DD290585A5 - IMPLANTABLE INFUSION PUMP - Google Patents

Abstract

The invention relates to an implantable infusion pump with a drug reservoir, a propellant chamber and two chambers with an intermediate medium. It is also equipped with a bolus storage and a bolus refill. The bolus reservoir consists of a drug chamber and a pressure chamber. The drug chamber is connected via a check valve with the drug store and via the Betetigungsteil with the safety valve on medication storage in conjunction. The pressure chamber is connected via a line to the first chamber for the intermediate medium. The Betetigungsteil is composed of a Betetigungselement, a comprehensive elastic cuff, a canoe, an annular chamber, an elastic intermediate piece, a buffer space and a check valve to the drug chamber together. The canoe has a channel which leads into the annular chamber, and the actuating element has a connecting channel between the annular chamber and the catheter connection piece. The infusion pump contains no additional energy source for control and actuation. It uses widely used components for the delivery of the constant rate also for bolus administration and has a low mass and increased durability and reliability. {Implantable infusion pump; Drug store; Propellant chamber; Chambers for intermediate medium; bolus reservoir; Medication chamber; Pressure chamber; Betaetigungselement; cannula; Annular chamber; elastic intermediate piece; Safety valve}

Description

For this 3 pages drawings

Field of application of the invention

The invention relates to an implantable infusion pump for long-term therapy with a vital drug in a constant or basal rate and an optional bolus rate.

Characteristic of the known state of the art

The long-term application of insulin represents by far the most common application of such pumps. For insulin pumps, their controllability is an important criterion. Since insulin demand is a very dynamic function and a change in the amount of insulin needed is often necessary at a few minute intervals, constructions that deliver only constant insulin flow into the body are unsatisfactory in practice. There are known infusion pumps with a freely selectable dosage, which use different operating principles. According to DE-OS 3520782 and US Pat. No. 4,221,219, the infusate, which is under an overpressure, is supplied to the patient's body by means of controllable valves. In US-PS 4360019 and 4604090 Solencldpumpen are provided as drive elements. An infusion pump described in the AT-PS 378123 includes an external electronic coding, a transcutaneous inductive transmission path, an implantable decoding device, control, a special piston pump, an implanted battery for power, a hermetically sealed container with the infusate, a cannula for delivering the Infusats and a refill valve. A presented in DE-OS 3018833 infusion pump consists essentially of a miniature roller pump, a stepping motor, a battery and a control circuit.

All types of pumps require electrical control energy that must be provided by an implanted battery. In the case of pumps with electric drive, this represents an additional energy requirement. In the case of propellant-operated pumps, the mass is not insignificantly increased by the battery.

For electrical control and actuation additional components are required. It secures the reliability of the pumps. Furthermore, they affect the life of the pump as well as the batteries.

OBJECT OF THE INVENTION It is to save an energy source for the control and actuation of components for the bolus and the cost of manufacturing these components, to reduce the mass of the Infuslont'.pumpe, to increase the reliability and lifetime and the clinical effort for the replacement of infusion pumps to lower.

Explanation of the Wasens of the invention The invention was based on the object, an implantable infusion pump with a regenerable energy source for Dosage of a Kon.Mantrate and a bolus rate to create, no additional power source for control and operation

contains, largely used components for the delivery of Konstantrate also for the bolus rate and have a low mass and increased life and reliability.

The solution to this problem includes the following known elements: Two filled with an intermediate medium chambers, which are interconnected by a flow restrictor and a check valve

are connected and adjoin the means of flexible partitions to a propellant chamber and a drug storage and a safety valve according to application WP F 16 K / 318872 containing catheter lead.

According to the invention, it is provided: It is an existing from an additional drug chamber and a pressure chamber Bolus storage with separation membrane

intended. The drug chamber is connected via a line with check valve with the drug reservoir and via a check valve and a channel with the catheter lead in connection.

The pressure chamber is connected via a line with the intermediate medium chamber adjacent to the propellant chamber and via a

another line with a buffer space between an elastic intermediate piece surrounding the channel and c er

Connected drug drug. The channel is arranged in a cannula. He goes into a opening into the Katheteranschlußloitung channel opening. The Cannula is attached to an actuator above this opening. This has a connection channel between the Catheter lead and catheter fitting. Advantageous embodiments of these features will be explained with reference to an embodiment. embodiment In the accompanying drawing show Fig. 1: the sectional view of the implantable infusion pump Fig. 2: the sectional view of Bolusnachfülleinrichtung Fig. 3: the sectional view of the safety valve at the entrance of the catheter lead

Constructively, the infusion pump (Fig. 1) consists of four basic elements: a housing capsule 1, a bottom part 2, a middle part 3 and a cover part 4. The bottom part 2 and the middle part 3 are completely inserted into the housing capsule 1, while the cover part 4 only partially is enclosed by the housing capsule 1.

