WO2009095077A1

WO2009095077A1 - Syringe device having grinding gears and method for administering a substance

Info

Publication number: WO2009095077A1
Application number: PCT/EP2008/051175
Authority: WO
Inventors: Angelina Horber
Original assignee: Angelina Horber
Priority date: 2008-01-31
Filing date: 2008-01-31
Publication date: 2009-08-06

Abstract

The invention relates to a probe syringe (1) comprising a sleeve (2) having a cylindrical interior (2’). A piston (3) is inserted into the interior (2’) of the sleeve (2), in order to close off the hollow space (2’) to the exterior. When the piston is withdrawn (3) (not shown), a medication mixture is first introduced into the hollow space (2’) of the sleeve (2). The piston (3) is then inserted into the hollow space (2’), in order to close off the same to the exterior. By rotating the piston (3) by means of the handle (4), the particles of the medication mixture are ground into a powder soluble in a liquid between a first grinding element (5) and a second grinding element (8) designed in the sleeve (2) as a counterpart to the first grinding element (5).

Description

TITLE

MACHINE WITH A MACHINE AND METHOD FOR ADMINISTERING A SUBSTANCE

TECHNICAL AREA

The invention relates to a device for administering a substance to a patient, comprising: a base body having a cavity for receiving the substance to be administered; a discharge opening formed in the base body for delivering the substance from the cavity of the base body to the patient; an actuator operable to dispense the substance from the cavity of the body; and a receiving opening formed in the main body for introducing the actuating element into the cavity. Furthermore, the invention relates to a method for administering a substance to a patient, in particular by means of said device.

STATE OF THE ART

In enterally-fed patients, all drugs are administered in liquid or dissolved form via the tube. Since most drugs are not available in liquid form but are in the form of granules or powders, the granules or powder particles must be crushed prior to administration and then dissolved to be delivered via the probe's probe channel or cannula. The lumen of the probe determines the size of the particles to be shredded.

In most cases, three to five doses of medication per day are provided. In each of these procedures, the drugs are crushed in a conventional mortar and placed in a cup by means of a brush. Then, warm or hot water or warm or hot tea is added to the beaker to dissolve the medication. This is followed by the addition of all other liquid, granulated or brash drugs. This mixture is drawn up with a bladder or probe syringe and administered via the probe to the patient.

Due to the different operations that are performed several times a day, compliance with high hygiene requirements is difficult. In particular, the drugs are processed open even in the mortared state. In addition, during mortar drug dust, which can be inhaled by the caring staff. This can lead to unpredictable health consequences, for example in the area of antibiotic resistance. In addition, as a rule, a single mortar is used for several patients, unknown quantities and unknown drugs are mixed in both the mortar and the brush. However, the mixture of the remainder of the drug of different patients gives an incalculable composition which may be detrimental to the particular patient.

To avoid this, each drug would have to be individually pounded and administered in the mortar. Alternatively, each patient could be provided with a separate mortar for his drug mix. However, these measures are time-consuming and expensive.

When dissolving the shredded particles in warm or hot liquid, the galenics of the medicaments can not be considered, i. the reaction of the drugs to this step is unpredictable. In particular, odor emissions that can be inhaled by the staff arise.

Another problem is that when the drug mixture is drawn into an appropriate syringe, a substantial portion of the powdered drug mixture remains in the cup and on the outside of the syringe. When administering the mixture, another part of the medication remains in the syringe. An accumulation of drugs in the syringe is inevitable.

In addition to hygienic problems caused by the remaining drugs, a correct dosage of drugs in enterally nourished patients is made more difficult. On the one hand, the dosage amount depends on a clean way of working for the staff. An optimal Operation, however, can be guaranteed only with a high amount of time by optimizing all workflows.

OBJECT OF THE INVENTION

Based on this, it is the object of the present invention to provide a device and a method for administering a medicament to a patient, wherein a correct dosage and a low burden on the environment during the preparation of the medicament mixture are ensured.

TECHNICAL SOLUTION

This object is achieved by the provision of a device for administering a substance to a patient according to claim 1 and a method for administering a substance to a patient according to claim 17. Advantageous embodiments are subject-matter of the dependent claims.

The device comprises: a base body with an interior space (cavity) for receiving the substance to be administered; a discharge opening formed in the base body for delivering the substance from the cavity of the base body to the patient; an actuator operable to dispense the substance from the cavity; and a receiving opening formed in the main body for introducing the actuating element into the cavity. According to the invention, the device has means for comminuting the material particles within the cavity of the main body.

