EP3529610A1

EP3529610A1 - Release test system for simulating the state change of medical active ingredients

Info

Publication number: EP3529610A1
Application number: EP17798103.2A
Authority: EP
Inventors: Grzegorz Garbacz; Anne DEUTER; Olga FRONCZYK; Grzegorz DOMANSKI; Harald Below; Romy BAGUHL
Original assignee: Physiolution GmbH
Current assignee: Physiolution GmbH
Priority date: 2016-10-20
Filing date: 2017-10-17
Publication date: 2019-08-28
Also published as: DE102016120019B4; CA3041127A1; JP2020501165A; WO2018073203A1; US20190242863A1; DE102016120019A1

Abstract

The invention relates to a release test system (10) for simulating the state change of medical active ingredients in the region of a human or animal organ, comprising at least: a main body (12) of a release test vessel (16); a cover (14) of the release test vessel (16); technical control means (18) for influencing simulation conditions prevailing within the release test vessel (16), wherein the technical control means (18) comprise at least one stirring mechanism (20) and a temperature-control apparatus (22); and furthermore a sample removal apparatus (26). Provision is made for the cover (14) and at least the stirring mechanism (20) to the connected to one another in a permanently arranged fashion and a non-detachable connection to be producible or exist between the main body (12) and the cover (14).

Description

Release test system for simulating the state change

of medicinal substances

The present invention relates to a release test system according to the preamble of

Patent claim 1.

In the development of medical agents, there is an important aspect in it, like one

medical drug is absorbed by the human body. An important influencing factor is the state of the medical active substance or a specific administration form of the medicinal active substance and its change in the human body. For example, dosage forms may be in liquid form from the outset. However, they can also initially be in solid form, then as liquid-solid mixture and finally in liquid form or completely dissolved form. In general, a state chaining of the dosage form before it can be absorbed by the body, at fixed

Dosage forms longer than in the case of liquid administration forms. This is due to the fact that solid dosage forms are usually finely comminuted before absorption by the body and must go into solution. Within the human body, these processes take place, for example, using chewing tools or else by certain conditions inside the human body which lead to a change of state of the medicinal active substances. Exemplary here are mechanical, physical and chemical influences in the area of the gastrointestinal passage called. By prevailing influencing factors, such as temperature, presence of body fluids, pH, presence of gases, pressure conditions, presence of other solids and mechanical influences due to muscle contractions of the stomach and intestine is a change in state of the

medical drug. This change in state may be, for example, a change from a solid state in the form of a tablet, via finely divided fragments of the tablet, to a state dissolved in liquid.

Since the state of the medicinal agent at the absorption site in the human body, for example in the areas of gastric mucous membranes, in the gastrointestinal passage or in the intestine, has a great influence on the effectiveness of the uptake and thus the action of the medical active ingredient, it applies medical active ingredients to develop so that their

State change in the human body has a defined characteristic that favors the recording. Extensive laboratory tests are required, for example for investigating the release behavior of a dosage form in a test fluid.

For example, WO 2013/164629 A1 describes a device for testing the solubility of a medicinal dosage form. This includes a chamber in which a

Solution medium is located. The device comprises means for adjusting the pH.

This results in special challenges in the handling of medical agents.

Thus, medicinal agents may cause undesirable toxic, carcinogenic, mutagenic, fertility or other potentially hazardous effects. This represents a health hazard in the handling of the active ingredients.

It is therefore important to avoid that the medical drug from a test system in the

Environment can escape. Conventionally, these challenges are compounded by the use of appropriate personal protective equipment as well as provision

Environment control systems and isolated safety work areas encountered.

All this entails a high expenditure with regard to the technical, organizational and personal protection measures taken.

The invention is based on the object to provide a new test system for medical drugs, which can be produced and used with little effort and at the same time is extremely safe in terms of working conditions and achievable test results.

The object is solved by the subject matter of independent patent claim 1. Preferred embodiments of the invention will become apparent from the remaining features mentioned in the subclaims.

