EP2247272A2

EP2247272A2 - Device and method for monitoring an access to a patient, in particular a vascular access during an extracorporeal blood treatment

Info

Publication number: EP2247272A2
Application number: EP09717252A
Authority: EP
Inventors: Malte Gross
Original assignee: Fresenius Medical Care Deutschland GmbH
Current assignee: Fresenius Medical Care Deutschland GmbH
Priority date: 2008-03-07
Filing date: 2009-03-03
Publication date: 2010-11-10
Also published as: CN101959485A; US20110046534A1; WO2009109351A2; WO2009109351A3; DE102008013090A1; JP2011512971A

Abstract

The invention relates to the monitoring of an access to a patient at a puncture point, in particular the monitoring of the arterial and/or venous vascular access during an extracorporeal blood treatment. The device according to the invention, using which the exit of blood at the puncture point can be recognized, is implemented as a magnetoelastic moisture sensor (24), which is embedded in an absorbent material (25), which is laid on the puncture point (37). For the case in which infusion solution and/or blood exits from the puncture point (37), the incorrect seating of the puncture cannula (39) can be recognized reliably using the device according to the invention. The absorbent material (25) having the embedded magnetoelastic moisture sensor (24) can be laid like conventional bandage material or a gauze bandage on the puncture point. It is advantageous that using the device according to the invention, the requirements of hospital hygiene during dialysis are also fulfilled, because the puncture point is sterilely covered by laying on the device according to the invention. In addition, the device according to the invention may be provided cost-effectively in large piece counts as an article intended for single use and can be handled like conventional bandage material to avoid infections at puncture points. The monitoring of the patient access thus does not require additional measures.

Description

Apparatus and method for monitoring access to a patient, in particular a vascular access in an extracorporeal blood treatment

The invention relates to a device for detecting fluid for a device for monitoring access to a patient, in particular for monitoring the arterial and / or venous vascular access in an extracorporeal blood treatment device. Moreover, the invention relates to a device for monitoring access to a patient, in particular for monitoring a vascular access in an extracorporeal blood treatment, wherein the monitoring device has a device for detecting blood. Furthermore, the invention relates to an extracorporeal blood treatment device with a device for monitoring the arterial and / or venous vascular access and a method for monitoring access to a patient, in particular for monitoring the arterial and / or venous vascular access in an extracorporeal blood treatment.

Devices are known in the field of medical technology with which liquids can be taken from a patient via a hose line or liquids can be supplied to patients. Access to the patient is generally with a catheter for insertion into body organs or a cannula or needle for puncturing vessels. During the examination or treatment, proper access to the patient must be ensured. Therefore, it is necessary to monitor patient access.

An application with particularly high demands on the safety of the monitoring of vascular access is the extracorporeal blood treatment in which an arterial tubing, which has an arterial puncture cannula (needle), blood drained from the patient, the blood is passed through a dialyzer and over a venous blood line comprising a venous puncture cannula (needle), which is returned to the patient. It exists despite regular monitoring of the Patient access by the hospital staff in principle the risk that a puncture cannula unnoticed slip out of the patient's blood vessel or even slip out both puncture cannulas from the patient's blood vessel. While the dislodging of the arterial cannula is associated with the aspiration of air into the arterial tubing, which immediately results in an audible and / or visual alarm and interruption of treatment due to machine-side air detection, slipping out of the venous cannula and the dread flow thus feared of the blood into the environment is not readily detected. However, if slipping out of the venous needle is not detected immediately, the patient may bleed to death.

In the prior art, devices are known which monitor the position of the arterial and / or venous cannula in order to detect the slipping out of the cannula from the vessel in order to detect a faulty vascular access.

US-A-5 578 003 discloses a safety device for a blood, wound secretion or infiltrating tubing that responds to a relative change in position of the tubing.

From DE 199 53 068 Al a mechanical safety device is known, which can be attached to the blood line of a dialysis machine. The known safety device has elastically biased jaws which are held in the open position by a locking bar fixed to the patient's body. In a change in position of the blood line tear the locking latch, so that the jaws disconnect the hose.

Furthermore, devices for monitoring vascular access are known, which are based on monitoring the venous and / or arterial pressure in the extracorporeal blood circulation. For example, WO 97/10013 describes a monitoring device based on monitoring the pressure in the extracorporeal circuit. An advantage of these monitoring devices is that a patient-side sensor is not required. However, there is a risk that only the complete slipping out of the cannula can be detected, but not Oozing bleeding due to partial dislocation of the cannula. Also, poorly closed luer lock connectors can not be detected with sufficient certainty.

