DE3619442A1 - Blood analysis device - Google Patents

Abstract

Published without abstract.

Description

There are blood analyzers known, the changes in a laser beam when penetrating parts of the body z. B. the earlobe, evaluate and z. B. determine the glucose content of the blood. After penetrating the tissue, the beam from a laser light source ( 1 ) reaches a receptor ( 2 ) which electronically analyzes the information.

These measurements have the disadvantage that the structures of the epidermis vary greatly depending on age and body type and therefore the Influence measured values. Also the intensity of the blood flow and the The temperature of such parts of the body has an influence on the measurements.

According to the invention, it is proposed to measure the measurement at an easily accessible location, on an organ of the body that is normally inside the body, namely on the tongue, with a special tongue probe ( 3 ), which has two contact surfaces ( 4 ) for the upper side of the tongue and the underside of the tongue is equipped, one surface of the laser light source ( 1 ) and the other surface being assigned to the receptor ( 2 ).

The adaptability of the tongue allows a very simple and advantageous shaping of the tongue probe ( 3 ) and the contact surfaces ( 4 ), which can be designed as rigid surfaces. In order to satisfy even extremely different deviations in tongue thickness, e.g. B. in children's tongues and heavily built adults, one or event. even both of the contact surfaces ( 4 ) can be designed to be resilient. In no case, however, it is necessary to use the usual pliers shape, such as z. B. is required for measurements on the earlobe and brings many design disadvantages to maintain.

The tongue adapts to the contact surfaces ( 4 ) and this ensures a constant thickness of the irradiated tissue. This gives greater accuracy of the measured values. The otherwise necessary temperature correction of the probe is also unnecessary, since the tongue is known to present an exact body temperature. As is well known, body temperature is usually measured in the mouth with a thermometer.

The arrangement of the beam path of the laser light source ( 1 ) and of the receptor ( 2 ) can also be solved more easily and precisely in the case of a tongue probe ( 3 ) because the laser beam cannot be deflected. The laser beam can be guided in a straight line from the light source ( 1 ) to the receptor ( 2 ). The other spatial restrictions that need to be taken into account, such as accessibility of the earlobe etc., do not apply, since the tongue can easily be brought into the straight beam path.

What is important for the application of the invention is a hygienic and sterile design of the tongue probe ( 3 ), which according to the invention is achieved by means of a cover ( 5 ) of the laser light source ( 1 ) and the receptor ( 2 ) into which the patient inserts his tongue. A number of important tasks can also be solved with this cover.

It is proposed that such a cover be made as opaque as possible for visible light, so that annoying ambient light influencing the measured values is kept away from the receptor ( 2 ), but at the same time to maintain the permeability to the laser light or to influence it as little as possible. If possible, this property should be provided at least in a partial area of the cover.

Since the tongue probe ( 3 ) and thus the entire blood analyzer requires adjustment or calibration from time to time, the cover ( 5 ) should also be equipped with different permeability properties in some areas in order to determine corresponding calibration values, which, for. B. depending on the application of the cover ( 5 ) can be brought into the beam path as desired.

A desirable and advantageous embodiment of the cover ( 5 ) is that the cover ( 5 ), at least partially with a fragrance, e.g. B. with raspberry flavor and / or an indicator to show the state of the tongue surface is provided. The former can certainly at least weaken the children's aversion to such analysis measurements.

According to the invention, it is also recommended to form the cover ( 5 ) as a disposable part to be sterile for single use. This design eliminates all concerns that could conflict with the use of such a device during screening of many patients.

Another variant is the use of a foil tape ( 6 ) as a cover ( 5 ) of the tongue probe ( 3 ). Such a film strip ( 6 ) is expediently wound up in a hygienically and sterile cassette ( 7 ) and can be pulled out of it as required. The foil tape ( 6 ) can be delivered and stored in an absolutely sterile manner until it is used in a sealed bag.

According to the invention, the film strip ( 6 ) is pulled out of the cassette ( 7 ) by a transport device ( 8 ) which transports the film strip ( 6 ) further via the tongue probe ( 3 ) without manual contact. Another improvement is that the transport device ( 8 ) is coupled to a protective cover ( 9 ) of the tongue probe ( 3 ) and each time the protective cover ( 9 ) is closed and / or opened, the film strip ( 6 ) is transported further by a length which meets the hygienic requirements. This also prevents accidentally forgotten actuation of the transport device ( 8 ).

Fig. 1 shows an example of a tongue probe ( 3 ). The tongue ( 10 ) is inserted between the two contact surfaces ( 4 ). The laser light source ( 1 ) is in this case above the upper contact surface ( 4 ) and the receptor ( 2 ) below the lower contact surface ( 4 ). In Fig. 1 an inserted cover ( 5 ) is shown, which has the task of direct contact of the tongue ( 10 ) with the system surfaces ( 4 ) to avoid. The cover ( 5 ) can optionally be made very thin-walled, whereby it is supported on the contact surfaces ( 4 ), or, in the case of thicker-walled versions, it can support the tongue ( 10 ) instead of the contact surfaces ( 4 ).

Fig. 2 shows the much simplified and more precise arrangement of a tongue probe ( 3 ) according to the invention compared to the usual pliers designs with beam deflection by mirrors and prisms to z to the test object. B. to be able to approach the earlobe. The laser light source ( 1 ) is aligned in a straight line with the usually longer-length receptor ( 2 ). The result is a high degree of precision without the difficult and costly adjustment of mirrors.

On the possibility shown schematically, the upper part ( 20 ) resilient, for. B. on a guide pin ( 21 ) with spring ( 22 ), you will be able to do without in most cases.

