DE2920038A1 - SENSOR FOR TRANSCUTANE MEASUREMENT OF THE BLOOD OXYGEN CONCENTRATION - Google Patents

Description

■ - 3 - e sch: rub u ng

Sensor for transcutaneous measurement of the blood oxygen concentration

The invention relates to a sensor, which in a Instrument for transcutaneous measurement of the concentration or partial pressure of oxygen in arterial blood is used.

For breathing control of a baby or a seriously ill patient who is on artificial respiration It is of great importance that the concentration or partial pressure of oxygen in the blood, in particular, is of great importance to be determined in the arterial blood.

A method for the transcutaneous measurement of oxygen is known. Instead of a direct oxygen measurement with a collection of arterial blood, the oxygen diffused from the blood through the subcutaneous tissue is increased the skin so that the oxygen data are continuously measured.

The arrangement of a probe for this conventional method is shown in Figs. 1 (a) and 1 (b). Of the Sensor comprises a cylindrical cathode 1 made of gold or platinum, a cylindrical silver anode 3, which is spaced from the cathode by an insulator 2, an electrode holder 4 for holding the assembly or the cathode 1 and the anode 3 · An electrode membrane is arranged so that the electrodes 1 and 3 covered will. A cylindrical electrode membrane holder 6 holds the peripheral area of the electrode membrane 5 in place.

9098 477090A

A seal 7 is between the electrode membrane holder 6 and the electrode holder 4 ·, and an electrolyte 8 is in the form of a thin layer between the electrode membrane 5 and the end of the electrode assembly present. A heating section part 10 made of aluminum or copper with great thermal conductivity has a Heating 9 on.

The electrode membrane 5 consists of a water-repellent and oxygen-permeable plastic or synthetic resin. The electrolyte 8 essentially contains KCl.

When the probe thus formed is placed on the skin of a person to be examined, the subcutaneous tissue under the heating section part 10 is heated by the heater, with the result that the tissue is partially supplied with arterial blood. The oxygen present in the subcutaneous tissue diffuses through the skin surface and passes through the electrode membrane 5. The oxygen diffuses into the electrolyte 8 and reaches the cathode 1. If in this case a low voltage, eg 0.5-0.8 Y is applied When the electrodes are applied, an oxygen reduction reaction takes place at the cathode 1, while a silver oxidation reaction takes place at the anode 3.

As a result, an electrolytic current flows between the two electrodes. The measurement of this current indicates approximately the oxygen concentration in the subcutaneous tissue and thus in the arterial blood.

It is of great importance here to the oxygen permeability to make the electrode membrane resistant and thereby ensure a constant electrode reaction.

909847/0904

set a predetermined tension of the electrode membrane 5 to be provided so that the latter is not excessively stretched or sagging. For this purpose a Measure taken as described in the pending patent application with the title "Sensor for the transcutaneous measurement of the blood oxygen concentration." is revealed-.

The peripheral area of the slectrode membrane 5, as shown in Fig. 1 (b), fixed by an annular electrode membrane holder 6 from the outset held. The holder 6 with the electrode membrane 5 is fitted outside the end portion of the electrode assembly so that the end portion of the electrode assembly is extends downward from the plane of the electrode membrane 5 so that the electrode membrane 5 is in correspondence the formation of the end portion of the electrode assembly can extend.

However, the above-described one has conventional Sensor has a disadvantage in that when the electrode membrane holder 6 is inserted around the electrode arrangement, the electrode membrane is locally expanded will, if the insertion has not been done correctly. That is, the thickness of the membrane becomes non-uniform. Therefore, the oxygen permeability of the electrode membrane is locally changed and, as a result, becomes the measurement unstable or unstable.

It is accordingly an object of the invention to provide a To create a sensor for the transcutaneous measurement of blood oxygen, in which the aforementioned disadvantages, which occur with a conventional sensor can be excluded. .

90 9847/0 90

Another object of the invention is to To create a sensor for the transcutaneous measurement of blood oxygen, with which better, more stable measurements are possible are.

These and other objects of the invention are met a probe for measuring the blood oxygen concentration transcutaneously achieved, in which an electrode arrangement is provided with a cathode and anode insulated from one another is. An electrode membrane is held by a holding part and is arranged so that an electrolyte between the electrode membrane and the end portion of the electrode assembly is held. The end portion of the electrode protrudes from the holding surface of the electrode, thus transcutaneously the concentration or partial pressure of the oxygen can be measured in the blood. The electrode membrane is in accordance with the shape or configuration of the protruding end portion of the electrode assembly formed.