When administering substances, in particular drugs, to a patient, various problems arise with conventional devices and methods. These are due to the various operations required, in particular the crushing of large particles of material in a mortar, subsequent dissolution of the mixture of medicaments in a liquid in a cup, drawing the dissolved mixture of medicaments into a syringe, and dispensing from the syringe. These steps lead, provided the staff does not always have all workflows Optimized durchfuhrt, to losses of drugs and thus to hygiene and dosing problems.

The administering device according to the invention combines virtually all of the conventional working steps described. Both the comminution of the substances to be administered, their dissolution, as well as the application can be carried out with the aid of the device, without a transfer of the substance to be administered, saving time and under hygienic conditions. In this way, the workflow is shortened.

In particular, the invention also combines the conventional mortar used with a common syringe. The device thus represents a syringe or probe syringe with extended function. The medicaments can be introduced directly into the cavity and prepared there. The actuating element, for example a piston, is specially shaped, so that the introduced substance particles are produced by grinding, mortars, or the like. can be crushed. From the cavity of the body, the (dissolved) drug mixture is delivered directly to the patient. The hygienic operations are improved because the drug mixture of each patient is crushed and dissolved in its personal delivery device. In addition, it prevents free drug dust or odor emissions. Losses of medication thus occur practically not on, whereby a correct dosage is guaranteed.

The device is used in particular for the enteral administration of medicaments. However, the invention should not be limited to enteral administration, but generally for preparation and administration, for example, for the injection of dissolved drugs, can be used.

The main body forms a cavity defined by walls. In particular, the main body is a housing which is designed as a sleeve with an adjoining dispensing nozzle. The main body is provided with a receiving opening for introducing the material to be comminuted into the cavity and for introducing the actuating element into the cavity, ie for closing the cavity. In addition, the base body has at least one dispensing opening for dispensing the dissolved substance particles. The base body and / or the actuating element are usually plastic parts, which are manufactured in common manufacturing processes. The device may be provided as a disposable or reusable product.

Preferably, the actuating element is arranged relative to the base body movable on this. It is also usually detachably connected to the body to selectively release the receiving opening.

In a particularly preferred embodiment, the actuating element is provided with the means for comminuting the introduced into the cavity particles of the substance. In this case, the actuating element can be designed, for example, so that the material particles are crushed within the cavity by a translational movement of the actuating element (mortars). Alternatively or additionally, the actuating element can be designed so that it is arranged rotatable relative to the base body in the cavity, so that the introduced into the cavity material particles can be ground by turning the actuating element.

In particular, the actuating element is arranged substantially linearly movable relative to the main body at this. After introduction of the substance mixture into the cavity, the actuating element is introduced into the receiving opening. The actuating element thus closes the receiving opening and is arranged to be movable linearly or translationally relative to the main body in the cavity. The translational movement of the actuating element relative to the main body allows both the function of the actuating element as a pressure transducer for discharging the dissolved substance mixture from the discharge opening, as well as the drawing of liquid into the cavity by a retraction of the actuating element.

In particular, the actuating element essentially comprises a piston which can be inserted into the cavity. Preferably, the piston is mounted accurately in the cavity. By pressing the piston can be exercised on the one hand pressure on the substance mixture to support the crushing process, on the other hand can be applied by pressurizing a dissolved drug mixture from the cavity. As an alternative or in addition to the actuating element, the main body can have means for comminuting the particles within the cavity. These means can cooperate with the actuator. For example, the actuating element and / or the base body may have cooperating surfaces which are provided with a shape and / or surface structure suitable for comminuting particles.

Preferably, the actuator has a first surface area formed to crush the particles of the substance within the cavity. The surface area thus serves as an impact surface. This is done by a linear movement of the piston in the cavity, possibly combined with a rotary motion. The crushing takes place like in a mortar.

In particular, the actuating element is arranged rotatably relative to the base body at this. The cavity is usually formed as a hollow cylinder. The piston is inserted along the longitudinal axis of the cavity in this and rotated for grinding the material particles around the longitudinal axis.

In particular, the actuating element has a first surface area, which is designed for grinding and / or grinding of the particles of the substance within the cavity. The surface area forms a kind of milling core, millstone or runner, which may have a special profile.

In particular, the first surface area has at least one convex surface area.

In a preferred embodiment, the main body has a second surface area arranged in the cavity or adjoining the cavity, which cooperates with the actuating element for comminuting the particles of the substance within the cavity. The second surface area, for example, forms a counterpart to the first surface area. The two surface areas may be complementary to one another in order to enable an optimal comminution operation in cooperation. In particular, the second surface area has at least one concave surface area.