Fig. 3 shows a schematic representation of a tongue probe ( 3 ) with a foil strip ( 6 ) as a cover ( 5 ). The film tape ( 6 ) is first wound up on the unwind spool ( 12 ) and is located in a cassette ( 7 ) so that it can be delivered sterile, sealed in a plastic bag. The packaging is only opened and the cassette inserted into the blood analyzer before use.

The beginning of the film tape is, for. B. as shown in Fig. 3, clamped in the reel ( 13 ). The transport device ( 8 ) is shown schematically and in this example coupled with a protective cover ( 9 ) which can be pushed over the tongue probe ( 3 ). Fig. 2 shows the protective cover ( 9 ) in the closed state, that is, it lies over the tongue probe ( 3 ). In contrast, Fig. 4 shows the same embodiment with the protective cover ( 9 ) open.

The transport mechanism ( 8 ) in this case consists of a reel spool ( 13 ) with a toothing ( 14 ) to which a counter toothing ( 15 ) in the protective cover ( 9 ) is assigned. A pawl ( 16 ) rotatably mounted in the pawl bearing ( 11 ) presses continuously under the tension of the spring ( 17 ) on the toothing ( 14 ) of the reel spool ( 13 ) and thus prevents the reel spool ( 13 ) from turning back.

At the same time, the spring ( 17 ) ensures that the reel spool ( 13 ) is always pressed against the counter teeth ( 15 ) in the protective cover ( 9 ) and thus remains in engagement. The bearing journal ( 19 ) of the reel spool ( 13 ) is mounted in a slot ( 18 ) so that when the protective cover ( 9 ) is closed, the toothing ( 14 ) can disengage from the counter toothing ( 15 ).

If the protective cover ( 9 ) is pushed from the position in FIG. 3 into the position in FIG. 4, ie opened, the foil strip ( 6 ) lies slightly tensioned over the tongue probe ( 3 ), since during the opening the counter-toothing ( 15 ) the reel spool ( 13 ) with their teeth ( 14 ) rotated according to the path of the protective cover ( 9 ) and thus the film strip ( 6 ) has continued to pull.

In this position, the exposed and clean foil tape ( 6 ) can be easily pressed with the tongue into the tongue probe ( 3 ) and the measurement can begin. The tensioned position of the film tape ( 6 ) is also a reliable indicator that the tape has not yet been used.

Of course, this version is only a simple diagram to understand a transport device. All are according to the invention known possibilities of an independent or coupled feed facility applicable.

A special version can still be described using the example of Fig. 2: The protective cover ( 9 ) can, for. B. only a small way, are moved to an intermediate position in which the tongue probe ( 3 ) is still covered, but the film strip ( 6 ) is already stretched, ie pulled out between the contact surfaces ( 4 ). Such a location is suitable for. B. for calibration or adjustment of the device.

The examples shown give clear instructions how the achievement of the object according to the invention can be achieved can. The schematic sketches are in no way restrictive but chosen only for a better understanding of the inventive concept.

Claims (14)

1. Blood analyzer for injury-free determination of blood parameters, in particular glucose, using a laser light source ( 1 ) and a receptor ( 2 ), characterized in that a tongue probe ( 3 ) with two opposing contact surfaces ( 4 ) for the The top of the tongue and the underside of the tongue are present and one surface is assigned to the laser light source ( 1 ) and the other surface is assigned to the receptor ( 2 ). 2. Blood analyzer according to claim 1, characterized in that the contact surfaces ( 4 ) are rigid. 3. Blood analyzer according to claim 1, characterized in that at least one of the contact surfaces ( 4 ) is resilient. 4. Blood analyzer according to claim 1, 2 or 3, characterized in that the laser beam is guided in a straight line from the laser light source ( 1 ) to the receptor ( 2 ) without deflection by mirrors or prisms. 5. Blood analyzer according to claim 1, 2, 3 or 4, characterized in that the tongue probe ( 3 ) is associated with a hygienically perfect cover ( 5 ). 6. Blood analyzer according to claim 5, characterized in that the cover ( 5 ), at least partially, is as opaque as possible for visible light, but is as permeable as possible for the laser light. 7. Blood analyzer according to claim 5, characterized in that the cover ( 5 ) has partially different permeability properties for the laser light. 8. Blood analyzer according to claim 5, characterized in that the cover ( 5 ), at least partially, with a fragrance, for. B. with raspberry flavor, and / or an indicator to indicate the condition of the tongue surface is provided. 9. Blood analyzer according to claim 5, 6, 7 or 8, characterized in that the cover ( 5 ) is formed as a disposable part to be sterile for single use, from. 10. Blood analyzer according to claim 5, 6, 7 or 8, characterized in that the cover ( 5 ) is designed as a film strip ( 6 ). 11. Blood analyzer according to claim 10, characterized in that the film strip ( 6 ) in a hygienically designed cassette ( 7 ) is wound up and can be pulled out as required. 12. Blood analyzer according to claim 10, characterized in that a transport device ( 8 ) is provided, which transports the film strip ( 6 ) as needed via the tongue probe ( 3 ). 13. Blood analyzer according to claim 12, characterized in that the transport device ( 8 ) with a protective cover ( 9 ) of the tongue probe ( 3 ) is coupled such that the foil strip ( 6 ) around each time the protective cover ( 9 ) is closed and / or opened a length is transported that meets the hygienic requirements. 14. Blood analyzer according to claim 13, characterized in that the transport device ( 8 ) has intermediate positions in which a calibration or adjustment of the blood analyzer is possible.