The invention relates to a release test system for simulating the change in state of medicinal active substances in the region of a human or animal organ, comprising at least: a main body of a release test vessel;

a lid of the release test vessel; technical control means for influencing within the release test vessel prevailing simulation conditions, wherein the technical control means comprise at least one stirring mechanism and a tempering device; and still

a sampling device.

According to the invention, it is provided that the cover and at least the stirring mechanism are connected to one another in the long term and that a non-detachable connection can be established between the base body and the cover.

For the components of the release test system used in medical use

Active ingredients can come into contact, inert materials are preferably used.

For example, stainless steel can be used, preferably a plastic comes to

Commitment. This is inexpensive and can be easily processed. The lid and the base are connected or connectable with each other in such a way that they, if they once

assembled, can no longer be separated from each other without being destroyed. The lid and the body then become integral parts of the release test vessel. The lid and the stirring mechanism are preferably designed as a common assembly, continue

preferably no longer disassembled, when the lid is connected to the base body and further preferably no longer destructive disassembled when the lid and the

Stirring mechanism have been mounted together once. Due to its structure, the release test system as a whole is particularly suitable for single use or as a disposable system.

The release test system according to the invention has the advantage that it is very simple in construction and can be produced with little effort. This is also due to the fact that structurally no possibility for disassembly must be provided, which is an increase

Freedom of design. The release test system is also particularly safe because after the preparation for the simulation, ie after filling the base body with a test liquid, tempering the test liquid and equipping the body with the test

Dosage form of the medical drug, followed by a mounting of the lid on the body, so that the release test vessel is permanently closed, no access to the interior of the release test vessel under solution of the lid is possible. After completion of the simulation, the release test vessel or the basic body including the lid can be disposed of as a unit, so that leakage of contaminated material is excluded. Conventional systems, due to their cost, are not suitable for single use and therefore need to be cleaned consuming and risky. Such use is excluded in the present invention by the constructive measures taken.

The release test system is particularly well-suited for investigating the dissolution behavior of medicinal agents under conditions that exist in the field of human gastrointestinal passage.

In a preferred embodiment of the present invention it is provided that the cover with the main body positively and / or non-positively and / or materially connectable or connected.

Preferably, the base body and the lid can be connected to one another via a latching connection, an interference fit, an adhesive connection or an ultrasonic welding. A latching connection, as an example of a positive or positive and non-positive connection, offers the advantage here that the release test vessel can initially be delivered in the open state, ie without a connection existing between the main body and the cover, and then permanently closed at the place of use can be.

The same applies to an adhesive bond as an example of a flexibly producible cohesive connection, which brings with it particular advantages in terms of tightness.

An interference fit, as an example of a non-positive connection, offers the advantage that the main body and the lid can be permanently and extremely tightly connected to each other without the need for additional parts or auxiliary materials must be provided. This reduces the constructive complexity of the release test system.

Ultrasonic welding, as another example of a cohesive connection, provides significantly increased density, durability and safety against unwanted separation of the lid from the body.

The skilled artisan will be able to select other suitable joining techniques in view of the teachings disclosed herein.

In a further preferred embodiment of the release test system of the invention, it is provided that the cover is hermetically sealed or sealable against the base body. Preferably suitable sealing elements are used here. Flat gaskets, sealing rings and also sealing pastes are particularly suitable.

All this offers several advantages. First, the security against leakage

contaminated material significantly increased. On the other hand, it can be so within the

Release test vessel, for example, by the technical control means for influencing the prevailing within the release test vessel simulation conditions defined

Create pressure conditions. For example, a negative pressure can be generated here. This ensures that even in the case of unwanted leaks in the release test vessel no contaminated material can escape to the outside. But it can also be an overpressure generated, for example, to simulate gas collections in the stomach.

