EP4093445A1 - Method for automatic and sterile-container-specific detection of sterilisation cycles carried out by a sterile container - Google Patents

Abstract

The present invention relates to a method for automatic and sterile-container-specific detection of sterilisation cycles carried out by a sterile container, wherein a temperature acting on the sterile container is detected using a temperature measurement device associated with the sterile container, wherein a temperature measurement device detects the temperature at fixed first time intervals, detected temperature values are stored in a memory once a predetermined first limit temperature has been exceeded, storing of detected temperature values is suspended once a predetermined second limit temperature has been undershot or after a predetermined duration has elapsed after the first limit temperature has been exceeded, the stored temperature values are compared with reference temperature values, wherein deviation of the temperature values from the reference temperature values is determined, and in the event of a deviation within a predetermined tolerance range, a counter and/or a display device are/is actuated. The invention also relates to a system for carrying out a method according to the invention.

Description

Process for the automatic and sterile container-specific recording of sterilization cycles carried out by means of a sterile container

description

The present disclosure relates to a method for automatic and sterile container-specific detection of sterilization cycles carried out by means of a sterile container, with a temperature measuring device assigned to the sterile container being used to detect a temperature acting on the sterile container. It also relates to a system for automatic and sterile container-specific recording of sterilization cycles carried out by means of a sterile container, comprising a sterile container, a temperature measuring device assigned to the sterile container for recording a temperature acting on the sterile container, a memory and a counting device and / or a display device.

Revelation background

Various methods for the automatic or semi-automatic detection of a number of sterilization cycles to which a medical-technical sterile container has been subjected in the course of its use are known from the prior art. In this case, sterilization cycles can be recorded in particular by recording temperature and / or pressure values and comparing them with defined limit values. Either electronic sensors or mechanical components are used for this. If, for example, a previously defined limit temperature is reached, this is indicated in some known methods and systems. It is also known to store a number of limit temperatures reached and to make them available by reading them out with a special reader.

A common system with mechanical indicators uses, for example, bimetal elements that change shape in a certain temperature range. Such changes in shape are recorded with the system and allow conclusions to be drawn about temperature fluctuations to which the sterile container is exposed was. Disadvantageously, however, a bi-metal sensor does not indicate the number of sterilizations that have been carried out. Another disadvantage is that the recording of individual temperature limit values is not a reliable method of confirming temperature and pressure cycles of sterilization processes. DE 102015 112205 A1 discloses a device for counting sterilization cycles in the sterilization of medical instruments and devices using a bi-metal, having a counter for recording and reproducing a number of sterilization cycles, an actuating device for sterilization parameter-dependent actuation of the counter, and a locking device for sterilization parameter-dependent locking of the counter, the actuating device actuating the counter when a first threshold sterilization parameter is exceeded and the locking device locking the counter after a successful actuation and / or after exceeding a second threshold sterilization parameter and unlocking it after falling below a third threshold sterilization parameter.

EP 1 662234 A1 discloses a device and a method for electronic monitoring of a sterilization process, with measured values being recorded by several sensors inside a closed process space with metallic walls, recorded measured values being collected and stored in several data loggers each assigned to the sensors. The stored measured values are transmitted by radio to a receiving device outside the process room.

State of the art

DE 102013 102277 A1 discloses a system, a measuring device and a method for storing a sterilization cycle, comprising a counter for counting sterilization cycles when a threshold temperature typical for the sterilization cycle is exceeded, a memory for storing the number of sterilization cycles, and an energy generation device that enables the The counter and / or the memory are supplied with energy, the energy supply device being designed to be self-sufficient. DE 20201 752 U1 discloses a measuring device for monitoring the sterilization conditions in a sterilization chamber consisting of a data recorder that can be introduced into the sterilization chamber, a data readout device outside the sterilization chamber and an evaluation unit, the data recorder having a housing in which a control device, a power supply unit, a data memory and a pressure sensor are located and the data readout device is provided with a data output, the data recorder being connected via a sensor cable to semiconductor elements which can be inserted into the sterilization chamber and stores the temperatures measured at a large number of points in the sterilization chamber.

