DE4446721A1 - Optoelectronic system for determn. of properties of living tissue - Google Patents

Abstract

The system comprises an optoelectronic measuring device (10) and an opaque fixture (20) surrounding a window (28) through which the examination can be carried out. The fixture incorporates one or more snap closure elements (26) whereby the measuring device can be secured reproducibly to the surface of the body. A surface (21) is provided on the fixture for bonding to a surrounding area of the body with moisture-permeable, moisture-absorbent or light-absorbent double-sided adhesive tape (22). The surface (11) of the measuring device is secured in position by transparent adhesive (12) with negligible lightguiding properties.

Description

The invention relates to a system for determining properties of tissue share a living organism, a device for attaching an optoelectro African measuring device on the surface of the fabric and a method for non-in vasive determination of properties of tissue parts.

Methods for determining properties of living organisms have been described in the majority of cases performed invasively. For example, Struk structures of tissues characterized by surgery. For the determination of Analytes in body fluids were removed from the tissue, e.g. B. the human body, a withdrawn a certain amount of body fluid, e.g. B. by taking blood from the veins. Such invasive procedures resulted, especially if the determinations were repeated had to be carried out in succession, to damage the tissue. For this For this reason, procedures have recently been developed with which even without removal of Body fluids or surgery properties of tissue parts of a living organism can be determined.

WO 94/10901 describes a method and a device for analyzing glucose in one biological matrix, which describes the multiple scattering of light in tissue exploits. This patent application describes that a measuring head with the help of a Adhesive tape is attached to a suitable location on the body. To keep out extraneous light ten, the measuring head has a skin contact part, the diameter of which is substantially larger than that of the measuring opening used. The ring consists of an opaque Material and closes with the skin.

US-A-5,226,417 describes a device with which a finger is irradiated can. For this purpose, the device has light-emitting diodes and photodectors are flexibly connected to each other so that they are on opposite sides of the finger can be arranged. The device also contains wings that are created when the Device on a finger to shield ambient light.  

In addition, the device described contains an adhesive tape for attaching the Light source and the photodetector on the skin. The purpose of using the glue is resistance to inadvertent removal of the device.

US-A-4,928,691 also describes a flexible device which takes a photo contains sensor and a light source, these elements on a flexible material are attached, which can be attached to different parts of the body. The Attachment is done with the help of an adhesive strip.

In US-A-5,267,563 a pulse oximeter is described, the sensors of which using a Adhesive plasters can be attached to the skin. The patch contains substances to stimulate the Blood flow. If the drug has penetrated the skin, the measurement carried out. The measuring device is then removed from the skin.

EP-A-0 573 137 also describes a pulse oximeter, its sensors on the skin with an adhesive strip that contains substances that stimulate blood circulation be attached. The photodetector is one for shielding from ambient light Surround wall that reaches through the adhesive to the skin. Like the one above mentioned devices, this is intended for single use.

In US-A-4,685,464 is an element for mounting a sensor for non-invasive Measurement of blood components described, which is suitable for picking up a finger.

EP-A-0 572 684 describes a sensor for monitoring signs of life, in particular the Oxygen saturation, described, to be attached to various areas of the skin can. For this purpose, the system described contains a transmitter element and a receiver element, which are designed for multiple use. The system also includes a Housing for housing the above-mentioned elements and connectors for fastening of the above items.

In the devices and methods described in the above-mentioned prior art Positioning accuracy is not important as the application in pulse oximetry only depends on the pulse signal, not on the location.  

US-A-4,798,955 describes an aid for using a non-invasive measuring device for described several people. It describes a flexible band, which is about the Upper arm of the person is placed. This band has an element that is indi vidual adjustment of the band and thus a measuring window on the respective person suitable is. However, it has been shown that the reproducibility of the individual Measurement results are also unsatisfactory with this.

The object of the present invention was to fully overcome the disadvantages of the prior art to be eliminated permanently or at least partially.

In particular, it was an object of the invention to determine tissue properties to provide a suitable system, which is also suitable for long-term use suitable is.