In a further preferred embodiment of the release test system of the invention, it is provided that the stirring mechanism has a drive interface which is accessible only from outside the release test vessel. The drive interface may comprise, for example, a shaft end of a drive shaft of the stirring mechanism. The shaft end can be made to fit or have a key or teeth. Expediently, the shaft end protrudes from the cover of the release test vessel, wherein the cover can comprise corresponding mechanical interfaces for fastening, for example, an electric drive. Preferably, the drive shaft is permanently installed in the cover via roller bearings or plain bearings.

The described construction further reduces the constructive complexity of the

Release test system and ensures easy and extremely safe operation from the outside. In addition, it is advantageously ensured that the return mechanism within the

Release test vessel is always located at the same position. If, for example

Simulation series are carried out, expediently with different, intended for single use release test systems, the results can be better compared with each other.

Particularly preferably, the stirring mechanism can be integrated into the cover in such a way that it is released only when the permanent connection of the cover to the base body is produced with regard to a feasible stirring movement. For this purpose, for example, a blocking element can be provided, which in the closure of the base body with the lid opposite to the

Stirring mechanism is moved from a blocking position to a release position. The blocking element can ensure that use of the stirring mechanism is actually only possible when the lid is closed. So an improper handling can be excluded. In business practice, it is known that, motivated by high cost pressure, safety aspects take a back seat. Thus, it can not be ruled out that attempts will be made to use a single-use system several times. The blocking element reliably prevents such attempts.

Preferably, the blocking element is designed such that the drive interface of

Stirring mechanism is unusable (purely by way of example by a predetermined breaking point in the drive shaft) when trying to the stirring mechanism with the lid open (ie with blocking element in

Blocking position) to start with force. In this way it is ensured that the function of the blocking element can not be circumvented by force.

In a further preferred embodiment of the release test system of the invention it is provided that the sampling device comprises at least one sampling tube or in addition a sample return tube, each in a complementary

Inclusion of the lid can be arranged or arranged. The respective complementary receptacle is preferably designed such that no leakage of contaminated material can occur in any spatial position of the release test vessel. Preferably, the

Sampling tubes and optionally sample return tubes are guided over tight sliding bearings in the lid. The plain bearings can be, for example, areas of elastic material, through which the sample collection tube or sample return tube can be guided under elastic deformation of the material. By way of example, rubber inserts may be provided for this purpose. But it can also be preferably provided a plurality of successively arranged sealing rings. When

Design requirement for complementary accommodation requires complete leak-tightness of the release test vessel, even if the entire liquid column of the test fluid within the release test vessel and the medical agent dissolved therein in full or in part acts on the complementary uptake. Optionally, a safety factor may be added here, taking into account the overpressure that can be generated in the release test vessel. The skilled artisan will be able to select other suitable sealing techniques in view of the teachings disclosed herein. All this offers the advantage that a sample can be removed from the release test vessel with little effort. For this purpose, for example, a hose to the

Sampling tube are infected, which is acted upon by a negative pressure. As pressure equalization, the corresponding amount of air can flow in through the sample return tube. Alternatively, a circulation of a sample taken is also possible.

The sampling tube may also have a telescoping construction.

For example, an inner tube may be slidably guided in an outer tube. A remaining game between the inner tube and the outer tube can

preferably be sealed by a lubricant.

This offers the advantage that a small defined sample by brief immersion in the

Test fluid can be removed. Here, the utilization of the capillary action offers. By sucking, for example with a pump, it is technically more demanding to take a sample with a very small volume.

In a further preferred embodiment of the release test system of the invention, it is provided that one or more of the following features are structurally integrated into the stirring mechanism: a feed path for liquid and / or gaseous substances; technical means for measuring a pH value; technical means for measuring a temperature.

An integration into the return mechanism initially offers the advantage that existing space is effectively utilized and the said technical means can be brought by the stirring mechanism directly to the test liquid within the release test vessel.