The bottom part 2 has a recess for a first filled with an intermediate medium chamber 5 and a partially enveloped by this, filled with a propellant Treibrnittelkammer. 6

 As flexible partition serves a bellows. 7

The middle part 3 and the cover part 4 have two adjacent pairs of mutually facing bowl-shaped depressions. The wells with the larger diameter are separated by a membrane 8 in the medicament storage 9 for Konstanttratenabgabe and the second filled with an intermediate medium chamber 10. The depressions with the smaller diameter contain the bolus reservoir 11, which is likewise divided by a membrane 12 into a medicament chamber 13 and a pressure chamber 14 filled with the intermediate medium. The drug storage 9 and the drug chamber 13 are connected via a line 15 with check valve 16 in Vorbindung. As an input part of a catheter connection line 17, which is guided via a bolus refilling device 18, a safety valve 19 is arranged on the medication reservoir 9.

Above the drug reservoir 9 is located in a cylindrical recess of the cover part 4, the drug filling device 20. It consists of the system 21 and the needle stop 22 together. Between the bottom of the well and the drug storage 9 are fine breakthroughs 23. In the middle part 3, a restrictor 24 for flow limitation and a check valve 25 are arranged between the two chambers 5,10 for the intermediate medium. The pressure chamber 14 is connected by a line 26 to the first chamber 5.

The actuating part of the bolus refill device 18 is located above the bolus reservoir 11 in a cylindrical recess of the cover part 4 and in an opening to the medicament chamber 13. It consists of an actuating element 28 surrounding an elastic sleeve 27, a cannula attached to it and extending into said breakthrough The sleeve 27 contains the catheter fitting 32 and the actuator 28 an angled connection channel 33. The radially extending portion of this channel 33 is aligned in the normal state with the Catheter fitting 32. The angled section opens on the underside of the actuator 28 in an annular chamber 34, which is an extension of the catheter lead 17 and has two different heights. The lower height on the side facing the connecting channel 33 is due to the stronger version of the elastic intermediate piece 30 on this side. The cannula 29 has except its inner channel 35 has a lateral channel opening 36 which faces the side of the annular chamber 34 with the greater height (Figure 2).

Between the elastic intermediate piece 30 and the bottom of the depression, a buffer space 37 surrounding the cannula 29 is provided, which is connected via a line 38 to the line 26 and thus also to the pressure chamber 14 and to the chamber 5 (FIG. 2 tw.).

The point of entry of the breakthrough into the medicament chamber 13 isv expanded to receive the check valve 31 (FIG. 2). The Rickschlagventil consists of a fixed in the extension magnet ring 39 and on this in the normal state adhering magnetic plate 40. The inner diameter of the magnetic ring 39 is adapted to the diameter of the cannula 29. The diameter of the magnetic plate 40 is slightly smaller than that of the extension.

The safety valve is described in detail in the AnmsldMng WP F16 K / 318872. Nevertheless, it is shown once again. It contains a membrane 41 with a central bore. On the membrane 41 and on the opposite bottom of a >> r recess in the cover part 4 are each a magnetic plate 42,43 with corresponding, mutually offset holes arranged 44,45. The recess is closed to the drug reservoir 9 with a disc 46 having a central opening 47.

The mode of action of the described infusion pump is the following:

The bellows 7 presses due to the prevailing at body temperature in him vapor pressure of the propellant, a low pressure refrigerant, on the intermediate medium. This is displaced from the chamber 5 via the restrictor 24 into the chamber 10 and exerts there via the membrane 8 a pressure on the infusate in the drug reservoir 9. The infusate flows at a constant rate through the safety valve 9, the catheter lead 17, the annular chamber 34, the connecting channel 33, the catheter fitting 32 into the catheter. Via the properties of the intermediate medium and the parameters of the restrictor 24, the flow rate of the infusate can be adjusted. The safety valve 19 guarantees that when the flow rate is increased by, for example, 50%, the infusion application is interrupted. This is extremely important when refilling the infusion pump. The refilling takes place by means of a hypodermic syringe whose needle is pierced through the skin and the septum 21. As a result of the injection pressure, the infusate flows through the openings 23 in the drug reservoir 9 and from there a part through the line 15 and the check valve 16 in the drug chamber 13 of the bolus memory 11. Right at the beginning of the filling closes the safety valve 19 and prevents immediate exit of the Infusats in the body. The membranes 8 and 12 give the pressure of the infusate, whereby intermediate medium from the chamber 10 through the check valve 25 and out of the pressure chamber through the conduit 26 into the chamber 5 is conveyed. The thereby increasing pressure compresses the propellant in the bellows 7. The bolus is administered by manual pressure on the overlying the septum 21 skin. The compression of the septum 21 leads to such a pressure increase in the medicament memory 9, that the safety valve 19 responds, d. H. closes. During the closing process, the amount of infusate between the magnetic plates 42, 43 is displaced into the catheter connection line 17. Dor displacement process also detects the infusate in the annular chamber 34, the connecting channel 33, the catheter fitting 32 and the catheter, so that finally a corresponding amount of infusate flows into the body. By suitable dimensioning of the safety valve 19, the Dosiermennr example, 12.5μΙ amount, which corresponds in the case of insulin a concentration of 40 units / ml half insulin unit.