In addition to the devices described above, monitoring devices are known which detect the blood emerging at the puncture site. For example, WO 2006/8866 A1 and WO 99/24145 A1 describe devices for monitoring access to a patient which have a moisture-sensitive sensor which detects the blood exiting at the puncture site. US Pat. No. 6,445,304 also discloses a moisture sensor for detecting bleeding.

US 2002/198483 A1 describes a moisture sensor for detecting blood at a puncture site in extracorporeal blood treatment. The sensor is a conductive sensor that is electrically connected to a DC or AC voltage source, measuring the voltage drop between the two conductive electrodes. As an alternative to a conductive sensor, a capacitive sensor is proposed. Furthermore, it is proposed to cover the puncture site for reasons of sterility with a sterile barrier, for example, a sterile Päd on which the conductive or capacitive moisture sensor is placed.

For the detection of moisture or a liquid magneto-elastic sensors are known in the prior art.

The article "Wireless Magnetoelastic Resonance Sensors: A Critical Review" from Sensors 2002, 2, 294-313, ISSN 1424-8220 describes a magneto-elastic sensor for the detection of moisture or a liquid.The article deals with the theoretical fundamentals of such a device In the article, it is described that the resonance frequency of the magneto-elastic sensor decreases with the increase of the surrounding humidity, and also describes apparatuses with which the change of the resonance frequency due to a change of the humidity can be measured. US Pat. No. 7,176,344 B2 discloses the use of a magneto-elastic sensor in a hygiene product, in particular a diaper. However, US Pat. No. 7,176,344 B2 does not address the problem of monitoring vascular access to a patient.

The invention is based on the object to monitor a Gefaßzugang to a patient, in particular an arterial and / or venous Gefaßzugang in a simple manner with high reliability, whereby not only the slipping out, but also an improper fit of the puncture cannula can be reliably detected.

The solution of this object is achieved according to the invention with the features of independent claims 1, 4, 6, 11 and 12. Advantageous embodiments of the invention are the subject of the dependent claims.

The device according to the invention for detecting fluid for a device for monitoring access to the patient is designed as a magneto-elastic moisture sensor embedded in an absorbent material which is placed on the puncture site.

In the event that infusion solution and / or blood should escape from the puncture site and / or the puncture cannula, the improper fit of the puncturing cannula can be reliably detected with the device according to the invention.

The absorbent material with the embedded magneto-elastic moisture sensor can be placed on the puncture site like conventional dressings or a gauze bandage. It is advantageous that with the use of the device according to the invention as it meets the requirements of hospital hygiene in dialysis, which are made by the Commission for Hospital Hygiene and Infection Prevention, since the puncture site is covered with the laying of the device according to the invention sterile. It is to be assumed that the absorbent material of the device according to the invention is sterile. The device according to the invention can be provided cost-effectively as a single-use article in large numbers and can be handled as conventional dressing material to avoid infections at puncture sites. In this respect, the monitoring of patient access requires no additional measures.

The device according to the invention for detecting liquid preferably has means for attaching the absorbent material to the patient. Preferably, the fastening means are designed as means by which the absorbent material can be adhered to the skin of the patient. For example, conventional patches or the like can be used for this purpose. Preferably, however, the device according to the invention has an adhesive strip or the like which is attached to the side of the absorbent material with which the device according to the invention is placed on the skin of the patient at the puncture site.

In an alternative embodiment, the pad has an annular or U-shaped shape, so that the puncture site is partially or completely edged by the pedestrian, but not obscured and thus remains visible. It may additionally be provided a sterile transparent cover to cover the visible puncture site. In the embodiment of a U-shaped pad, in each case one magneto-elastic moisture sensor may be present in one or both legs. An annular ped may be interrupted at one point by a narrow slit, so that the pedicle can be placed around the puncture site even after the puncture has already been performed. An annular ped may be equipped with one or more sensors.

The device according to the invention for detecting fluid is intended for a device for monitoring a patient access, in particular arterial and / or venous vascular access in an extracorporeal blood treatment device. The device for monitoring the vascular access, with which the device for detecting fluid interacts, has a measuring unit for measuring the resonance frequency of the magneto-elastic sensor and an evaluation unit for comparing the measured resonance frequency with a predetermined reference value. In the event that the difference between the measured resonance frequency and the predetermined reference value is greater than a predetermined limit value, the evaluation unit generates a control and / or alarm signal, which signals a faulty patient access.