WO9416299 discloses an apparatus for detecting a number of target temperatures being reached.

WO 2016075418 discloses a sterilization container for surgical instruments which comprises an electronic identity device for monitoring and traceability of the container and its contents. This comprises a measurement module for measuring a parameter representative of an environmental condition and for generating an element of digital measurement data as a function of the measurement, a memory module for storing the measurement data set generated, a communication module that is suitable for interacting with the memory module to store the measurement data set determined to an external reader when it interacts with the communication module.

US20070160494 discloses a sterilization system which has an autoclave and a sterilization container provided with an RFID tag, the RFID tag containing data relating to an object to be sterilized contained in the container which is read out by a control unit of the autoclave and used to control the sterilization .

In summary, it can be said that the number of reprocessings such as, in particular, sterilizations of medical sterile containers and instrument sets with currently known methods for the automatic detection of sterilization cycles cannot usually be reliably determined. In the above known methods for automatic detection and / or monitoring of sterilization cycles, it is disadvantageous that detection of temperature limit values by means of bi-metal technology is unfortunately generally inaccurate. The same applies to processes and systems that recognize sterilization cycles as a result of limit values being exceeded. In some cases, it is only possible to adjust the limit values to a limited extent or with difficulty. Another disadvantage is that in such methods and systems, holding times to be observed for an intended sterilization are usually not recorded.

Brief description of the disclosure

Proceeding from the prior art described above, the present disclosure is based on the object of reducing the stated disadvantages of the prior art, in particular to provide a method and a system with which an automatic and flexible, adaptable detection of sterilization cycles is reliably and precisely possible is.

This object is achieved according to the present disclosure by a method according to claim 1, i.e. a method for automatic and sterile container-specific detection of sterilization cycles carried out by means of a sterile container, with a temperature measuring device assigned to the sterile container detecting a temperature acting on the sterile container and the temperature measuring device detecting the temperature recorded in defined (first) time intervals, after exceeding a predetermined first limit temperature, recorded temperature values are stored in a memory, after falling below a predetermined second limit temperature or after a predetermined period of time after exceeding the first limit temperature the storage of recorded temperature values is set, the stored temperature values with Reference temperature values are compared, a deviation of the temperature values from the reference temperature values being determined, un d in the event of a deviation only within a predetermined tolerance range, a counting device and / or a display device is or are actuated. The object is also achieved by a system according to claim 10, that is to say by a system set up to carry out the method according to the disclosure, in particular a method according to one of claims 1 to 9 or according to the present description. The system is set up in particular for automatic and sterile container-specific recording of sterilization cycles carried out by means of a sterile container and comprises a sterile container, a temperature measuring device assigned to the sterile container for recording a temperature acting on the sterile container, a memory and a counting device and / or a display device. In particular, the system is set up to use the temperature measuring device to record the temperature at fixed (first) time intervals, to store recorded temperature values in the memory after a predetermined first limit temperature has been exceeded, after falling below a predetermined second limit temperature at the latest, however, after a predetermined period of time has elapsed the first limit temperature to set the storage of recorded temperature values, to compare the stored temperature values with reference temperature values and to determine a deviation of the temperature values from the reference temperature values, and to operate the counter and / or the display device in the event of a deviation only within a predetermined tolerance range.

In the context of the disclosure, the temperature measuring device can preferably be an integral part of the sterile container. As an alternative or in addition, the temperature measuring device can be a component, in particular an integral component, of a sieve basket and / or an outer packaging of the sterile container. In this sense, within the scope of the disclosure, a sterile container-specific detection can also be understood to be such a detection in which the detection takes place specifically for a sterile container associated sieve baskets and / or outer packaging. The temperature measuring device is preferably a temperature logger which enables simple, automatic monitoring and recording of temperatures and / or temperature profiles. The temperature measuring device is preferably programmable so that the first and second limit temperatures and / or the first and second time intervals can be freely selected and selected / programmed. The first limit temperature and / or the second limit temperature can preferably be adapted in accordance with a requirement in order to cover and take into account different environmental conditions. By selecting the two limit temperatures, a range can be defined in the sense of the invention, in which the presence of a sterilization process is assumed.