The invention is described using an exemplary embodiment with reference to the drawings. Show it:

Pig. 1 (a) and 1 (b) are vertical sectional views

along the central axis, with two conventional feelers for transcutaneous Measurements of blood oxygen concentration are shown,

Fig. 2 is a sectional view in which an electrode

membrane and an electrode membrane holder for a conventional probe., are shown prior to assembly, and

909847/0904

3 (a) and 3 (b) are sectional views of electrode membranes and an electrode membrane holder according to the invention.

In particular, the electrode brackets and the electrode fiecibi'aaen holders according to FIGS. 3 ( ³ O ^ 'i 3 (b) in the case of the sensors shown in Pig. 1 (a) and 1 (b).

The special feature of a sensor according to the invention consists, according to FIG. 3, in an electrode membrane 5 »which corresponds with the configuration or shape of the protruding end portion of the electrode assembly 1,3 of a conventional one Sensor is preformed. The electrode membrane 5 is preformed to such an extent that when the preformed electrode membrane 5 is attached in the feeler, they somewhat, however is not stretched or stretched too much.

The preformed electrode membrane 5 is fixed to the electrode membrane holder 6 by welding or gluing the peripheral area of the electrode membrane 5 to the holder. 6 attached. The assembly of holder 6 and membrane 5 is around the end section der.Elektrodenanordnung fitted in a known manner.

Referring to Fig. 2, a conventional diaphragm 5 is somewhat related stretched on the membrane holder. The lower surface is flat and stretched. If the electrode holder, the one protruding Has cathode section 1, is positioned, the membrane comes into contact with it and is further stretched, to take on the shape of the cathode and stay in close contact with it. However, a malfunction occurs because the contact pressure is not uniform. At the previous

9D9847 / G904

lying invention, however, as it is based on the J ¹ Ig. 3 (a) in relation to the embodiment according to Fig. 1 (a) and Fig. 3 (b) in relation to the embodiment in Fig. 1 (b), the membrane has an original shape that of the electrode arrangement is equivalent to. Due to this configuration, the membrane can maintain a substantially uniform thickness with respect to the electrodes, since the contact pressure is originally uniform. The expansion is also uniform, since the membrane does not first have to be tensioned in terms of shape in order to match the electrode arrangement.

Since the electrode membrane, as previously described, is preformed when the probe according to the invention is assembled, is the end portion of the electrode assembly, in particular the end of the cathode 1 in excellent close contact with the electrode membrane 5> and the electrode membrane 5 is not stretched excessively. That is, the thickness of the electrode membrane can be substantially be kept uniform. A uniform or constant oxygen permeability and a constant Electrode response can be obtained. This in turn leads to an accurate and consistent measurement of the concentration or the partial pressure of oxygen in the species blood.

In summary, the invention therefore provides a sensor for measuring the blood oxygen concentration transcutaneously created with an electrode arrangement .which one Has cathode and an anode isolated from this. An electrode membrane is held by a holding part and is arranged so that an electrolyte is between the electrode membrane and the end portion of the electrode assembly

909 8 4 7/0904

is held. The end portion of the electrode protrudes from the holding surface of the electrode to measure the concentration or partial pressure of oxygen in the blood. The electrode membrane is preformed in "accordance with the shape or configuration of the above Endab-3chnitt.es the electrode assembly.

90 9847/0 90 4

Blank page

Claims (3)

Claims Pühler for transcutaneous measurement of the blood oxygen concentration with an electrode arrangement which has a cathode and an anode which is insulated therefrom and with an electrode membrane, which is held by a holding part held and arranged so that an electrolyte between the electrode membrane and the end portion of the electrode assembly is held, wherein the end portion of the electrode assembly protrudes from a support surface, whereby the concentration or the partial pressure of oxygen in the blood can be measured transcutaneously, thereby ge k e η nz e i c h ne t that the electrode membrane (5) in accordance with the shape or design of the protruding End portion of the electrode assembly (1,2,3) formed is. 2. Sensor according to claim 1, characterized in that that the membrane with a flat area, which corresponds to the shape of the holding part, and with a recessed Area is formed to match the shape of the protruding End portion of the electrode assembly (1,2 ^ 3) corresponds. 9G9847 / 09CU TELEPHONE (OSS) 33 28 62 TELEX Ο5-29 38Ο TELEGRAMS MONAPTH TE2LEKOPIER 3. Fahler night claim 2, characterized in that the recessed area has sloping side walls having. 909847/0904