The device according to the invention for monitoring arterial and / or venous vascular access can form a separate assembly. However, the device according to the invention is preferably part of the extracorporeal blood treatment device.

When the vascular access monitoring device according to the invention is part of the extracorporeal blood treatment device, the monitoring device can make use of the components that are already present in the blood treatment device. These include in particular the central control and processing unit of the blood treatment device, which has, for example, a microprocessor.

A preferred embodiment of the invention provides that in the generation of a control and / or alarm signal, the blood treatment is interrupted and / or an alarm is given. To interrupt the blood treatment, it is preferable to stop the blood pump provided in the blood treatment device for delivering blood through the extracorporeal blood circulation. In addition, the obturator is preferably closed, which is also arranged in the blood treatment device in extracorporeal blood circulation. For example, the arterial and / or venous clamps of the extracorporeal blood circulation can be closed.

For determining the resonance frequency of the magneto-elastic sensor, various devices and methods are known in the prior art. In this regard, reference is made in particular to the article "Wireless Magnetoelastic Resonance Sensors: A Critical Review" from Sensors 2002, 2, 294-313, ISSN 1424-8220. In a preferred embodiment of the invention, an alternating magnetic field is generated by means of an exciter coil at the puncture site, wherein the response of the magneto-elastic sensor is received on the alternating magnetic field with a detector coil. Since the signal transmission for evaluation is wireless, lines can be omitted, which would be provided within the absorbent material. Thereby, the manufacture of the unit consisting of the magneto-elastic moisture sensor and the absorbent material, which may be formed as ped or the like, is substantially simplified.

In the following an embodiment of the invention will be explained in more detail with reference to the drawings.

Show it:

1 shows the essential components of a hemodialysis apparatus together with the device according to the invention for monitoring patient access in a highly simplified schematic representation,

2 shows a section through the device according to the invention for detecting fluid for the device according to the invention for monitoring patient access,

3 is a view of the device according to the invention for detecting liquid from below,

Fig. 4 shows the essential components of the device according to the invention for monitoring the patient access and

5 shows the device according to the invention for detecting liquid located on a puncture site. Fig. 1 shows the essential components of a hemodialysis apparatus, which has a device for monitoring the venous and / or arterial Gefaßzugangs. The hemodialysis apparatus has a dialyzer 1, which is subdivided by a semipermeable membrane 2 into a blood chamber 3 and a dialysis fluid chamber 4. To an artery of the patient, an arterial tubing 6 is connected by means of an arterial puncture cannula 5, which leads to the inlet of the blood chamber 3 of the dialyzer. From the outlet of the blood chamber 3 of the dialyzer, a venous tubing 7, which is connected by means of a venous puncture cannula 8 to a vein of the patient. The arterial tube 6 is inserted into an occluding blood pump 9, which promotes the blood in extracorporeal blood circulation I.

The dialysis fluid circuit II of the hemodialysis apparatus comprises a dialysis fluid source 10, to which a dialysis fluid supply line 11 is connected, which leads to the inlet of the dialysis fluid chamber 4 of the dialyzer. From the outlet of the dialysis fluid chamber 4 of the dialyzer 1, a dialysis fluid discharge line 12 departs, which leads to an outlet 13. In the dialysis fluid removal 12 a dialysis fluid pump 14 is connected.

The control of the dialysis device takes over a central control unit 15 which controls the blood and Dialysierflüssigkeitspumpe 9, 14 via control lines 16, 17. The central control unit 15 is connected via a data line 18 to an alarm unit 19, which gives an optical and / or audible alarm in the event of a malfunction.

Downstream of the blood chamber 3 of the dialyzer is located on the venous tubing 7, an electromagnetically actuated venous hose clamp 20 which is closed by a further control line 21 from the central control unit 15, if a faulty Gefaßzugang is detected, for example, after complete dislodgement of the cannula from the vessel or a partial dislocation of the cannula, which leads to blood leakage. An electro-magnetically actuated arterial tube clamp 40 which is closed by a further control line 41 from the central control unit 15 when a faulty Gefaßzugang is detected is located upstream of the blood chamber 3 of the dialyzer on the arterial tube 6.

