DE202006012071U1 - Device for the optical examination of a biological tissue - Google Patents

Abstract

Apparatus for the optical examination or analysis of a biological tissue (2) by the application of infrared, visible or ultraviolet light, in which the examined material is optically excited so that it emits light (fluorescence analysis) or changes the wavelength of the incident light (Raman analysis), the device comprising:
A light source (3) which can be operated with electrical energy,
An optical light guide (4) with which the light emitted by the light source (3) can be supplied as radiation to the biological tissue (2) to be examined,
An optical or optoelectronic sensor device (5) which is assigned to the biological tissue (2) to be examined and which detects the radiation emitted by the biological tissue (2),
- One of the sensor device (5) associated with optical or optoelectronic spectrometer means (6), with which the light emitted from the material under examination (2) or changed in wavelength light with respect to the intensity of the light at at least one frequency or the frequency shift is measured, wherein a corresponding Measuring signal to an evaluation circuit ...

Description

The The invention relates to a device for optical examination or analysis of a biological tissue, in particular human or animal body tissue by the application of infrared, visible or ultraviolet light, in which the investigated material is so optically excited that It emits light (fluorescence analysis) or the wavelength of the light striking light changes (Raman analysis), according to the preamble of claim 1.

in the State of the art are fluorescence spectrometers for optical examination the fluorescence properties of biological tissue samples known. Proteins in the biological tissue are intrinsic to various species fluorescent, for example, porphyrin, aromatic amino acids such as Tryptophan, tyrosine, phenylalanine and the like. adversely in the known investigation is that the biological Tissue samples taken from the subject and for optical examination in a cuvette or on a sample carrier must be attached. The previous examination procedures take place in the laboratory and are not suitable for immediate, rapid examinations of the subject on site or in immediate work or leisure environment of the subject. Moreover the methods used so far are invasive, i. H. with a Engaged in the body portion.

Of the Invention is based on the object, a generic device for the optical examination of biological tissue with regard to To provide substances of cellular metabolism, with which a simple, i. The subject himself performs an immediate, rapid examination ensured by the subject can be made on the spot or in the immediate working or working environment Recreational environment of the subject.

The The object is achieved by the device specified in claim 1.

The inventive device has a light source operable with electrical energy, a optical light guide, with which the light emitted by the light source as radiation the human or animal biological to be examined Tissue feedable is a human or animal biological tissue to be examined associated optical or optoelectronic sensor device, which detects the radiation emitted by the biological tissue, a the sensor device associated with optical or optoelectronic Spectrometer device, with which of the examined material emitted or wavelength-changed light in terms of intensity of the light at at least one frequency or the frequency shift is measured, with a corresponding measurement signal to an evaluation circuit is output, and is characterized in that the light exit section the optical light guide and the sensor device form a structural unit, and this structural unit on its top or outside a measuring surface section having in shape and extent to be examined adapted to human or animal biological tissue.

With The invention achieves a non-invasive optical examination of the biological tissue of a subject; it does not need any biological tissue samples taken or introduced in measuring probes or the like or be clamped. Characterized in that the light exit section of the optical lighting and the sensor device form a structural unit, and this structural unit on its top or outside a measuring surface section having in shape and extent to be examined adapted to human or animal biological tissue, The optical examination of biological tissue can be easy take place in that the measuring surface section to a suitable Place on the skin surface of the subject touching the skin or not touching is brought and at this point for the duration of the measurement process from usually held for a few seconds. With the invention succeeds an easy to perform, i.e. by the subject himself, immediate, rapid examination, on site or in the immediate working or recreational environment of the subject.

Following the principle of the invention, the optical examination is performed on an unclothed or easily exposed body portion of the skin surface of the subject's hand, arm, foot, leg or face or neck and upper shoulder region. According to the invention, therefore, the surface of the measuring surface portion is approximately convexly curved and formed substantially the contours of such a body part, for example, the slightly clenched hand, following. Advantageously, the light source, the optical light guide, the sensor device, and the spectrometer are housed in a housing, and on or in the top of the housing a measuring surface portion comprehensive or at least partially correlated bearing surface portion is formed or provided on which a to corresponding human or animal biological tissue corresponding body part of the subject, in particular a hand, a forearm or a foot or a leg, is placed, wherein the support surface portion on or in the top of the Ge Housing formed guide means for aligning the ablated on the support surface portion body part of the subject can be provided.

