WO2008119311A1 - Device for acquisition and transmission of electrical impulses - Google Patents

Abstract

The invention relates to a device for the acquisition and transmission of electrical impulses from the body surface of a patient to a device that processes the electrical impulses, comprising a multilayer flat band (1) having a connection (2) on an edge for connecting to the device that processes the electrical impulses, and having at least one first and second non-conducting layer (4, 5) made of a foamed or textile material, wherein at least three adjacently located conductive strips (11) are provided between the first and the second non-conductive layers (4, 5), the first and second non-conductive layers (4,5) being connected to each other such that the at least three conductive strips (11) are insulated from each other, and that perforations (13) are provided between the insulated conductive strips (11) and each individual conductive strip (11) can be moved between the first and second non-conductive layers (4,5) and at least one opening is provided in the region of each conductive strip (11) so that contact can be made with the skin surface.

Description

 Dräger Medical AG & Co. KG, 23542 Lubeck, DE

description

Device for detecting and transmitting electrical pulses

The invention relates to a device for detecting and transmitting electrical pulses from the body surface of a patient to an electrical impulse processing device, in particular to an electrocardiograph. For comparative measurements of different patients, it is necessary to arrange the discharge positions of the electrical impulses at precisely defined anatomical positions of the patients.

From US 6,891, 379 B2, a device of the type mentioned is known, comprising a first, having an outer sheath cable. A plurality of coaxial cables are disposed within the sheath around the first cable. With this arrangement of cables, the device is rigid and inflexible. The patient can not be stored in any position without restrictions. In addition, the discharge positions of the electrical impulses from the body surface of the patient in this arrangement of cables are fixed, which proves to be disadvantageous in the detection of electrical impulses for different sized patients.

DE 198 09 930 A1 discloses a device for the long-term acquisition of body data with a strap made of soft, flexible material. The belt connects a plurality of electrodes for releasable attachment to multiple locations of the body surface of a patient. An adaptation to the size of the patients is not given.

In DE 697 32 343 T2, the adaptation to the size of the patient with a device of the type mentioned, comprising a conductive, thin and flexible Film realized. The film has various sets of three electrodes spaced apart from each other. The electrodes are selected according to the size of the patient. However, there are only three different, defined positions available for deriving the electrical impulses per lead-off position. In addition, a repositioning of individual electrodes is not possible.

From WO 99 / 23943A1 a device of the type mentioned is known, are fixed in the electrodes in their geometric position together with an electronic circuit by a glued patch in the chest area.

In US Pat. No. 5,191,886, an adaptation to the size of the patient is described with a device of the type mentioned, comprising a layer of electrodes, an expansion zone between the electrodes and a layer of material which causes the expansion zones to retain any shape impressed upon them.

The object underlying the invention is therefore to optimize a device for detecting and transmitting electrical pulses from the body surface of a patient in terms of handling.

This object is achieved according to the invention with the features of patent claim 1.

Advantageous embodiments of the invention and further developments are specified in the subclaims.

A significant advantage of the invention compared to the prior art is the flexible adaptation of the device to different sized patients. For this purpose, perforations may be provided between the insulated tracks, so that the tracks can be separated from each other and positioned according to the required Ableitungspositionen on the body surface of the patient. The perforations may preferably be formed as elongated holes between the insulated conductor tracks. This allows a simple separation of the tracks without damaging the insulation.

Another advantage of the device according to the invention results from the ability to store patients on the device and thus to allow a longer residence time in this position. The patients can be supplied with the device according to the invention storage independent.

The device according to the invention is designed in a preferred embodiment such that the first and second non-conductive layer consists of polyester, preferably of PE foam. This allows the realization of a high wearing comfort of the device according to the invention for the patient, since the material can be made very soft by foaming. Furthermore, the dielectric constant of the device can be adjusted by material selection and structure of the material. The device can be designed so that a required dielectric strength of at least 5 kilovolts is maintained. This is especially necessary with simultaneous use of defibrillators on the patient.

In a further preferred embodiment, in each case a third and fourth conductive layer may be provided, which surround the first and second non-conductive layer. Thus, the derived from the body surface of a patient and transmitted via the tracks of the device electrical pulses are shielded against external disturbances, in particular electromagnetic interference in an advantageous manner. To achieve optimal shielding, the third and fourth conductive layers may be advantageously connected at at least one position.