To monitor Gefaßzugangs a device 22 is provided, which will be described in detail below. The device 22 for monitoring the vascular access may be part of the blood treatment device or form a separate assembly. In the present exemplary embodiment, the monitoring device 22 is part of the dialysis apparatus insofar as the monitoring device makes use of various components which are present in the dialysis apparatus anyway, for example parts of the central control unit 15 (microprocessor) or the alarm unit 19.

The device 22 for monitoring the vascular access has a device 23 for the detection of fluid, which is placed on the puncture site. Hereinafter, the liquid detection device 23 will be described in detail with reference to FIGS. 2 and 3.

The liquid detection device 23 comprises a magneto-elastic humidity sensor 24 which is formed as a flexible flat strip.

Since a magneto-elastic humidity sensor as such belongs to the prior art, the humidity sensor will not be described in detail. Such a humidity sensor is described, for example, in the article "Wireless Magnetoelastic Resonance Sensors: A Critical Review" of Sensors 2002, 2, 294-313, ISSN 1424-8220, which is expressly incorporated by reference for purposes of disclosure.

The magneto-elastic moisture sensor 24 is completely embedded in an absorbent material 25. The absorbent material 25 consists of a substantially rectangular upper layer 25 A and a substantially rectangular lower layer 25 B of the same dimensions. Between the upper and lower layers 25A, 25B, which form a unit, the humidity sensor 24 is completely enclosed. The figures Figures 2 and 3 show a section through the absorbent material with the moisture sensor and a bottom view of the absorbent material with the sensor.

At the bottom, the absorbent material is provided with a circumferential adhesive strip 26, with which the absorbent material with the moisture sensor, which is also referred to as Päd hereinafter, is adhered to the skin of the patient at the puncture site. Although the adhesive strip 26 should adhere firmly to the skin of the patient, but can be easily removed. It can also be provided several adhesive strips instead of a circumferential adhesive strip.

The pedestrian is an article intended for single use, which can be provided in a film package 26 sterile packaged.

Fig. 4 shows the essential components of the device for monitoring the vascular access. The device for monitoring the vascular access 22 has a measuring unit 27 for measuring the resonance frequency of the magneto-elastic moisture sensor 24, which is embedded in the sterile absorbent material 25.

The frequency / fundamental of the magneto-elastic sensor in the form of a cuboid strip of length L is:

It is the modulus of elasticity, ps the density and σ the Poisson's number (transverse contraction number) of the strip material. An additional mass occupation Δm of the sensor can be described by a change in the density ps and leads approximately to the following frequency change.

Δ / -fo - 2Irm _s - (2) The measuring unit 27 for detecting the frequency change has an exciter coil 28 and a detector coil 29 and a function generator 30, a lock-in amplifier

31 and an evaluation unit 32. About electrical connection lines 33 and 34 and 35 and 36, which are shown only schematically in Figure 4, the function generator 30 with the exciter coil 28, the lock-in amplifier 31 with the detector coil 29 and the evaluation unit 32nd on the one hand connected to the function generator 30 and on the other hand with the lock-in amplifier. The evaluation unit 32 may be a conventional computer (microprocessor), which may also be part of the central control unit 15 of the dialysis machine.

The function generator 30 generates an AC voltage having a constant amplitude and frequency, whereby the exciting coil generates an alternating magnetic field which penetrates the humidity sensor 24. The detector coil 29 measures the response of the humidity sensor to the alternating magnetic field. The frequency of the AC voltage generated by the function generator is now changed, whereby the response of the humidity sensor with the excitation coil and the lock-in amplifier is measured and amplified. While the frequency of the AC signal is changed, the evaluation unit 32 determines the frequency at which the amplitude of the signal detected by the detector coil 29 is largest. This frequency corresponds to the resonance frequency of the humidity sensor 24.

The measured resonance frequency of the humidity sensor 24 is in the evaluation unit

32 compared with a predetermined reference value. If the amount of the difference between the measured resonance frequency and the predetermined reference value is greater than a predetermined limit, the evaluation unit 32 generates a control and / or alarm signal. The reference value can be calculated in known manner from the given sensor data according to equation (1). However, manufacturing-related fluctuations in the sensor properties are not taken into account. It may therefore be useful to measure the reference value by means of a test measurement, eg when commissioning the sensor, and to store the measured value as a reference value. The detection of blood at the puncture site is based on the fact that the wetting of the magneto-elastic moisture sensor 24 with moisture (liquid), the resonance frequency of the magneto-elastic moisture sensor 24 changes. The resonance frequency decreases with increasing humidity. When blood exits at the puncture site, the difference between the measured resonance frequency and the predetermined reference value becomes greater than a predetermined threshold. In this case, the predetermined reference value for the resonance frequency is a value that is assumed when the humidity sensor is dry or exposed to only low humidity.