at a further preferred embodiment of Invention is the surface of the measuring surface section strongly convex curved and formed substantially following the contours of a clenched hand following. In this case, the Messflächenab section as part of the surface a handlebar or steering wheel, or a steering wheel, or a joystick, or other steering or control equipment of a land, water or air or spacecraft be formed. The advantage of this training in particular, is the handlebar of a vehicle; e.g. Truck driver, skipper or pilots who have a special responsibility with regard to Vigilance and concentration comes while exercising his activity medically or biologically examine in case of a disorder, for example Onset of fatigue at the driver, appropriate countermeasures to meet. With the invention succeeds the installation of a fuse of the Driver against falling asleep in the vehicle, thus causing such accidents can be avoided.

The inventive device works in such a way that by laying on or applying the human or animal biological tissue on the sensor device several capable of fluorescence Substances in the tissue fluid excited by a light pulse emitted by the light source, and these substances in response to this now even light components of a certain wavelength emit, with this fluorescent light analyzed computerized and the fluorescence values of these analyzed parameters in relation to each other be calculated. From the optical examination or analysis of the human or animal biological tissue can then several different metabolic parameters are determined, wherein these specific metabolic parameters are cell division activity and / or the metabolic activity and / or the activity of biosyntheses and / or the regulation of immune functions and / or the inflammatory processes and / or energy expenditure and / or energy consumption for cell division activity and / or regulated and unregulated cell regeneration and / or inflammatory regulated cell regeneration processes and / or the risk parameters damage to health and / or the risk parameter of activated tissue regeneration and / or the complex metabolic characteristics and / or the redox equivalent and / or the mental stability parameter exhibit.

advantageous Further development of the invention are specified in the subclaims.

Further Advantages and expediencies result from the following description of exemplary embodiments based on the drawing. It shows:

1 a schematic view of a device according to the invention according to a first embodiment;

2 an isometric view of the first embodiment;

3 a sectional view of the first embodiment;

4 an overall view of the first embodiment;

5 an overall view of the first embodiment with an attached hand; and

6 an overall view of a second embodiment.

In the figures are embodiments of Invention, wherein like reference numerals are the same Designate components.

The figures show a device 1 for the optical examination or analysis of a human or animal biological tissue 2 by the application of infrared, visible or ultraviolet light, at which the material studied 2 is optically excited that it emits light (fluorescence analysis) or changes the wavelength of the incident light (Raman analysis). The device 1 has a light source operable with electrical energy 3 , an optical light guide 4 with which the of the light source 3 emitted light as radiation to be examined human or animal biological tissue 2 can be supplied, a to be examined human or animal biological tissue 2 associated optical or optoelectronic sensor device 5 , which detects the radiation emitted by the biological tissue, one of the sensor means 5 associated optical or opto-electronic spectrometer 6 with which the material emitted from the material or changed in its wavelength, via an optical waveguide 15 decoupled light is measured with respect to the intensity of the light at at least one frequency or the frequency shift, wherein a corresponding measurement signal via a USB cable 7 is output to an (not shown) evaluation circuit of an external computer. According to the invention form the light exit section 8th the optical light guide 4 and the sensor device 5 a structural unit 9 ; this structural unit 9 points to its top 10 or outside a measuring surfaces section 11 the shape and extent of the human or animal biological tissue to be examined 2 is adjusted.

In the in the 1 to 5 The first embodiment of the invention shown is the surface of the measuring surface section 11 approximately convexly curved and formed substantially following the contours of a slightly clenched hand following. Here are the light source 3 , the optical light guide 4 , the sensor device 5 , and the spectrometer device 6 in a housing 12 housed, and on or in the top of the housing 12 is a measuring surface section 11 comprehensive or at least partially correlated bearing surface section 13 designed or provided on which a human or animal biological tissue to be examined 2 corresponding body part of the subject, in particular a hand is placed, wherein the support surface portion 13 one on or in the top of the housing 12 trained leadership institution 14 for aligning the on the support surface section 13 is provided to be deposited body part of the subject. The management device 14 is in the illustrated embodiment by a on or in the top of the housing 12 provided, formed approximately middle finger wide recess.