Feed paths are designed and optionally sealed in such a way that it is always avoided that test liquid can escape from the interior of the release test vessel. For example, the feed paths can be so twisted that leakage of test fluid is not possible by itself. Also, the Zuführwege can be made correspondingly thin. Furthermore, the sealing techniques described above can be used.

The feed path offers the advantage that, for example, titers can be passed into the release test vessel. The technical means for measuring the pH and the temperature can also be advantageously used to control the pressure within the release test vessel

Use simulation conditions.

In a further preferred embodiment of the release test system of the invention, it is provided that an elastic balloon which can be acted on or acted upon by a pressure medium is arranged or arrangeable in the interior of the release test vessel.

This offers the advantage that a wide range of pressure ratios within the

Release test vessel is simulated. In particular, biorelevant pressure conditions can be realistically modeled. The intensity and frequency with the elastic balloon can be generated pressure waves are advantageous for a realistic simulation of pressure conditions on the human gastrointestinal passage.

In a further preferred embodiment of the release test system of the invention, it is provided that an adjuvant for transferring mechanical stirring energy to the test liquid is introduced or can be introduced into the release test vessel. The excipient may be

for example, to polystyrene pellets.

The adjuvant advantageously causes an increase in the mechanical stress of the

Dosage form of the medical active substance within the release test vessel. By adapting a used test liquid and a stirring program, a simulation of post-prandial conditions of fast-release dosage forms is possible.

In a further preferred embodiment of the release test system of the invention it is provided that the cover has one or more predetermined breaking points for the production of interfaces in the release test vessel, wherein in the region of the interfaces sealing elements or

Recordings are provided for this purpose.

Depending on the configuration of the release test system, for example as a function of technical means arranged within the release test vessel, such as the elastic balloon, structural weakenings are advantageously only generated in the cover if they are really necessary. Otherwise, the lid is materially tight in the area of the predetermined breaking points, which offers the highest level of safety. The existing sealing elements or recordings may optionally be designed so that they are adaptable with little effort. Purely For example, a sealing element may be provided in the form of a flat semi-finished rubber, which is pierced when necessary with a needle whose diameter

is expediently smaller than, for example, the diameter of a sampling tube to be placed in the sealing element.

The release testing system is highly configurable and safe at the same time. Since only a one-time configuration is required due to the disposable nature, such simply designed areas can be realized to fabricate the interfaces.

In a further preferred embodiment of the release test system of the invention it is provided that the release test system further comprises one or more of the following features: a drive for the stirring mechanism; a pump for delivering test fluid from and / or into the release test vessel; an analyzer for analyzing the test fluid; one or more plugs for closing interfaces of the lid.

All this offers the advantage that with the release test system a simple, safe and largely automatable simulation of the state change within the

Release test tube located medical drugs is possible. The pump and the analyzer further offer the particular advantage that a circulation of dissolved in medical active ingredients under simultaneous analysis is possible. For this purpose is

For example, test liquid from the release test tube is aspirated with the pump via a sampling tube, passed through the analyzer, analyzed, and finally pumped through the sample return tube back into the release test tube. Advantageously, test runs with a longer duration can thus also be realized in order to observe the change in state of the medical active ingredients continuously over time.

Unless otherwise stated, the various features disclosed in this patent application can be combined.

In the following the invention will be described in more detail by means of exemplary embodiments and associated figures. It shows:

FIG. 1 shows a release test system according to the invention in a preferred embodiment

Embodiment as an exploded view; Figure 2 shows the release test system of Figure 1 in a cross-sectional view, a

Top view and an isometric view;

FIG. 3 shows a release test system according to the invention in a further preferred embodiment

embodiment;

FIG. 4 shows a release test system according to the invention in a further preferred embodiment

embodiment;

FIG. 5 shows a release test system according to the invention in a further preferred embodiment

embodiment;

FIG. 6 shows a release test system according to the invention in a further preferred embodiment

embodiment; and

FIG. 7 Sequence of a simulation with a release test system according to the invention in a preferred embodiment.

