control system put from the piston and executed in the form of a body having a flange on one side and a breakable portion on the other side. The injection needle is double-pointed. The needle is placed in a guide bushing of the fixation assembly, has an injection portion and a drug intake portion. An end face of the guide bushing from the drug intake portion sets against a counterpart of the carpule rubber piston. Additionally, the fixation assembly comprises a flange and a caved return blocker with a socket in between to enclose the flange provided on the safety attachment. The safety attachment comprises a hold-down which while pressing the blocker blocks the carpule return due to the flange of the opening control system.

EFFECT: reduced injection time, eliminated potential reuse of the syringe, ensured high degree of sterility of the injection devices and personnel safety after injection manipulations, as well as high output pressure generation to be used for intra-articular administration of the liquid drugs and enabled application of the device for intramuscular, intravenous and subcutaneous injections.

5 cl, 2 dwg

Description

The invention relates to medical equipment, in particular to devices for subcutaneous, intramuscular, intravenous and intraosseous administrations of liquid drugs placed in ampoules or ampoules used for single injections.

According to the World Health Organization, every year in the world, as a result of violations of the rules for injecting, up to 16 million cases of infection with the hepatitis B virus are recorded; up to 4.7 million hepatitis C, up to 160,000 cases of HIV infection.

It is well known that medical personnel working with needles and other piercing and cutting medical instruments are at increased risk of “accidental tearing”, which can be accompanied by severe, and sometimes fatal infections, transmitted through the blood by pathogenic pathogens, including hepatitis B virus ( HBV), hepatitis C virus (HCV) and human immunodeficiency virus (HIV).

Studies show that 38% of injuries of “tearing away” occur when syringes are used, and 42% after using syringes, and in particular when trying to close the needle with a cap.

In medical practice, there are also situations where even seconds are crucial to save the patient's life (anaphylactic shock, collapse, shock). In such cases, as well as “in the field”, where there are no or limited sanitary and hygienic conditions, the application of the classical scheme for taking the drug takes a lot of time and is quite unsafe from the point of view of aseptic and antiseptic issues. The process of recruiting a drug into a syringe has a number of successive steps: opening an ampoule, collecting a solution, changing a needle, etc., which takes extra time, and may also be accompanied by some errors - violation of sterility during the entire operation, putting other drugs into a syringe violation of dosage, etc.

In addition, in well-known syringes, for example, “Luer”, in order to achieve high pressure at the exit of the injection system, the force on the syringe rod is increased, i.e. the greater the pressure on the rod, the higher the flow rate at the outlet, but because of the high resistance (initiated zone) at the outlet, the needle often "jumps" from the bayonet connection. The greater the capacity of the syringe, the more pronounced is the effect of "jumping off" the needle. Such problems often arise with intraarticular injections and not only.

The use of disposable injectors made of plastic, for which sterilization takes place under conditions of mass production, partially solves these problems. Known, for example, a disposable syringe (SU 1761155, 1992), containing a hollow body with a needle holder on the tip, which contains: a piston with a rod and a device for clogging the tip. The piston with the rod is made detachable. The injection is carried out by pressure on the rod, while the rod of the device for blocking enters the cavity of the tip, due to which it is blocked and the piston stroke is blocked, i.e. with the introduction of the drug, the tightness of the syringe is not broken, and re-filling it is impossible. The syringe is notable for its technological simplicity of manufacture, however, its design does not allow high pressure to be created when, for example, anesthetic is injected into the periosteum or during intra-articular injection. In addition, when using syringes of this type, many additional manipulations are necessary for the collection of a drug from an ampoule. And the disadvantage of such syringes is the limited storage time of the drug. It is forbidden to store some drugs in plastic syringes, in particular, drugs that lose their properties under the influence of sunlight, and they are stored in darkened glass ampoules.

Also known is an injection device using karpula (US 2005/0119623, 2005), selected as a prototype, comprising a hollow cylindrical body with finger rests on one side and a fixing unit with an injection needle on the end of the body - on the other, inside the karbul with a medicinal product, equipped with a piston and installed with the possibility of movement in a cylindrical body, a protective cap of the needle and a safety nozzle installed with the possibility of extension on the injection needle and fixation on the cylinder nical body of the injection is complete. The carpul injector has a complex structure, as well as large pressure losses along the length of the drug flow.

The aim of the present invention is to eliminate the above disadvantages and the creation of a disposable karpulny syringe for the wider use of modern karpulny technology in medicine.

The technical result of the present invention is to reduce the time of an injection, to exclude the possibility of reuse of the syringe, to ensure a high degree of sterility of the injection device and the safety of personnel after carrying out procedural injections, as well as to create high pressure at the outlet of the device for use for intraarticular injections of liquid drugs and the possibility of use devices for intramuscular, intravenous and subcutaneous injection.