According to the disclosure, the stored temperature values are compared with reference temperature values and a deviation of the temperature values from the reference temperature values is determined. This can take place in real time continuously while the temperature is being measured or only after the temperature falls below the second temperature limit or a time limit. In particular, the recorded values can be compared with a predetermined temperature-time curve and evaluated within a tolerance range.

It can also be said, preferably, that the disclosure can offer the possibility of a type of basic monitoring / rough monitoring on the one hand and the possibility of sterilization monitoring / fine monitoring on the other hand. As part of the basic monitoring / rough monitoring, the temperature is preferably recorded at first (long) time intervals, that is to say at time intervals determined / defined by the first time intervals. In the context of the sterilization monitoring / fine monitoring, the temperature is preferably recorded at second short time intervals, that is to say at time intervals determined / defined by the second time intervals. By appropriately selecting the length of the first and second time intervals, the coarse monitoring and the fine monitoring can be adapted as best as possible to the particular circumstances.

By means of the disclosure, in particular continuous monitoring or monitoring of the sterile container over a long period of time is possible via the coarse monitoring. For example, the sterile container can be monitored for an entire period between two test cycles. The first time intervals are preferably selected to be relatively long, so that even if the temperature values recorded are stored, for example in the context of quality assurance, with continuous monitoring over a long period of time, the recorded data volumes do not become too large. It is quasi continuous, complete monitoring over the entire operating time and / or service life of the sterile container is possible.

As part of the fine monitoring, which is triggered by exceeding the first limit temperature, a particularly fine monitoring of a sterilization cycle or a possibly existing sterilization cycle can take place. The second time intervals are preferably selected to be relatively short, that is to say shorter than the first time intervals, so that particularly fine / fine-meshed monitoring of the sterile container is possible after the first limit temperature has been exceeded. The large amounts of data resulting from fine-meshed monitoring are relatively uncritical, since fine-tuning usually only takes place over relatively short periods of time, namely until the temperature falls below the second limit temperature or the predetermined period of time has expired and the recording of the temperature values is stopped. A particularly fine monitoring of a sterilization process is thus possible.

A particular advantage of the disclosure is that the change from coarse monitoring to fine monitoring takes place automatically, triggered when the first limit temperature is exceeded. The change from fine monitoring to coarse monitoring also takes place automatically, triggered by the temperature dropping below the second limit temperature or the predetermined period of time elapsing. The invention thus advantageously enables, in particular automatically, a recognition of sterilization cycles and / or a detection of temperature profiles, a measurement at defined time intervals and a comparison with predetermined temperatures / temperature profiles. In addition, the change between the measuring intervals can take place automatically.

In the context of the disclosure, a deviation of the temperature values from the reference temperature values is also determined. If the deviation is only within the predetermined tolerance range, an actual sterilization process / sterilization cycle is assumed and a counter, in particular in the form of an incrementable cycle counter, is used to document the sterilization processes carried out with the sterile container. The disclosure can thus advantageously be automatic Effect recording and display of sterilization cycles carried out with the sterile container.

Advantageous embodiments of the disclosure are claimed in the subclaims and are explained in more detail below.

One embodiment of the disclosure is characterized in that the counting device is not actuated in the event of a deviation outside the predetermined tolerance range. Alternatively or additionally, an error message can be output and / or saved. Such an indicator is preferably reversible. In this way, with the disclosure, malfunctions in sterilization and preparation processes can be easily and reliably determined and displayed.

The first intervals in which the temperature to which the sterile container is exposed is measured / recorded, can have a duration of between about three minutes to about seven minutes within the scope of the method according to the invention. Their duration is preferably between about four minutes to about six minutes, particularly preferably about five minutes.