Preferably, the device has a nozzle in which the discharge opening is formed. The nozzle is usually conical and defines a leading from the cavity to the discharge port discharge channel.

In particular, the device has a closure for closing the discharge opening during the comminution process. In a simple manner, the closure may be a plug which is removed prior to delivery of the substances to be administered to the patient.

In particular, the device has a seal arranged between the inner wall of the main body and the actuating element. The seal may be arranged in a recess provided on the actuating element. It ensures that the cavity is sealed to the outside. This will cause leakage

Prevents drug powder or vapors from the cavity. In addition, the seal allows the construction of a negative pressure in the cavity. For example, liquid can be drawn up by retracting the actuating element.

In a preferred embodiment, the actuating element has at least one handle and / or lever for facilitating the operation by a user, in particular for facilitating the implementation of a translational movement of the actuating element relative to the base body and / or for performing a rotary movement of the actuating element relative to the base body.

The object is also achieved by a method for administering a substance to a patient, in particular by means of a device as described above, comprising the steps: a) introducing the substance into a cavity of a base body of a device for administering a substance to a patient; b) inserting an actuating element in the cavity of the base body; c) performing a translational movement and / or a rotational movement of the actuating element relative to the base body for comminuting particles of the substance within the cavity; and d) discharging the substance from the cavity through a discharge opening formed in the main body by the actuation of the actuating element. Preferably, step d) comprises opening the dispensing opening closed during the comminuting operation prior to dispensing the substance from the cavity.

In particular, step c) comprises drawing liquid into the cavity after crushing the particles of the substance within the cavity. The shredded substance particles dissolve in the liquid. The liquid can be warm to hot water or warm to hot tea.

In a preferred embodiment, step c) comprises crushing, crushing, grinding, and / or attrition of the particles of the substance within the cavity.

The all described features of the invention is claimed individually as well as in various combinations protection.

DESCRIPTION OF THE FIGURE

Further features and advantages of the invention will become apparent from the description of a preferred embodiment in conjunction with the figure. The figure shows a syringe for enteral administration of medicaments according to the present invention.

DESCRIPTION OF A PREFERRED EMBODIMENT

The illustrated probe syringe 1 according to the invention has a sleeve 2 with a cylindrical inner space 2 '. In the interior 2 'of the sleeve 2, a piston 3 is inserted to close the cavity 2' to the outside. The piston 3 is arranged longitudinally displaceable in the sleeve 2. In addition, the piston 3 is mounted for rotation about a longitudinal axis L in the sleeve 2.

At the other end of the sleeve 2, a nozzle 7 is formed. Within the nozzle 7 extends from the interior 2 'to the outlet opening an outlet channel 9. This is closed at the beginning of the administration process with a stopper 10. First, when the piston 3 is pulled out (not shown), a medicament mixture is introduced into the cavity 2 'of the sleeve 2. Subsequently, the piston 3 is inserted into the cavity 2 'in order to close it to the outside.

The piston 3 has a handle 4 for actuating the piston 3, d. H. for longitudinal displacement and / or rotation of the piston 3 in the sleeve 2, on. In addition, the tip of the piston 3 is formed as a grinding element 5 (first grinding core, rotor) to comminute the present as powder, within the cavity of the sleeve 2 received drug. This is done by exerting a pressure on the piston 3 and / or a rotation of the piston 3 relative to the sleeve 2. These movements are transmitted via the handle 4 on the piston 3, wherein the handle 4 passes both a rotational movement to the grinding element 5. In order to transmit the rotation exerted on the handle 4 as directly as possible to the grinding element 5, the connecting part of the piston 3 is formed between the handle 4 and the grinding element 5 of a rotationally stable material or in a torsionally stable construction (eg with ribs) such that a rotation of the grinding element 5 relative to the handle 4 is largely prevented. The first grinding element 5 has a convex surface 5 '. The surface 5 'is pressed against the medicament mixture and crushed to a liquid-soluble powder.

In the sleeve 2, a second grinding element 8 is provided as a counterpart to the first grinding element 5. The second refining element 8 has a concave surface 8 'that is shaped to be complementary to the convex surface 5' of the first refining element 5. In this respect, the first refining element and the second refining element can be assembled accurately.

A arranged in an undercut on the piston 3 sealing ring 6 prevents leakage of the drugs received in the cavity during the individual process steps. In addition, by means of the sealing ring 6 by withdrawing the piston 3 in the cavity, a negative pressure can be generated in order to draw liquid via a nozzle 7.