Since the moisture sensor is embedded in the absorbent material, the effect of changing the frequency due to the change in humidity is greatly enhanced, so that the signal evaluation is even easier and safer.

FIG. 5 shows the area of the puncture site 37 at which the skin 38 of the patient has been punctured by a puncture cannula 39. On the puncture site 37, the pedestal 23 is placed so that the puncture site is covered sterile. In this case, the peder 23 adheres to the skin of the patient by means of the adhesive strip 26. After the blood treatment, the pedicle is withdrawn and the cannula is withdrawn from the vessel.

The evaluation unit 32 of the device 22 for monitoring the Gefaßzugangs is connected via a line 36 to the central control unit 15 of the dialysis machine. If the monitor detects a faulty vascular access, i. detects the leakage of blood at the puncture site, the central control unit 15 of the dialysis device receives the control and / or alarm signal of the monitoring device. Then, the control unit 15 closes the electro-magnetically actuable obturator 20 in the venous tubing 7 and stops the blood pump 9 in the arterial tubing 6 at. Thus, the extracorporeal blood treatment is interrupted, so that a further free flow of blood from the venous needle is not possible.

1 shows an exemplary embodiment in which the monitoring device 22, which is shown only by way of an indication, is connected via a venous and an arterial device 23, 23 'to the Detection of blood has been provided to monitor both venous and arterial vascular access.

Due to the dependence of the resonance frequency on the viscosity of the liquid, a distinction can be made between different liquids, for example, between emerging at the puncture site blood or a moisture increase due to sweat. By deliberately setting the limit value, therefore, a false alarm can be excluded.

In a preferred embodiment, the moisture sensor 24 is coated. It may be provided a coating that reacts with blood, so that change the properties of the blood. Preferably, a coating is provided which coagulates the blood. The coating may contain an enzyme that coagulates blood. However, an acid or a base may also be included in the coating containing blood proteins, e.g. Albumin denatured.

For a further reliable distinction between a blood outlet and a moisture increase, which is not due to a blood leakage, in a further preferred embodiment, in the absorbent material 25 of the pad 23, two or more than two magneto-elastic moisture sensors are embedded in their electrical properties, in particular the dependence of the resonance frequency of the moisture, different.

For example, two magneto-elastic sensors with different surface roughness may be provided to determine the density and viscosity of the liquid from the difference between the respective resonance frequencies of the two sensors for distinguishing between different events.

In a preferred embodiment, the excitation coil 28 and the detector coil 29 is integrated in a dialysis table or in a dialysis chair. Instead of separate coils 28 and 30 but may also be provided a combined exciter and detector coil, which may be integrated in the couch or the chair. In a dialysis table are the Exciter coil 28 and the detector coil 29 or the combined excitation and detector coil preferably integrated in the lying surface of the dialysis table. In a dialysis chair, the exciter coil and the detector coil or the combined exciter and detector coil are preferably integrated in the armrest.

In a further embodiment, the function of the exciter coil and the detector coil is realized with only one coil, which fulfills the function of both coils.

The electrical connection between excitation coil 28 and detector coil 29 on the one hand and the blood treatment machine on the other hand can be done by cable. However, it is also possible to use a wireless connection, e.g. to provide a radio link between the coils on the one hand and the blood treatment machine on the other. Preferably, the unit of exciter coil and detector coil has its own power supply, e.g. a battery, so that electrical lines to a power supply can be omitted.

Claims

claims

1. A device for detecting fluid for a device for monitoring access to a patient, wherein fluid is supplied to a patient via a tubing and / or discharged from the patient, in particular for monitoring the arterial and / or venous access vessel in an extracorporeal blood treatment device, with the blood of a patient via a venous tubing, which has a venous puncture cannula, supplied to the patient and discharged from the patient via an arterial tubing, which has an arterial puncture cannula, characterized in that

the liquid detection device is configured as a magneto-elastic moisture sensor (24) embedded in an absorbent material (25).

2. Apparatus according to claim 1, characterized in that the device for detecting fluid means (26) for attachment of the absorbent material to the patient.