FIG. 1 shows a release test system 10 according to the invention in a preferred embodiment

Embodiment. The release test system 10 is shown in exploded view. The release test system 10 comprises a main body 12 and a lid 14. The main body 12 and the lid 14 are mountable to a release test vessel 16 (see Figure 2). The release test system 10 further comprises technical control means 18 for influencing the simulation test vessel 16 under prevailing simulation conditions. The technical control means 18 comprise at least one stirring mechanism 20 and a tempering device 22. In the present case, the tempering device 22 is shown purely by way of example as a heating spiral 24 on an outer side of the base body 12. However, it can also be integrated in the release test vessel 16 or realized in any other known manner. Furthermore, this includes

Release test system 10, a sampling device 26. The sampling device 26 is realized in Figure 1 only in the form of interfaces 28, which are formed

Sampling tube 30 and a sample return tube 32 (see each of Figures 3 to 7) record.

The lid 14 shown in Figure 1 is connected to the base body 12 such that the lid 14 and the base body 12 after the connection is no longer destructive are detachable from each other. For this purpose, the cover 14 and the base body 12 areas for producing a latching connection 34, so depending on the structural design of a positive or additional non-positive connection. These areas for producing a latching connection 34 are shown in more detail in FIG. They are designed such that after installation of the lid 14 and the base body 12 no access to them and the connection from the outside is no longer solvable.

The stirring mechanism 20 is structurally integrated in the lid 14 and thus permanently connected to this. In the present case, this comprises a blade stirrer 36, a stirring shaft 38, a storage section 40 and a sealing ring 42 which can be arranged on the storage section 40 and in the cover 14. The storage section 40 likewise has one of the regions for producing a latching connection 34 in an upper region (cf. FIG. 2) ) on. In the present case, the stirring mechanism 20 can thus be easily locked in the lid 14 and sealed with the sealing ring 42 against this.

For hermetic sealing of the lid 14 against the base body 12 and the

Release test vessel 16 with respect to the environment, a flat gasket 44 is provided in the region of the latching connection. Furthermore, the described sealing ring 42 is involved in the hermetic seal. The interfaces 28 are, if there is still no sampling device 26 or other required additional technical elements are arranged, materially sealed tight. In this case, only predetermined breaking points 46 are provided in the material of the lid 14. As long as the interfaces 28 are not needed, the lid 14 is thus hermetically sealed by itself. The seal when using the interfaces 28 will be described below.

FIG. 2 shows the release test system 10 from FIG. 1 in an assembled state. 2, the release test vessel 16 with the lid 14 mounted on the base 12 is shown in a cross-sectional view A-A. The associated section line A is shown in the lower left part of Figure 2, in which the release test system 10 is shown in plan view. In the lower right part of Figure 2, the assembled release test system 10 is shown in an isometric view.

The lid 14 and the base body 12 are inseparably connected to each other in Figure 2. Clearly visible is a drive interface 48, which protrudes from the lid 14 and is thus easily accessible from the outside. The arrangement of the flat gasket 44 between the cover 14 and the main body 12 is also clearly visible. This is shown in detail B. Detail C shows the arrangement of the sealing ring 42 between storage section 40 and cover 14. In the cross-sectional view AA is the

Stirring shaft 38 visible. This is presently designed as a hollow shaft. Thus, additional space is available in which technical control means 18 or also means for measuring can be integrated if required (cf. FIG. 6).