The problem to which the claimed invention is directed is achieved by the fact that in a disposable capsule device for administering a medicament comprising a cylindrical body with finger rests on one side and a fixation unit with an injection needle on the body end, on the other, a carpool with a medicinal product equipped with a piston and installed with the possibility of movement in a cylindrical body, a protective cap of the needle and a safety nozzle mounted with the possibility of extension on the injection needle and fixation on the cylindrical body at the end of the injection, the karpula is equipped with an opening control system, worn on it from the piston side and made in the form of a control case having a protrusion on one side and a tear-off part on the other, the injection needle is double-edged, installed in the guide the hub of the fixation unit, has an injection part and a part for the intake of the drug, while the end of the guide sleeve from the side for the intake of the drug is made to abut against etnuyu part of the cartridge the rubber piston, locking assembly further includes a protrusion and retraction blocker configured to sag, between which there is a recess, adapted to be mounted therein ledge together with holder, available on the securing cup.

To ensure the safety of the medical staff and to prevent accidental tampering with the used needle, the backstop has a protrusion for stopping the shoulder of the safety nozzle when it is pulled out onto the injection needle and deflecting it to rest in the karbul and blocking its backstop.

A “window” can be made on the cylindrical body to visually control the consumption of the drug.

The stops for the fingers can be made in the form of rings or “butterflies”, which allows for a “grip with a pen” during the procedure.

To ensure a varying degree of pressure of the jet at the outlet of the device, the rubber piston of the carpool from the side of the drug can be made with a recess in the form of a converging or diverging cone, cylinder or conoidal.

The present invention allows for a high degree of sterility. Medicinal products are filled in glass containers (karpuli) in the factory in an environment of complete sterility. Karpuli can be installed in a disposable sterile syringe and are ready to use. In addition, it is possible to store drugs filled into the capsules separately from disposable syringes and, if necessary, very quickly assemble the syringe without using the classical scheme for taking the drug from the ampoule.

Based on compliance with all existing sterilization rules, this technology allows you to fill drugs in a sterile factory, in glass containers, which can be of various volumes. Glass capacity allows you to increase the shelf life of drugs. Unlike the classical method of taking a drug from an ampoule, the use of new technology allows you to increase the sterility of the injection system until it contacts the patient, eliminates the stage of extracting the drug from the ampoule. This is an extremely important factor in work, both in the field and in conditions where a quick injection of the drug to the patient is required, without unnecessary manipulations, in emergency cases: drugs that stimulate cardiac activity, breathing, regulate blood pressure, anti-shock drugs, cases of delivery urgent, emergency medical care, etc. Thanks to the original design of the syringe, there is no problem of the needle “jumping off” due to excessive force on the rod, and the use of a protective cap makes it possible to protect the medical staff from accidental injury from used syringes.

The invention allows to design syringes for drug administration, as in small doses: 1; 1.5; 2; 2.5 ml, and in large: 5; 10; fifteen; 20 ml Moreover, the sizes of the proposed syringe not only do not exceed the classical sizes, but, on the contrary, by increasing the volume of the container not in length but in diameter, they reduce the size of the injection system as a whole.

Thus, for example, if there is a large number of drugs filled in the capsules in the First Aid kit, you can very quickly assemble a syringe with the drug that is needed in this case.

Figure 1 shows the individual elements of the capsule device "AERS-2"; figure 2 is a General view of the tamper evident system.

The problem to which the claimed invention is directed is achieved by the fact that in a disposable capsule device for administering a drug, there is a carpule 5 (Fig. 1) with a rubber piston 6, closed by an opening control system 4 (Fig. 2), consisting of a control body 4b , the protrusion 4B and the tear-off part 4A. Karpula 5 is inserted into the injection system, consisting of a hollow cylindrical body 7 with finger rests 3, inside of which there is a guide sleeve 8 of the fixation unit with a double-edged needle 9, which simultaneously serves as an injection needle - the injection part 9a on one side and the drug is taken from the carpule - part for taking the drug with another 9b. A “window” is made on the cylindrical body for visual control of the drug consumption, and the finger rests are in the form of rings or “butterflies”.

The guide sleeve 8 acts as a limiter to the movement of the rubber piston 6 along the injection - intake needle 9, while the guide sleeve 8 is configured to move the housing of the capsule 5 until it stops against the end of the cylindrical body 10, equipped with a safety needle against accidental injury by the used needle, consisting of a safety needle nozzles 1 of a tubular shape, at the end of which there is a ledge 11 (on the inner surface) and a clamp 12. The fixing unit on the housing further includes a protrusion 13 and a backstop 2, made associated with the possibility of deflection, between which there is a recess 14, made with the possibility of installing a ledge 11 in it, together with the clip available on the safety nozzle 1.

The assembly of the device for administering the drug is as follows:

A safety nozzle 1 is placed on the housing 7 from the side of the injection needle, while the backstop 2 bends, passing the safety cap in the direction of the finger rest 3, into the cavity of the housing 7 from the side of the finger rest 3 is placed the carpula 5, previously immersed in the tamper evident system four.

The device is packaged and sterilized at the factory.