Another embodiment of the disclosure is characterized in that the temperature measuring device detects the temperature at defined second intervals after the first limit temperature has been exceeded. These second intervals are preferably shorter than the first time intervals. According to one embodiment of the disclosure, they can have a duration of between about 20 seconds to about 120 seconds, preferably between about 40 seconds to about 90 seconds, particularly preferably about 60 seconds.

Another embodiment of the disclosure is characterized in that when the temperature falls below the predetermined second limit temperature, the temperature measuring device detects the temperature again in the defined first intervals. Alternatively, after the predetermined period of time has elapsed after the first limit temperature has been exceeded, the temperature measuring device can again detect the temperature in the defined first intervals. The first limit temperature and / or the second limit temperature can preferably be set. According to a further embodiment of the disclosure, particularly good monitoring of sterilization processes can be achieved by recording temperature-specific holding times after the first limit temperature has been exceeded and storing them in a memory. In particular, the stored holding times can be compared with reference holding times and a deviation of the holding times from the reference holding times can be determined. Due to the short measuring intervals in the form of the second intervals, holding times can be recorded particularly well and precisely. The disclosure thus enables temperatures to be recorded in a particularly simple manner and sterilization to be recognized on the basis of predetermined temperature profiles / holding times.

In particular, the disclosure can enable the following advantages:

- automatic change of measurement interval times

- Comparison of sterilization temperatures with given curves

- Monitoring of an entire sterilization instead of limit value considerations

- Adjustment of target parameters to the respective application or to individual sterilization processes

- Reliable recording of temperature cycles (sterilization)

- Reduction of the energy requirement through autonomous operation

- Possibility of adapting the parameters to the given sterilization conditions

- Measurement intervals enable the detection of holding times and the beginning of sterilization

In summary, it can be said that the disclosure enables a method and a system with which sterilizations can be reliably identified and checked with a minimal expenditure of energy. Measurement intervals of, for example, five minutes can be used to identify the sterilization and intervals of one minute can be used for an analysis. The detection, analysis and mode change can in particular be carried out autonomously by the system and adapted to different conditions. Further features and advantages of the present disclosure emerge from the following exemplary and non-limiting description of the figures. These are merely of a schematic nature and are only used for understanding the invention. It shows:

1 shows a schematic flow diagram of an exemplary embodiment of the disclosure and

2 shows a basic illustration of a system according to the disclosure.

At the beginning of the exemplary embodiment of the method shown in FIG. 1, temperatures to which a sterile container 2 is exposed are recorded with a temperature measuring device 1 in the form of a communicative temperature logger at intervals / first intervals / first time intervals of five minutes (300 seconds). This monitoring represents a kind of rough monitoring. This can involve both the temperature of an atmosphere surrounding the sterile container 2 and the temperature of an atmosphere located inside the sterile container 2.

The temperature can be measured with one or more temperature sensors.

The recorded temperatures are analyzed as part of the method and compared with a first limit temperature value stored in a storage unit 4. This value can be adjusted as required. As long as the temperature values measured in the first time intervals do not exceed the first limit value temperature, the method and the system remain in the rough monitoring by means of the first intervals. As soon as sterilization is carried out with the sterile container 2, the temperature to which the sterile container 2 is exposed rises. If a temperature measured during this phase exceeds this defined first limit value, the logger 1 automatically switches to a sterilization mode. This represents a kind of fine monitoring of the sterile container 2 and the sterilization process. The system now initially assumes that the temperature values now recorded are sterilization temperatures and that a sterilization process is being carried out with the sterilization container 2.

After the first limit temperature has been exceeded, i.e. in the sterilization mode or in the fine monitoring, the interval time is increased from the first interval duration to a second interval duration reduced by one minute (60 seconds). Because the temperature measurements are then carried out more frequently, holding times and temperature changes can be recorded as precisely as possible during this entire phase. Furthermore, the recorded temperature values or time values / holding times are stored in an internal memory 4 in order to be able to evaluate them later.