Preferably, the band of the device according to the invention can have a multiplicity of folds provided at right angles to the conductor tracks, which allow an arrangement of the band in the form of an accordion. The device may be available to the user in a folded state so that the user can pull the tape apart according to the size of the patient.

Embodiments of the invention are described in Figures 1 to 3.

Showing:

Fig. 1 is a simplified representation of the invention

contraption

Fig. 2 shows a detail "B" of Fig. 1 in a schematic

Sectional view and on a larger scale and

Fig. 3 shows a detail "A" of Fig. 1 schematically and on a larger scale.

In Fig. 1, the inventive device for detecting and transmitting electrical pulses from the body surface of a patient, for example, to an electrocardiograph (not shown) is shown. The device comprises a multilayer flat band 1 with a connection terminal 2. The connection terminal 2 is provided to transmit the electrical impulses directly or via an adapter to the electrocardiograph. In a further embodiment, the connection terminal 2 can be embodied as a transmitter for the wireless transmission of the electrical impulses. Preferably, the connection terminal 2 has an RFID transponder 3, on which characteristic values of the device are stored, so that an automatic identification of the device on the electrocardiograph can take place. However, characteristic values of the patients in the RFID transponder 3 can also be stored, which permits an unambiguous assignment of the electrical impulses to, for example, data previously stored in the electrocardiograph. The multilayer flat strip 1 can preferably be designed in the region of the connection terminal 1 with at least one filter circuit for selective filtering of the electrical impulses. In addition, a signal preprocessing for the preparation of the electrical impulses and / or a Evaluation unit to be provided for the evaluation of the electrical pulses. The band 1 is made with a first and second non-conductive layer 4, 5 made of polyester, preferably PE foam. The first and second non-conductive layer 4, 5 may also consist of polypropylene or polyurethane. Between the first and second non-conductive layer 4, 5 three interconnects 11 are arranged side by side. The first and second non-conductive layers 4, 5 are connected to one another such that the three interconnects 11 are arranged insulated from one another and each individual interconnect 11 is movable between the first and second non-conductive layers 4, 5. The conductor tracks 11 are fixed to the connection terminal 2. In the band 1 in each case an opening in the region of each conductor 11 is provided, so that a contact of each conductor 11 can be made with the skin of the patient. The conductor tracks 11 are each designed in the region of the opening over a large area in the form of an electrode 12. In a further embodiment, the conductor tracks can have a connection possibility, each with a separate electrode. In a further, not shown embodiment, the conductor tracks 11 may be embodied on the connection terminal 2 as a coil or a coil may be connected to at least one conductor track. In addition, two conductor tracks may be designed as a capacitor, wherein preferably a conductor track for shielding the device according to the invention is provided. The capacitor may be connected to a coil and form a resonant circuit. In one embodiment, not shown, a barcode may be integrated in the first and / or second nonconductive layer 4, 5, preferably in the region of the connection terminal 2. This allows a clear identification of the device and facilitates in particular the logistics. In Fig. 2. The structure of the multilayer flat belt 1 is shown. Around the first and second non-conductive layer 4, 5, a third and fourth conductive layer 7, 8 is provided, which preferably consist of a network of conductive threads. The conductive threads may be designed with a colored marking and thus facilitate an assignment of the individual electrodes 12 of the respective interconnects 11 to the discharge positions of the electrical impulses from the body surface of the patient. With the third and fourth l _. Eitfähige layer 7, 8 are advantageously derived from the body surface of a patient and transmitted via the tracks of the device electrical pulses against external interference, in particular electromagnetic interference shielded. The third and the fourth layer 7, 8 can be connected to each other in an advantageous manner at least one position in order to achieve an optimization of the shielding. The outer surfaces of the band 1 are, as shown in Fig. 2, formed by a fifth and sixth non-conductive layer 7, 8. Adhesive elements for adhering the electrodes 12 to the skin surface of a patient are provided on the outer fifth and sixth non-conductive layers 7, 8 of the band 1 in the region of the electrodes 12. In Fig. 3 are. Perforations 13 shown between the insulated tracks 11, which are intended to partially separate the interconnects 11 and to be able to position according to the required discharge positions on the body surface of the patient. Preferably, the perforations 13 are designed as elongated holes between the insulated conductor tracks 11. Thus, a separation of the conductor tracks 11 without damaging the insulation and thus a repositioning of the electrodes 12 is made possible. In an embodiment not shown, the band 1 has a multiplicity of folds provided at right angles to the strip conductors 11. These folds allow an arrangement of the band 1 in the form of an accordion. The device according to the invention can be made available to the user in a folded state. The user can pull the device according to the invention apart according to the size of the patient, and thus attach the electrodes 12 to precisely defined anatomical positions on the body surface of the patient.