This object is achieved in that a measuring device is positioned precisely on the upper surface of the tissue is fixed.

The invention therefore relates to a system for determining properties of Containing tissue parts of a living organism

• - an optoelectronic measuring device ( 10 ),
• - A device ( 20 ) which is opaque to light, and which surrounds a measuring window ( 28 ) through which the determination can be made, and wherein the device at least one component ( 26 ) for reproducible, on a first upper surface of the tissue directed, fixation of the measuring device ( 10 ).

In addition, objects of the invention are a device for attaching an opto electronic measuring device on the surface of a tissue of a living organ mus as well as a method for determining properties of tissue parts of a life the organism.

The object of the present invention is in particular for non-invasive loading mood suitable. According to the invention, Ver drive understood, in the course of which no foreign materials through the surface penetrate the tissue. The objects according to the invention are particularly suitable for long-term use without impairing well-being.  

The system according to the invention contains an optoelectronic measuring device in which the actual measuring processes take place. In principle, each can in the system according to the invention State of the art optoelectronic measuring device can be used if their outer shape is matched to the fastening device according to the invention. The he requirements for this will be described later. Measuring devices for the determination ver various properties are described. This includes, for example, the determination structural properties, e.g. B. the internal structure of the fabric, but also the own shafts in terms of content, e.g. B. the presence and concentration of certain substances in the living organism. Devices are particularly preferred as the measuring device for measuring analytes in blood, very particularly preferably glucose. With tissue sharing is particularly about compartments of the organism, which are internal half a centimeter, especially within about 2 cm, measured from the surface of the living organism. This also includes blood vessels. A particularly preferred one optoelectronic measuring device is the device described in WO 94/10901.

In the following, the surface of the fabric that rests on a first surface ( 11 ) of the measuring device ( 10 ) is referred to as the first surface. A surface of the fabric that is laterally adjacent to this is referred to as the second surface, to which a (second) surface ( 21 ) of the fastening device ( 20 ) directed towards the fabric can be attached.

The optoelectronic measuring device preferably has a flat first surface ( 11 ) which can be directed onto the first surface of the tissue. The first surface can be flat, but can also be adapted to the anatomy of the respective surface (e.g. body curvatures). This surface ( 11 ) contains at least one light transmitter and at least one light receiver, which are arranged such that the light emitted by the light transmitter and scattered in the tissue can be detected in the light receiver. The invention relates in particular to measuring arrangements in which the detection location is at the same interface as the irradiation location (ie measurement in reflection as opposed to measurement in transmission, in which the irradiation location and detection location are on opposite interfaces of the tissue).

An essential part of the system according to the invention is a fastening device ( 20 ) with which the measuring device ( 10 ) is fixed on a surface of the fabric and from which it can also be released without being destroyed. For the reliable fixing of the measuring device, the fastening device has components which are adapted in shape to components of the measuring device. In the sense of the invention, all pairs of components are suitable which allow reproducible removal and attachment of the sample with high positioning accuracy. Reproducible is understood to mean that the measuring device can be removed and attached several times in succession without the light receiver and light transmitter being directed at different areas of the measuring window. Examples of such components are bayonet locks, screw locks with stops or snap-in locks or clamp locks and in principle all types of flange systems (including those based on pressure). However, components which do not require a rotary movement are particularly preferred. It has been shown that by rotating the measuring device a displacement of skin, which rests on the flat surface of the measuring device, is effected, and this entrainment of the skin reduces the reproducibility of the attachment of the measuring device with regard to the tissue. Be particularly preferred are therefore components that allow a perpendicular insertion of the measuring device into the fastening device in the direction of the surface of the skin. Components that also include an optical or acoustic control for correct fixing are particularly preferred. As a rule, the so-called snap locks are suitable for this. For this, two or more snap locks are usually used, one of which is also used as a guide, e.g. B. a fulcrum or hinge can be formed. It has proven to be particularly advantageous to use snap locks which can be opened by light, lateral pressure on the component on the direction of the measuring device on the direction of the measuring device.