If the temperature falls below a second limit temperature or a certain period of time, the fine monitoring is ended. In some embodiments, the temperature measurement can also be terminated. The temperature values recorded and stored during the fine monitoring and any time values / holding times present are compared with reference values stored in the system / memory 4, for example a sterilization temperature curve and / or a time curve. As a result, the times / holding times and temperatures / temperature profiles / temperature changes used during the process can be recorded and checked (by means of a computer 6), so that an analysis and control of the sterilization process carried out using intended values / processes (also by means of the computer) is easily made possible and compared with a simple limit value observation according to the state of the art makes it significantly safer.

If the measured / stored temperature values / time values are within a defined tolerance range, i.e. if they match the specification, the sterilization is classified as successful. In this case, either a computer internal counter is set as a counting device or an indicator is set as a display device 8 in order to make the successful sterilization visible to the outside. If the values do not meet the requirements, i.e. if they are outside the tolerance range, this can either be made visible in a similar way. Alternatively, the system can be set back to the original mode, i.e. for temperature monitoring with the first interval period. After the acquisition and evaluation, the internal memory 4 is reset and the measuring interval for the ambient temperature is again five minutes.

Claims

Claims

1. A method for the automatic and sterile container-specific detection of sterilization cycles carried out by means of a sterile container, with a temperature measuring device preferably assigned to the sterile container being used to detect a temperature acting on the sterile container, characterized in that the temperature measuring device detects the temperature in defined first time intervals after a predetermined first one is exceeded Limit temperature recorded temperature values are stored in a memory, after falling below a predetermined second limit temperature or after a predetermined period of time after exceeding the first limit temperature the storage of recorded temperature values is set, the stored temperature values are compared with reference temperature values, a deviation of the temperature values from the reference temperature values being determined is, and if there is a deviation within a predetermined tolerance range If a counting device and / or a display device is or are operated.

2. The method according to claim 1, characterized in that the counting device is not actuated in the event of a deviation outside the predetermined tolerance range and / or an error message is output and / or stored.

3. The method according to claim 1 or 2, characterized in that the first intervals are four to six minutes, in particular five minutes.

4. The method according to any one of the preceding claims, characterized in that the temperature measuring device detects the temperature in defined second intervals after the first limit temperature is exceeded, which are in particular shorter than the first time intervals.

5. The method according to claim 4, characterized in that the second intervals are 40 to 90 seconds, in particular 60 seconds.

6. The method according to any one of the preceding claims, characterized in that when the temperature falls below the predetermined second limit temperature or after the predetermined period of time after the first limit temperature has been exceeded, the temperature measuring device detects the temperature again in the defined first intervals.

7. The method according to any one of the preceding claims, characterized in that the first limit temperature and / or the second limit temperature can be set and adjusted.

8. The method according to any one of the preceding claims, characterized in that after the first limit temperature is exceeded, temperature-specific holding times are recorded and stored in a memory.

9. The method according to claim 8, characterized in that the stored holding times are compared with, in particular, adaptable and / or specifiable reference holding times, a deviation of the holding times from the reference holding times being determined.

10. A system for the automatic and sterile container-specific detection of sterilization cycles carried out by means of a sterile container, having

- A temperature measuring device, preferably assigned to a sterile container, for recording a temperature acting on the sterile container,

- a memory and

- a counting device and / or a display device, wherein the system is set up,

- using the temperature measuring device to record the temperature in defined first time intervals,

- to store recorded temperature values in the memory after a predetermined first limit temperature has been exceeded,

- after falling below a predetermined second limit temperature or after expiry of a predetermined period of time after exceeding the first limit temperature, to set the storage of recorded temperature values, - to compare the stored temperature values with reference temperature values and to determine a deviation of the temperature values from the reference temperature values, and

- to operate the counting device and / or the display device in the event of a deviation within a predetermined tolerance range.

11. System according to claim 10, characterized in that the temperature measuring device is a temperature logger.

12. System according to claim 10, characterized by a sterile container.

13. Machine-readable data memory, characterized in that a method with the method steps according to one of claims 1 to 9 is stored on it.