The refilling of the dispensed quantity is effected by pressing on the area of skin lying above the actuating element 28, wherein the counterforce of the elastic sleeve 27 and the pressure propagating from the central buffer space 37 via the elastic intermediate piece 30 into the annular chamber 34 have to be overcome. The actuating element 28 and the cannula 29 move in the direction Bol bolus 11. In this case, first the connection between the catheter fitting 32 and the connecting channel 33 are repealed and the opening of the connecting channel 33 is pressed on the underside of the actuating element 28 on the elastic intermediate piece 30. Thereafter, the magnetic plate 39 is pushed away by the end of the cannula 29. Through the thus opened check valve 31, the inner channel 35, the channel opening 36, the volume reduced annular chamber 34 and the catheter connection line 17 infusate flows from the drug chamber 13 in the safety valve 19, whereby the magnetic plate 42 goes back to the normal position and refilled the amount of bolus delivered is. Thus, the safety valve 19 is in refilling position, the septum 21 must be depressed with the actuation of the actuator 28 or shortly before. However, the pressure on the septum 21 must be canceled when reaching the lower position of the actuating element 28 or shortly thereafter, because otherwise the back pressure from the medicament storage 9 on the safety valve 19 prevents refilling. After a relatively short time, the pressure from the actuator 28 can be removed. This and the cannula 29 move due to the pressure of the intermediate medium in the buffer space 37 and the reaction force of the elastic sleeve 27 back to the starting position. Characterized the check valve 31 are closed and the connection between the annular chamber 34 and the catheter fitting 32 via the connecting channel 33 is restored. Now the flow of the constant rate continues.

Claims (3)

1. Implantable infusion pump with two filled with an intermediate medium chambers, which are connected to each other by a flow restrictor and a check valve and adjoining means of flexible partitions to a propellant chamber and a drug storage and a safety valve according to application WP F 16 K / 318872 containing catheter lead, characterized characterized in that a bolus reservoir (11) with separation membrane (12) consisting of an additional medicament chamber (13) and a pressure chamber (14) is provided, the medicament chamber (13) being connected to the medicament reservoir via a line (15) with check valve (16). 9) and via a check valve (31) and a channel (35) with the catheter connection line (17,34) is in communication, the pressure chamber (14) via a line (26) with the Treibmittelkammer (6) adjacent Zwischenrnediumkammer (5) and another line (38) having a buffer space (37) between one of the channels (35) surrounding the elastic intermediate piece (3) and the medicament chamber (13), the channel (35) is arranged in a cannula (29) and merges into a catheter connection line (17,34) opening out the channel opening (36) Cannula (29) is mounted above said opening (36) on a bolus refill actuator (28) and said actuator (28) has a connecting channel (33) between said catheter lead (17, 34) and said catheter fitting (32). 2. An implantable infusion pump according to claim 1, characterized in that the actuating element (28) by a in the thick part (4) of the infusion pump arranged elastic sleeve (27) is surrounded; the elastic sleeve (27) contains the catheter fitting (32) and the catheter connecting lead (17) below the sleeve (27) and the actuator (2b) is formed as an annular chamber (34) of two different heights, the smaller height being on the connecting channel (33) side facing by a stronger version of the elastic intermediate piece (30) is given. 3. An implantable infusion pump according to claim 1 and 2, characterized in that the medicament chamber (13) arranged check valve (31) from a in the opening for the cannula (29) rimmed magnetic ring (39) as a valve seat and one on this (39 ) in non-actuated state adhesive magnetic plate (40) as a closure member, wherein the inner diameter of the magnetic ring (39) is adapted to the diameter of the cannula (29).