According to the invention, the fastening device preferably contains a soft and a firm one Material.

The fastener-side component is preferably on the solid material of the Fastening device attached. It is particularly preferably made of one material formed, which survives many opening and closing operations without sacrificing functionality. It can, but need not, be made of the same material as the rest of the attachment contraption. It can be a hook, for example. The measuring device sided component is preferably spring-loaded. For example, it can be a hook act, which engages pressed by the spring in the fastening-side hook. On Because of the design according to the invention, the measuring device can only be used in a predetermined manner and clear orientation can be fixed in the fastening device.  

The soft and the solid material surround the measuring window through which the non-in vasive determination can be made. In a preferred embodiment the fastening device therefore consists of an inner, substantially annular and in Compared to the extension on the surface of the fabric relatively narrow solid construction part, and a relatively wide outer edge made of the soft material, built up. This results in an essentially ring-shaped fastening device, with an inner and outer diameter, which is designed on its inner part so that the optoelectronic measuring device easily and reproducibly in the inner ring attach or detach from this ring and robust (especially when moving body gen) is fixed. The inner ring is preferably made of a hard plastic, e.g. B. made of Delrin®. The outer wide edge is made of a soft material, e.g. B. in Be pull on the softness of silicone-like materials, particularly preferably one thermoplastics such as polyurethane so that it conforms to the shape of the second upper can adjust the area of the fabric.

The inner and outer material of the fastening device are connected to one another in such a way that during normal use, i.e. H. during the wearing period of the measuring device tion in the fastening device and when attaching and detaching the measuring device tion cannot separate and twist. The solid material is preferred so worked into the soft material that it is only possible at the points of the fastening supply device can be seen that can come into contact with the measuring device. In particular, the soft material covers essentially the entire surface of the Fastening device used to fasten the fastening device on the Ge web surface is intended.

In addition to its fastening function, the fastening device also serves for ab shielding the first surface of the fabric from unwanted ambient light. Out for this reason, the materials from which the device is constructed are light and un permeable, especially for light, which ver. for the determination of the properties is applied. This can be done, for example, by pigmenting the materials Fabrics that absorb light.

A point in the fastening device is designated as the measuring window through which the first surface of the organism is irradiated with light from the measuring device, and through the scattered light from the tissue can fall onto the measuring device. The essential The condition is therefore that the measuring window is transparent to incident and scattered light  is. In a particularly simple and therefore preferred embodiment, there is Measuring window in an opening in the material of the fastening device so that the plane Surface of the measuring device come into direct contact with the surface of the tissue can if the measuring device is fixed in the fastening device.

It is also possible to provide a plurality of measurement windows lying next to one another, e.g. B. one each Measuring window for every light transmitter and every light receiver.

The fastening of the fastening device with its surface ( 21 ) on the second surface of the fabric is preferably accomplished by a first adhesive. It has proven to be particularly advantageous to use a double-sided adhesive tape. Such tapes are known. For example, the double-sided polyester adhesive tape from Adhesives Research (order no. AR 8254) based on acrylic adhesive is suitable.

Adhesive tapes that fix the fastening device on are particularly suitable the tissue, e.g. B. the human skin over a period of several, preferred Allow at least 3 days. For this purpose, the adhesive is preferably moisture-absorbent. This is because it normally forms on the skin during the wearing times mentioned Moisture (e.g. sweat) that remains on the skin if there is insufficient drainage can cause skin irritation. In another embodiment, the adhesive can also moisture permeable properties, e.g. B. sweat-absorbing properties, be to sit. For this purpose, it is useful that the soft part of the fastening device also is permeable to moisture. This is feasible e.g. B. by using perforated materials. It should not contain any allergy-causing substances.

It is also preferred that the adhesive used after the entire wearing time lighter from the surface of the fabric than from the plane used for fixation Can loosen the surface of the fastening device. This is exemplary in the above given adhesive.