FIG. 3 shows the release test system 10 in a further preferred embodiment. It is indicated how the sampling device 26 with the sampling tube 30 and the sample recycling tube 32 projects through the lid 14 into the release test tube 16. The sampling tube 30 protrudes into a test liquid 50 located in the release test vessel 16. The interfaces 28 known from FIGS. 1 and 2 are here in each case opposite the sampling tube 30 or

Sample return tube 32 to complementary receptacles 52 further developed. For example, for this purpose, first the respective predetermined breaking points 46 have been opened. There are now different variants conceivable how the exposed interfaces 28 can be further developed to the complementary receptacles 52. For example, 46 may be provided for this purpose below the predetermined breaking points 46 sealing elements or recordings from the outset. Also slide bearings may be provided in the lid, for example in the form of areas of elastic material, which also act as a sealing element. The development to the complementary receptacles 52 can be done for example under elastic deformation. For example, a plurality of successively arranged sealing rings can be arranged, which are widened when the sampling tube 30 or sample return tube 32 is passed. But it is also possible to penetrate the elastic regions. It is equally possible that

Plain bearing, for example, elastic elements, first use later.

FIG. 1 indicates that a dosage form 54 of a medicinal active substance is introduced into the test liquid 50. By way of example, this is a tablet or capsule.

By rotation of the stirring mechanism 20 can be in the release test vessel 16

Mechanically influence simulation conditions. By not shown here

Tempering device 22, which may be arranged both in or on the release test vessel 16, as well as separated therefrom, the test liquid 50 before and / or during and optionally after the simulation tempered.

The sampling device 26 allows a pure sampling and recycling. For this purpose, the sample can either be taken with the sampling tube 30 and be given with the sample return tube 32 air or other medium or the sample removed can be recycled via the sample return tube 32.

FIG. 4 shows the release test system 10 in a further preferred embodiment. Here, an auxiliary substance 56 for transferring mechanical stirring energy to the test liquid 50 and thus the dosage form 54 is additionally introduced into the test liquid 50. The adjuvant 56 is exemplified by polystyrene pellets.

Figure 5 shows the release testing system 10 of another preferred embodiment. Here, an elastic balloon 58 is disposed inside the release test vessel 16. Via a Zuführweg 60, which is realized via a correspondingly adapted interface of the interfaces 28, the elastic balloon 58 with a pressure medium 62 can be acted upon. The elastic balloon 58 is arranged in a sample space 64 arranged within the release test vessel 16, wherein the sample space 64 is fluidically with the remaining within the

Release test tube is connected 16 lying volume. In the rehearsal room is the

Darreichungsform 54 arranged, which is thus surrounded by the test liquid 50. These

Embodiment makes it possible to act on the dosage form 54 specifically with a characteristic of the human or animal organ pressure or pressure profile. The pressure may be transmitted to the dosage form 54 as a pressure wave through the test fluid 50 or through contact with the elastic balloon 58.

Figure 6 shows the release test system 10 of another preferred embodiment. This provides that the Zuführweg 60 is integrated directly into the stirring mechanism 20. The feed path 60 may be configured to pass or discharge substances 66 into the release test vessel 16. The feed path is another exemplary technical control means 18, as well as the excipient 56 of Figure 4 and the elastic balloon 58 of Figure 5. The substances 66 may be liquid, solid, gaseous or a mixture. For example, titers, carbon dioxide or nitrogen can be supplied. It is also possible to integrate technical means for measuring a pH value of 68 or technical means for measuring a temperature 70 in the stirring mechanism 20. In the present case, for example, an integrated pH-temperature sensor 72 is integrated in the agitator shaft 38.

Finally, FIG. 7 shows by way of example how the release test system 10 according to the invention is to be used fundamentally. In a step I, the release test vessel 16 is provided. The lid 14 and the main body 12 can be delivered already in the preassembled state as shown in step l _a or as shown in step l _b in the unassembled state. The unassembled state makes it easier to fill the body 12 with test fluid 50 while the pre-assembled condition facilitates sterile transportation. On the other hand, if the base body 12 is preassembled with the cover 14, the release test vessel 16 can be filled via the interfaces 28. These can then be securely closed with, for example, one or more plugs 74.