Preparation for use is as follows:

The sterile packaging is opened, the tear-off part of the tamper-evident system 2a is removed, the protective case of the needle 15 is removed 15. After that, when pressing on the thrust rod, part of injection 9b is pierced by the rubber piston 6. Further pressure on the thrust rod leads to the creation of pressure inside the capsule and the drug release the drug through the injection needle 9a into the injected area.

At the end of the injection procedure, when the carpule 5 is in the extremely low position, the safety nozzle must be pulled forward, the ledge 11 of the safety nozzle, passing the movable protrusion of the fixing unit of the housing 2, enters the recess 14 and is blocked, and the pressure of the safety nozzle 12, exerting pressure on blocker 2, blocks the return of the carpula due to the protrusion 4c of the tamper evident system, while the deflection of the protrusion 2 is limited due to the diameter of the case of the tamper-evident system. The injection needle is inside the safety nozzle, and the carpula is blocked from reverse.

The ability to manipulate the volume and shape of the carpool reservoir, as well as the manufacture of a rubber piston of various shapes, the ability to change the length and diameter of the needle itself, can significantly affect the rate of withdrawal of the drug from the injection system, and hence the increase in pressure in the injected area. The creation of a node in which the injection needle is both injection and serves as a means for taking the drug from the container, as well as the absence of intermediate links that would create additional pressure loss at the outlet of the system, greatly simplified the design of the syringe and increased the rate of exit of the drug through the injection needle in the injected area. Depending on the task and using the laws of hydrodynamics, it is possible to design syringes for various purposes.

In the classical case, we increase the pressure on the syringe rod, while in order to overcome the resistance to the injection of the drug into the injected area and with excessive pressure, the needle “jumps off” from the body of the disposable syringe, which is connected by means of a bayonet fitting. The doctor cannot “feel” the line between the excessive and permissible force of pressure on the rod, and therefore the needle “jumps off” from the syringe cannula.

In the proposed karbul device, the aforementioned problem is solved by the device design itself as follows: the injection needle on the one hand is in the injected area, and on the other hand, piercing the rubber piston of the karpula, is the node through which the drug leaves the container (karpula). The rubber piston, moving forward, creates pressure in the container, and excessive pressure causes the drug to move through the injection needle into the injected area. The doctor, when pressing on the syringe rod, and the rod in our case is a container with a medicine, has the ability to "feel" the rate of pressure on the rod, and therefore the release of the drug from the container into the injection zone, and the needle "jumping off" process itself is not possible due to syringe designs.

Depending on the shape of the rubber piston: cylindrical - external and internal, conical - converging, diverging and conoidal coefficients µ - flow rate, γ - speed and ε - compression of the jet are different.

When designing karpulny introduction devices in which outflow through the hole and nozzles takes place, it is necessary to compare different devices according to the flow rate passing through them and the kinetic energy corresponding to this flow rate. If a comparison is made when the reservoir area and pressure are equal, the highest flow rate is ensured through converging and conoidal nozzles. Of all the compared devices, conoidal nozzles are characterized by the highest flow rates - µ, speed - γ, and compression - ε.

In the present invention, the rubber piston is made with a recess, which has the form of a conoidal nozzle. Due to the form provides the greatest compression of the stream, and therefore the jet. There is a gradual narrowing. The coefficient of resistance to fluid movement depends on the angle of taper and the ratio of diameters.

Thus, due to the shape of the rubber piston, it is possible to provide a high degree of compression of the flow, and therefore of the jet, before the drug enters the injection needle, and therefore, additional pressure is obtained at the outlet.

Claims (5)

1. A disposable karbul device for administering a medicinal product, comprising a cylindrical body with finger rests on one side and a fixing unit with an injection needle on the body end, on the other hand, a karbul with a medicinal product placed inside the body, equipped with a piston and mounted for movement in a cylindrical the body, a protective cap of the needle and a safety nozzle mounted with the possibility of extension on the injection needle and fixation on a cylindrical body at the end of the injection, tlichayuscheesya that
the karpool is equipped with an autopsy control system, worn on it from the piston side and made in the form of a housing having a protrusion on one side and a tear-off part on the other,
the injection needle is double-edged, installed in the guide sleeve of the fixation unit, has an injection part and a part for taking the drug, while the end of the guide sleeve on the side of the part for taking the drug is made with the possibility of stop in the reciprocal part of the rubber carpula piston,
the fixation unit further includes a protrusion and a backstop, made with the possibility of deflection, between which there is a recess made with the possibility of installing a step therein that exists on the safety nozzle, in addition, there is a clamp on the safety nozzle, which is able to block the pressure return of the carpula due to the protrusion of the autopsy system. 2. The device according to claim 1, characterized in that the backstop blocker has a protrusion for abutting the shoulder of the safety nozzle when extending it onto the injection needle and deflecting it to rest in the karbul and blocking its backstop. 3. The device according to claim 1, characterized in that a “window” is made on the cylindrical body to visually control the consumption of the drug. 4. The device according to claim 1, characterized in that the stops for the fingers are made in the form of rings. 5. The device according to claim 1, characterized in that the rubber piston of the carpool from the side of the drug is made with a recess in the form of a converging or diverging cone, cylinder or conoidal.

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