The adhesive, which is used to attach the fastening device to the fabric upper surface should also have light-absorbing properties. It has it turns out that it must be avoided that ambient light on the to Fastening device falls directly adjacent skin areas. The light incident there can after entering the tissue and radiating through the skin, interference signals at the light receivers  cause. It is particularly preferred that the outside diameter of the adhesive tape is slightly larger than the diameter of the fastening device.

In a special embodiment, the system according to the invention contains another (second) glue, e.g. B. in the form of a double-sided adhesive tape on the flat upper surface of the measuring device is attached. This adhesive provides after the Measuring device in the fastening device the actual interface between the Surface and the measuring device. Since both that emitted by the measuring device as well as the light scattered from the tissue must pass through this adhesive, the material must have the highest possible transmission for the wavelengths used have areas of light. It should be as transparent as possible. It also has turned out to be extremely useful if the adhesive has no light guide properties points. This means that the adhesive should be selected so that if possible none or there is very little uncontrolled reflection on the inner surfaces of the adhesive. The adhesive is selected so that the least possible loss of light when passing through the Light takes place.

In addition, however, it has also proven to be particularly advantageous for another reason to firmly connect the first surface of the measuring device to the first surface of the fabric. What is important is an intimate contact between the surfaces. The adhesive ( 12 ) ensures that a uniform distance between the tissue compartments and the measuring device is maintained. In addition, the horizontal displacement of the tissue surface Ver relative to the measuring device, for. B. in movements, largely reduced. The use of an adhesive also has the advantage that the surface of the fabric remains flat. Different distances between the skin and the measuring device, such as those that can occur with goosebumps, who avoided this. The above-mentioned complications in the non-invasive determination of properties on a living organism have apparently been avoided so far that some of the measuring devices used have been pressed against the surface with increased pressure. Applying pressure to fabric, however, may have some fabric properties, e.g. B. blood circulation, change, which is why the known devices were not suitable for long-term use. The fact that the device according to the Invention makes no use of pressure when using adhesives (except when the device is attached) makes long-term use for the organism possible.

It is also preferred for this adhesive ( 12 ) that it has moisture-absorbing properties which have the least possible influence on the optical properties. This allows the measuring device to be worn for 4 hours or more without interruption.

The adhesive force of the second adhesive ( 12 ) should be significantly lower than that of the first adhesive ( 22 ). While the first adhesive has to exert practically all the force to fix the system to the tissue, the fastening properties of the second adhesive are in the background. He should only apply enough adhesive force that the good contact between the tissue and the measuring device is maintained and the avoidance of the displacement of the surface against the measuring arrangement is ensured. In addition, a lower adhesive force is preferred in comparison to the first adhesive, since then a removal of the measuring device from the fastening device and the surface of the web is possible without the fastening device being detached from the surface. Suitable adhesives are, for example, acrylic adhesives. As an example, clear polyurethane adhesive tape from Adhesives Research (order no. AR 8133) based on acrylic adhesive with water-absorbing and water-vapor-permeable properties can be used. It is therefore further preferred that the second adhesive detaches better from the skin than from the surface of the measuring device.

An advantage of the present invention is the ability to position the measuring device precisely to fix relative to the surface of the fabric. This includes both accuracy in to understand vertical direction as well as in the horizontal direction. The accuracy can achieve better than ± 0.2 mm, preferably ± 0.1 mm. Can also improve Position accuracy with respect to an axis of rotation perpendicular to the surface who realized the. The positional accuracy is of particular importance since it was found that the Reproducibility due to the inhomogeneity of tissues through an accurate and repro ducbare positioning of the measuring device is significantly improved. Because of that, he is considerably fewer recalibrations of the measuring device required.

In addition, according to the invention, it is possible to effectively prevent light to ensure the case between the fastening device and the measuring device without the Removability of the measuring device suffers.  

In a preferred embodiment, the outer one is not directed towards the tissue Shape of the system designed so that as few corners and edges as possible. A flat design is therefore particularly preferred.

The measuring device does not have to contain all the components required for carrying out the determination. It is even preferred that some larger components (e.g. for evaluating the measurements) are accommodated in devices which are connected to the measuring device ( 10 ) (e.g. via a supply label ( 17 )).