At the latest in step II, the filling with test liquid 50, a loading with the

Dosage form, at the latest now the assembly of the lid 14 on the base body 12, followed by a tempering of the test liquid 50th

At the latest in step III is a stirring 76 with the stirring mechanism 20. This is a

corresponding drive 78 connected to the stirring mechanism 20. There is still one

Removal of a sample with the sampling device 26 via, for example, a pump 80 and analysis of the sample with an analyzer 82. Optionally, as indicated, a circulation of the sample carried out to perform a long-term experiment.

In step IV, the release test vessel 16 is disposed of, including stirring mechanism 20, sampling and return tubes, and the test liquid 50 and the

Dosage form 54. Thus, all contaminated elements whose cleaning is complex and risky, disposed of directly. The contaminated test liquid 50 remains securely contained inside the release test vessel 16.

reference numeral

10 release test system

12 basic body

14 lids

16 release test vessel

18 technical controls

20 stirring mechanism

22 tempering device

24 heating coil

26 sampling device

28 interfaces

30 sample tubes

32 sample return tubes

34 areas for producing a locking connection

36 blade stirrer

38 agitator shaft

40 storage section

42 sealing ring

44 flat gasket

46 predetermined breaking points

48 drive interface

50 test liquid

52 complementary shots

54 Dosage Form

56 excipient

58 feed path

60 elastic balloon

62 print medium

64 sample room

66 substances

68 technical means for measuring a pH value

70 technical means for measuring a temperature

72 integrated pH temperature sensor

74 plugs 76 stirring

78 drive

80 pump

82 analyzer

Claims

claims

A release testing system (10) for simulating the change in state of medical agents in the region of a human or animal organ comprising at least: a body (12) of a release test vessel (16);

a lid (14) of the release test vessel (16);

technical control means (18) for influencing simulation conditions prevailing within the release test vessel (16), the technical control means (18) comprising at least one stirring mechanism (20) and a tempering device (22); and still

a sampling device (26);

characterized in that

the cover (14) and at least the stirring mechanism (20) are connected to one another permanently and a non-detachable connection can be produced between the base body (12) and the cover (14).

2. Release test system (10) according to claim 1

characterized in that

the cover (14) can be connected or connected to the base body (12) in a form-fitting and / or force-locking and / or material-locking manner.

3. Release test system (10) according to one of the preceding claims,

characterized in that

the lid (14) is hermetically sealed or sealable against the base body (12).

4. Release test system (10) according to one of the preceding claims,

characterized in that

the stirring mechanism (20) has a drive interface (48) which is accessible from outside the release test vessel (16).

5. Release test system (10) according to one of the preceding claims,

characterized in that

the sampling device (26) comprises at least one sampling tube (30) or, in addition, a sample return tube (32), each arrangeable or arranged in a complementary receptacle (52) of the lid (14).

6. Release test system (10) according to one of the preceding claims,

characterized in that

one or more of the following features are structurally integrated into the stirring mechanism (20): a supply path (60) for liquid and / or gaseous substances (66); technical means for measuring a pH (68); technical means for measuring a temperature (70).

7. Release test system (10) according to one of the preceding claims,

characterized in that

in the interior of the release test vessel (16) an elastic balloon (58) is arranged or arranged, which is acted upon by a pressure medium (62).

8. Release test system (10) according to one of the preceding claims,

characterized in that

an adjuvant (56) for transferring mechanical stirring energy to a test fluid (50) is introduced or introducible into the release test vessel (16).

9. Release test system (10) according to one of the preceding claims,

characterized in that

the lid (14) has one or more predetermined breaking points (46) for the production of interfaces (28) in the release test vessel (16), wherein in the region of the interfaces (28) sealing elements or receptacles are provided for this purpose.

10. Release test system (10) according to one of the preceding claims,

characterized in that

the release test system (10) further comprises one or more of the following features: a drive (78) for the agitator mechanism (20); a pump (80) for delivering test fluid (50) from and / or into the release test vessel (16); an analyzer (82) for analyzing the test fluid (50); one or more plugs (74) for closing interfaces (28) of the lid (14).