At the in 6 illustrated second embodiment of the invention is the surface of the measuring surface section 11 strongly convex curved and formed substantially following the contours of a clenched hand following. In this embodiment, the measuring surface portion 11 as part of the surface of a car steering wheel 16 , or a steering wheel, or a joystick, or other steering or control device of a land, water or aircraft or spacecraft to be formed. The steering wheel 16 at the same time forms the housing 12 the device according to the invention 1 ,

Claims (10)

Device for the optical examination or analysis of a biological tissue ( 2 by the application of infrared, visible or ultraviolet light in which the examined material is optically excited to emit light (fluorescence analysis) or to change the wavelength of the incident light (Raman analysis), the device comprising: - an electrical energy operable one Light source ( 3 ), - an optical light guide ( 4 ), with which the of the light source ( 3 ) emitted light as radiation to the biological tissue to be examined ( 2 ), - a biological tissue to be examined ( 2 ) associated optical or optoelectronic sensor device ( 5 ), that of the biological tissue ( 2 ) emitted radiation detected, - one of the sensor device ( 5 ) associated optical or optoelectronic spectrometer ( 6 ), with which the material examined ( 2 ) Emitted light or changed with respect to the intensity of light at at least one frequency or frequency shift is measured in its wavelength, wherein a corresponding measurement signal is output to an evaluation circuit, characterized in that the light exit portion ( 8th ) of the optical light guide ( 4 ) and the sensor device ( 5 ) a structural unit ( 9 ), and this structural unit ( 9 ) on its upper side or outer side a measuring surface section ( 11 ), which in shape and extent to the biological tissue to be examined ( 2 ) is adjusted. Apparatus according to claim 1, characterized in that the surface of the measuring surface section ( 11 ) approximately convexly curved and substantially the contours of a slightly clenched hand ( 2 ) is formed following. Apparatus according to claim 1 or 2, characterized in that the light source ( 3 ), the optical light guide ( 4 ), the sensor device ( 5 ), and the spectrometer device ( 6 ) in a housing ( 12 ) are housed, and on or in the top of the housing a measuring surface portion ( 11 ) comprehensive or at least partially correlated bearing surface section ( 13 ) is provided on which a biological tissue to be examined ( 2 ) corresponding body part of the subject, in particular a hand, a forearm or a foot or a leg, is placed, wherein the support surface portion ( 13 ) one on or in the top of the housing ( 12 ) trained management organization ( 14 ) for aligning the on the support surface section ( 12 ) to be deposited body part of the subject is provided. Apparatus according to claim 1, characterized in that the surface of the measuring surface section ( 11 ) is strongly convexly curved and formed substantially following the contours of a clenched hand ( 6 ). Apparatus according to claim 4, characterized in that the measuring surface section ( 11 ) as part of the surface of a handlebar or steering wheel ( 16 ), or a steering wheel, or a joystick, or other steering or control device of a land, water or aircraft or spacecraft is formed. Apparatus according to claim 3, characterized in that the guide device ( 14 ) through one on or in the top of the housing ( 12 ) provided, approximately Mittelelfingerbreite depression ( 14 ) or thickening is formed. Device according to one of the preceding claims, characterized in that as light source ( 3 ) is provided at least one light emitting diode or a laser or a mercury vapor lamp, and the light source radiation in the wavelength range from 150 nm to 1100 nm, preferably from 300 nm to 700 nm, outputs. Device according to one of the preceding claims, characterized in that that of the light source ( 3 ) emitted radiation to a luminous intensity of more than 10,000 μcd to 20,000 μcd is regulated. Device according to one of the preceding claims, characterized characterized in that from the optical examination or analysis of biological tissue several different metabolic parameters be determined, with these specific metabolic parameters the cell division activity and / or metabolic activity and / or the activity of biosyntheses and / or the regulation of immune functions and / or the inflammatory processes and / or the energy expenditure and / or the energy consumption for the cell division activity and / or the regulated and unregulated cell neoplasm and / or the inflammatory regulated cell regeneration processes and / or the risk parameters damage to health and / or the risk parameter of activated tissue regeneration and / or the complex metabolic characteristics and / or the redox equivalent and / or the mental stability parameter exhibit. Device according to one of the preceding claims, characterized in that by laying on or applying the biological tissue ( 2 ) on the sensor device ( 5 ) several substances capable of fluorescence in the tissue fluid through one of the light source ( 3 ), and in response to this, these substances now themselves emit light components of a specific wavelength, whereby this fluorescent light is analyzed by computer and the fluorescence values of these analyzed parameters are calculated in relation to one another.