The invention also relates to the device for fastening an optoelectronic measuring device to the surface of a tissue of a living organism containing a shaped body ( 20 ) which surrounds a measuring window ( 28 ) and the at least one component ( 26 ) for reproducibly fixing the measuring device having.

The fastening device according to the invention preferably has a flat upper surface surface an adhesive for attaching the device to the surface of the fabric on. The adhesive preferably has light-absorbing and / or water vapor permeable properties create. The soft and the solid material preferably have light-absorbing properties create. In addition, the soft material also preferably has moisture absorbing and / or moisture permeable properties. More preferred Aus guides are described above for the system according to the invention.

Another object of the invention is a method for, preferably non-invasive, Determination of properties of tissue parts of a living organism by

• a) attaching a device ( 20 ) which is impermeable to light and which surrounds a measuring window ( 28 ) and which has at least one component ( 26 ) for reproducibly fixing a measuring device ( 10 ) on a surface of the fabric,
• b) fixing the measuring device ( 10 ) in the device ( 20 ) so that the device ( 10 ) is directed through the measuring window ( 28 ) onto a surface of the tissue,
• c) irradiation of the tissue with light from the measuring device,
• d) detection of light scattered in the tissue of the measuring device to obtain a Measured value,  
• e) repetition of steps c) and d) for a period of at least 4 hours.

Preferred embodiments result from the use of the system according to the invention.

This method is made possible by the fact that the measuring device is very accurate over longer periods Time can be applied at one point to the surface of the fabric. By inventing Skin irritation is avoided in accordance with the intended use of the adhesive.

The fact that the fastening device when removing the measuring device on the Surface of the tissue can remain, it is possible to use the measuring arrangement, e.g. B. after a process that may impair the measuring device (e.g. Shower) to reposition on the exact same spot on the surface.

For this purpose, it is preferred that the measuring device so from the (first) surface of the Ge webes is solved that the (second) adhesive when removing the measuring device from the Fastening device remains on the measuring device. Then the glue can also be removed from the measuring device and, when reattached, a new adhesive strips are attached to its surface. As in the case of double-sided adhesive tapes, the surface of the measuring device is used for transport or storage direction, which is intended for attachment to the fabric surface, by a slightly ent protected removable cover tape, which is removed shortly before attaching the device becomes.

The fastening device preferably remains for a continuous period of several, preferably at least 3 days on the surface of the fabric. If on closing a determination interval should be provided again, a new Be fastening device can be attached in the same place. So that the measurement again at the essentially identical location of the tissue, the position of the can removing device are marked on the tissue surface, e.g. B. on the edge of Measuring window. When attaching the new fastening device can on this Mark be referenced.

If the measuring device is not fastened in the fastening device, the acquisition ( 29 ) of the fastening device can be closed by a replacement component (dummy) which essentially reflects the external shape of the measuring device. As a result, the measuring window, the receptacle and the first surface of the tissue can be protected from damaging influences (contamination, etc.) during the time that the measuring device is not being worn.

The figures show preferred embodiments for the fastening device or the measuring device shown.

In Fig. 1A and 1B, a system is shown, wherein the fixing of the measuring device is brought in the fastening device by means of a snap fastener and an opposite guide support.

In Fig. 1A, the system is shown in cross section in a state in which the Meßvor direction already engages with a recess in a guide of the fastening device, but the snap lock on the opposite side is not yet snapped.

The fastening device is shown in a top view in FIG. 1B.

In Fig. 2 an embodiment is shown in which the fixation of the measuring device in the fastening device is ensured by a circular outer edge which engages under a tab attached to the measuring device and snaps into a recess with a perfect fit. The drawing contained in the circle shows the details of the component ( 26 ).