Once the drug mixture has been sufficiently pulverized, the plug 10 is removed and, by retracting the plunger 3, a liquid for dissolution of the drug mixture is drawn into the cavity 2 '. This mixture can now the Patients are administered via a probe. In this case, the piston 3 acts as a pressure transducer for discharging the solution from the cavity 2 'of the sleeve second

It becomes clear that the losses of medicaments compared to conventional procedures are extremely low, whereby an exact dosage and hygienic conditions with the administration of the medicament mixture are guaranteed.

Claims

claims

A device (1) for administering a substance to a patient, comprising: a base body (2) having an interior space (2 ') for receiving the substance to be administered; a discharge opening formed in the base body (2) for delivering the substance from the interior space (2 ') of the base body (2) to the patient; an actuator (3, 4) operable to dispense the substance from the interior space (2 '); and a receiving opening formed in the main body (2) for at least partially inserting the actuating element (3, 4) into the inner space (2 '), characterized in that the device comprises means (5, 8) for comminuting particles of the substance inside the inner space ( 2 ') of the base body (2).

2. Device (1) according to claim 1, characterized in that the actuating element (3) is arranged relative to the base body (2) movable on this.

3. Device (1) according to claim 1 or 2, characterized in that the actuating element (3) is provided with the means (5) for comminuting the particles introduced into the interior of the substance.

4. Device (1) according to any one of the preceding claims, characterized in that the actuating element (3) is arranged substantially linearly relative to the base body (2) movable on this.

5. Device (1) according to any one of the preceding claims, characterized in that the actuating element (3) substantially comprises a piston which in the interior (2 ') can be inserted.

6. Device (1) according to one of the preceding claims, characterized in that the base body (2) is provided with means (8) for comminuting the particles within the interior space (2 ').

7. Device (1) according to one of the preceding claims, characterized in that the actuating element (3) has a first surface area (5 ') which is formed for crushing the particles of the substance within the interior space (2').

8. Device (1) according to one of the preceding claims, characterized in that the actuating element (3) relative to the base body (2) is rotatably arranged on this.

9. Device (1) according to one of the preceding claims, characterized in that the actuating element (3) has a first surface region (5 ') which is designed for grinding and / or grinding of the particles of the substance within the interior space (2') ,

10. Device (1) according to one of the preceding claims 7 to 9, characterized in that the first surface area (5 ') has at least one convex surface area.

11. Device (1) according to one of the preceding claims 7 to 10, characterized in that the base body (2) has a in the interior (2 ') arranged or to the interior (2') adjacent second surface area (8 '), which cooperates with the actuating element (3) for comminuting the particles of the substance within the inner space (2 ').

12. Device (1) according to claim 11, characterized in that the second surface area (8 ') has at least one concave surface area.

13. Device (1) according to one of the preceding claims, characterized in that the device (1) has a nozzle (7) in which the discharge opening is formed.

14. Device (1) according to one of the preceding claims, characterized in that the device (1) has a closure (10) for closing the discharge opening during the comminution process.

15. Device (1) according to one of the preceding claims, characterized in that the device (1) between the inner wall (2 ') of the base body (2) and the actuating element (3) arranged seal (6).

16. Device (1) according to any one of the preceding claims, characterized in that the actuating element (3) has at least one handle (4) and / or lever for facilitating the operation by a user.

17. A method for administering a substance to a patient, in particular by means of a device (1) according to one of the preceding claims, comprising the steps: a) introduction of the substance into a cavity (2 ') of a base body (2) of a device (1) for administering a substance to a patient; b) inserting an actuating element (3) in the cavity (2 ') of the base body (2); c) performing a translatory movement and / or a rotational movement of the actuating element (3) relative to the main body (2) for comminuting particles of the substance within the cavity (2 '); and d) discharging the substance from the cavity (2 ') through a discharge opening formed in the base body (2) by the actuation of the actuating element (3).

18. A method according to claim 17, characterized in that

Step d) comprises the opening of the discharge opening closed during the comminution process before the substance is expelled from the cavity (2 ').

19. Method according to claim 17 or 18, characterized in that

Step c) comprises drawing liquid into the cavity (2 ') after crushing the particles of the substance within the cavity (2').

19. Method according to one of claims 17 to 19, characterized in that

Step c) comprises crushing, crushing, crushing, and / or attriting the particles of the substance within the cavity (2 ').