3. Apparatus according to claim 1 or 2, characterized in that the fastening means (26) are designed as means by which the absorbent material (25) in which the magneto-elastic moisture sensor is embedded, adhered to the skin of the patient is fastened ,

4. A device for monitoring access to a patient, in particular for monitoring the arterial and / or venous access vessel in an extracorporeal blood treatment device, in which the blood of a patient via a venous tubing, which has a venous puncture cannula, supplied to the patient and via an arterial tubing , having an arterial puncture cannula, is discharged from the patient, with a device according to one of claims 1 to 3, characterized in that the Device has a measuring unit (27) for measuring the resonance frequency of the magneto-elastic moisture sensor (24) and an evaluation unit (32) for comparing the measured resonance frequency with a predetermined reference value, wherein the evaluation unit (32) generates a control and / or alarm signal, which signals faulty patient access if the magnitude of the difference between the measured resonant frequency and the predetermined reference value is greater than a predetermined threshold.

5. The device according to claim 4, characterized in that the measuring unit (27) for measuring the resonance frequency has an excitation coil (28) for generating an alternating magnetic field and a detector coil (29) for detecting an alternating magnetic field.

A blood treatment device with an extracorporeal blood circuit, which has an arterial tubing (6) with an arterial puncture cannula (5) and a venous tubing (7) with a venous puncture cannula (8), and with a device (22) for monitoring the arterial and or venous vascular access according to claim 4 or 5.

7. Blood treatment device according to claim 6, characterized in that the blood treatment device has a control unit (15) which interacts with the device (22) for monitoring the vascular access such that when the control and / or alarm signal is generated the blood treatment is interrupted and / or or an alarm is given.

8. A blood treatment device according to claim 7, characterized in that the blood treatment device comprises a blood pump (9) for delivering blood through the extracorporeal blood circuit (I), wherein the control unit (15) of the blood treatment device with the device (22) for monitoring the Gefaßzugangs cooperates, that the blood pump (9) is stopped when the evaluation unit (32) generates the control or alarm signal.

9. A blood treatment device according to claim 7, characterized in that the blood treatment device in a extracorporeal blood circulation (I) arranged obturator (20), wherein the control unit (15) of the blood treatment device cooperates with the device (22) for monitoring the vascular access, that the Shut-off (20) is closed when the evaluation unit (32) generates the control or alarm signal.

10. A blood treatment device according to claim 7, characterized in that the blood treatment device comprises an alarm unit (19) which gives an audible and / or visual alarm, wherein the control unit (15) of the blood treatment device cooperates with the device (22) for monitoring the vascular access in that the alarm unit (19) issues an alarm when the evaluation unit (32) generates the control or alarm signal.

11. Use of at least one magnetoelastic moisture sensor embedded in an absorbent material for detecting blood at a puncture site of a patient, in particular for monitoring the arterial and / or venous vascular access in an extracorporeal blood treatment device, in the blood of a patient via a venous tubing which is a venous Having puncture cannula supplied to the patient and discharged via an arterial tubing, which has an arterial puncture cannula, from the patient.

12. A method for monitoring access to a patient, wherein fluid is supplied to a patient via a tubing or discharged from the patient, characterized in that

a magnetoelastic sensor embedded in absorbent material is placed on the puncture site,

the resonance frequency of the magneto-elastic humidity sensor is determined, and is closed on the basis of the change of the resonance frequency to a faulty vascular access, wherein upon detection of a faulty Gefaßzugangs an alarm given and / or the removal and / or the supply of liquid is interrupted.

The method of claim 12 for monitoring arterial and / or venous access in an extracorporeal blood treatment device, wherein a patient's blood is delivered to the patient via a venous tubing having a venous puncture cannula and via an arterial tubing having an arterial puncture cannula , is discharged from the patient, characterized in that the determination of a faulty vascular access interrupted the blood treatment and / or an alarm is given.

14. The method according to claim 13, characterized in that stopped for interrupting the blood treatment arranged in the extracorporeal blood circulation blood pump and / or arranged in the extracorporeal blood circulation shut-off is closed.

15. The method according to any one of claims 12 to 14, characterized in that for determining the resonance frequency of the magneto-elastic sensor with an excitation coil at the puncture site generates an alternating magnetic field and receive the response of the magneto-elastic sensor to the alternating magnetic field with a detector coil becomes.