LIST OF REFERENCE NUMBERS

1 ... band

2 ... connection connection 3 ... RFID transponder

4 ... first non-conductive layer

5 ... second non-conductive layer

7 ... third conductive layer

8 ... fourth conductive layer 9 ... fifth non-conductive layer

10 ... sixth non-conductive layer

11 ... trace

12 ... electrode

13 ... perforations

Claims

claims

1 . Apparatus for detecting and transmitting electrical pulses from the body surface of a patient to an electrical pulse processing device comprising:

a multilayer flat strip (1) having at one edge a connection terminal (2) for connection to the device which processes the electrical impulses,

with at least one first and second non-conductive layer (4, 5) of a foamed or textile material,

- Wherein between the first and second non-conductive layer (4, 5) at least three side by side arranged conductor tracks (1 1) are provided,

- Wherein the first and second non-conductive layer (4, 5) are interconnected such that the at least three conductor tracks (1 1) are arranged insulated from each other, that perforations (13) between the insulated conductor tracks (1 1) are provided and each individual conductor track (1 1) between the first and second non-conductive layer (4, 5) is movable and - in the band (1) at least one opening in the region of each conductor track

(1 1) is provided so that contact with the skin surface can be produced.

2. Apparatus according to claim 1, characterized in that the perforations (13) are formed as slots.

3. Device according to one of the preceding claims, characterized in that the first and the second non-conductive layer (4, 5) consists of polyester.

4. Apparatus according to claim 3, characterized in that the first and the second non-conductive layer (4, 5) consists of PE foam.

5. The device according to claim 3, characterized in that the first and the second non-conductive layer (4, 5) consists of synthetic faux fur.

6. Device according to one of the preceding claims, characterized in that the conductor tracks (11) consist of aluminum.

7. Device according to one of claims 1 to 5, characterized in that the conductor tracks (11) consist of copper.

8. Device according to one of claims 1 to 5, characterized in that the conductor tracks (11) consist of conductive plastic or metallized PA.

9. Device according to one of the preceding claims, characterized in that the conductor tracks (11) are formed at the point of contact with the skin of the patient as electrodes (12).

10. Device according to one of the preceding claims, characterized in that a conductive third layer (7) is provided.

11. The device according to claim 10, characterized in that a conductive fourth layer (8) is provided, wherein each of the third and fourth conductive layer (7, 8) surrounds the first and second non-conductive layer (4, 5).

12. The device according to claim 11, characterized in that the third and fourth conductive layer (7, 8) consists of a network of conductive threads.

13. The device according to claim 12, characterized in that the conductive threads at least in a portion of the respective third and fourth conductive layer (7, 8) have a colored mark.

14. Device according to one of the preceding claims, characterized in that the conductor tracks (11) are fixed to the connection terminal (2).

15. Device according to one of the preceding claims, characterized in that the connection terminal (2) is designed as a transmitter for the wireless transmission of electrical pulses.

16. The device according to claim 15, characterized in that the connection terminal (2) preferably has an RFID transponder (3).

17. The device according to claim 16, characterized in that at least one conductor track (11) in the region of the connection terminal (2) is designed as a coil.

18. Device according to one of the preceding claims, characterized in that in the region of the electrodes (12) adhesive elements are provided for adhering to the skin surface of a patient.

19. Device according to one of the preceding claims, characterized in that the band (1) has a plurality of folds, wherein the folds are aligned at an angle of 60 ° to 120 ° to the conductor tracks (11).

20. The apparatus according to claim 19, characterized in that the angle over the length of the band (1) varies.

21. Use of a device according to one of the preceding claims for the transmission of electrical pulses from the body surface of a patient to an electrocardiograph for the preparation of an electrocardiogram, an EIT device or an anesthesia monitoring device of the bispectral index.