Reference list

1 system
10 measuring device
11 first surface of 10
12 glue on the first surface of 10
13 light transmitters
14 light receivers
15 snap-lock part of the measuring device (component)
16 push button with spring
17 supply cable to the evaluation unit
20 fastening device
21 (second) surface of 20
22 glue on the second surface of 20
23 soft material
24 solid material
25 recess for pressing button 16
26 snap fastener part of the fastening device (component)
27 nose, guide
28 measurement window
29 holder for the measuring device

Claims (23)

1. System for determining properties of tissue parts of a living organism containing

• - an optoelectronic measuring device ( 10 ),
• - A device ( 20 ) which is opaque to light and which surrounds a measuring window ( 28 ) through which the determination can be made and wherein the device has at least one component ( 26 ) for reproducible, directed towards a first surface of the tissue, Has fixation of the measuring device ( 10 ).

2. System according to claim 1, characterized in that the device ( 20 ) has a surface ( 21 ) which has an adhesive ( 22 ) for fastening the device ( 20 ) on a second surface of the fabric adjacent to the first surface of the fabric . 3. System according to claim 2, characterized in that the adhesive moisture is permeable. 4. System according to claim 2, characterized in that the adhesive moisture has receptive properties. 5. System according to claim 2, characterized in that the adhesive absorbs light possessing properties. 6. System according to claim 1, characterized in that the materials of the Vorrich device ( 20 ) surround the measurement window in a ring. 7. System according to claim 2, characterized in that the adhesive is in the form of a has double-sided tape. 8. System according to claim 1, characterized in that it further contains an adhesive ( 12 ) with which a surface ( 11 ) of the measuring device can be fixed to the first surface of the fabric. 9. System according to claim 8, characterized in that the adhesive ( 12 ) for light, which is used in the determination, is transparent. 10. System according to one of claims 8 or 9, characterized in that the adhesive ( 12 ) has little or no light guide properties. 11. System according to any one of claims 8, 9 or 10, characterized in that the adhesive ( 12 ) has moisture-absorbing properties. 12. System according to claim 1, characterized in that the determination is not is invasive. 13. System according to claim 1, characterized in that the device contains a soft and a solid material, wherein the component or the components ( 26 ) are on the solid material. 14. System according to claim 1, characterized in that the surface ( 11 ) is flat. 15. Device for fastening an optoelectronic measuring device to the upper surface of a tissue of a living organism containing a shaped body which surrounds a measuring window ( 28 ) and has at least one component ( 26 ) for reproducible fixing of the measuring device. 16. The apparatus according to claim 15, characterized in that it has on an upper surface ( 21 ) an adhesive ( 22 ) for fastening the device to the surface of the fabric. 17. The apparatus according to claim 16, characterized in that the adhesive ( 22 ) has light-absorbing and / or moisture-permeable and / or moisture-absorbing properties. 18. The apparatus according to claim 16, characterized in that it is soft and contains a solid material with light-absorbing properties. 19. The apparatus according to claim 15, characterized in that it has an acquisition ( 29 ) which is closed by a replacement component of the measuring device. 20. Method for determining properties of tissue parts of a living organism by

• a) attaching a device ( 20 ) which is opaque to light and which surrounds a measuring window ( 28 ) and which has at least one component ( 26 ) for the reproducible fixation of a measuring device ( 10 ) on a first surface of the tissue,
• b) fixing the measuring device ( 10 ) in the device ( 20 ) so that the device ( 10 ) is directed through the measuring window ( 28 ) onto a first surface of the tissue,
• c) irradiation of the tissue with light by the measuring device,
• d) detection of light scattered in the tissue by the measuring device to obtain a measured value,
• e) repetition of steps c) and d) for a period of at least 4 hours.

21. A method, characterized according to claim 20, that the Meßvorrich device (10) of single or multiple implementation of steps c) and d) from the fastening device (20) removed, is the device (20) remains on the first surface and then the measuring device ( 10 ) is fixed again in the fastening device ( 20 ). 22. The method according to claim 21, characterized in that the measuring device on its surface ( 11 ) has an adhesive ( 12 ), the device when removing the Meßvorrich ( 10 ) from the fastening device ( 20 ) on the measuring device ( 10 ). 23. The method according to claim 22, characterized in that the adhesive ( 12 ) is removed from the surface ( 11 ) after removal of the measuring device ( 10 ).