WO2003077756A1 - Physiological method for defining the state of biological tissue (variants) and diagnostic system for carrying out said method - Google Patents

Abstract

The invention relates to medicine and medical instrumentation, namely to a method for optical diagnosis of physiological and pathophysiological state of biological tissues, and also to medical diagnostic equipment for carrying out said method. Said equipment is used for noninvasive (non-destructive, life-time) control and monitoring of the clinical state of human tissues. Said invention is based on methods for receiving information by irradiating the studied part of a tissue with the aid of sources of laser or narrow-band light-emitting diode radiation which have different wave length, power, polarisation and other physical parameters of a beam lighting the tissue. Said methods are followed by a frequency-spectral and/or amplitude-spectral analysis of the parameters of secondary radiation coming up from the tissue (reflected, scattering, induced, excited, background and other radiation).

Description

 SPECIAL SECURITY SYSTEM BILOGICAL ΤΚΑΗ AND (OPTIONS) AND DIGITAL SYSTEM FOR ΕГΟ ΡΕΑЛИСΑЦИЯ

5

Izοbρeτenie οτnοsiτsya οblasτi medicine and κ meditsinsκοgο πρibοροsτροeniya and imennο κ sποsοbu οπτichesκοy diagnοsτiκi φiziοlοgichesκοgο and πaτοφiziοlοgichesκοgο sοsτοyaniya biοlοgichesκiχ τκaney and τaκzhe κ ρealizuyuschey eτοτ sποsοb meditsinsκοy diagnοsτichesκοy w aππaρaτuρe, πρednaznachennοy for neinvazivnοgο (neρazρushayuschegο, πρizhiznennοgο) κοnτροlya and mοniτορinga κlinichesκοgο sοsτοyaniya τκaney chelοveκa. The invention is based on the methods of obtaining information by irradiating the following sources of laser radiation or a long exposure to light sources of long-term exposure to radiation

15 mοschnοsτyu, and ποlyaρizatsiey dρugimi φizichesκimi πaρameτρami beam οsveschayuschegο τκan and ποsleduyuschim chasτοτnο sπeκτρalnym-and / or-amπliτudnο sπeκτρalnym analizοm πaρameτροv vyshedshegο of τκani vτορichnοgο radiation (οτρazhennοgο, ρasseyannοgο, navedennοgο, vοzbuzhdennοgο, and φοnοvοgο τ.π.).

20 The general physical and biomedical principles and devices for such diagnostics are known:

The methods and devices for fluorescent non-invasive medical diagnosis of malignant neoplasms in Kazakhstan have been known (TI 2012243 C1 15.01.1994 and 08.07 567).

25 There is a known method and equipment for the non-invasive installation of an inexpensive compound (non-invasive method) that is used for non-invasive use.

The methods and devices for opto-plethism-related diagnostics of heart disease parameters (systemic and diastolic) are known. 2 waves) κροονο conversion to the ананяχχ and ορанаχχ (δυ 1655463 Α1, Κ.υ 5912 Ш 16.02.98 and others.);

The method and equipment for the determination of the speed of the cylinder with the use of the effect of the switch are known, as well as the method of evaluation

5 states of biology on the basis of (υδ 4596254 06.24.1986, Κυ 2140199 C1 10.27.1999 and others.);

The means and devices for biological contact with the livelihoods of the known biological plants are known (δυ 1545346 Α1 06/18/1984; ue 148191985 Α 19.11. However, the list of known methods and devices has a number of significant disadvantages. Thus, the described devices for fluorescence diagnostics do not take into account the possibility of introducing a significant error in the measurements due to the emitted emitting light

15 and registered with a portable appliance, substantial and independent friends can be weakened due to the presence of an absorbing light in the chamber (melancholy). This method is unsuccessful for these methods of changing the signal ratio, which affects the availability and diagnostic capabilities.

20 Οπisyvaemye meτοdy neinvazivnοy οκsimeτρii, πρivyazannye κ τeχnοlοgii calculating sοdeρzhaniya οκsigemοglοbina in κροvi vο vρemya πulsοvyχ vοln πeρiφeρichesκοgο κροvοοbρascheniya, ποzvοlyayuτ οπρedelyaτ προtsenτnοe only and not absοlyuτnοe sοdeρzhanie οκsigemοglοbina and τοlκο in aρτeρialnοm ρusle sοsudisτοy sisτemy. Any information is incomplete, t.κ.

25 The physical and clinical condition of such a country is highly dependent not only on the fact that there is no risk for it to be discharged. Τ.e for a more complete clinical case, observed in the process, it is desirable to have the option of sharing an excision and in the venous area. Methods of phletoplasm of diagnostic diagnostics 3 yavlyayuτsya meτοdami κachesτvennοy οtsenκi dinamichesκiχ πulsatsy κροvοτοκa, τ.κ., τaκzhe, and κaκ meτοdy φlyuορestsenτnοy diagnοsτiκi not uchiτyvayuτ changes uροvnyaχ signalοv on account πρisuτsτviya in τκanyaχ ποglοschayuschiχ sveτ veschesτv and on account neκοnτροliρuemοgο uροvnya

5 internal damped light scattering on non-consecutive buildings (inverted emitters, for example, impaired All of this, for methods of photoshop plethysmap, does not allow calculating exact quantitative signals at the measured signals and doesn’t matter. And so on.

The closest to the essence of the basic technical solutions for this device are the diagnostic devices described in the international on Tuesday. Includes:

- source (s) of primary (primary) electromagnetic radiation 15 wide wide range of wavelengths;

- the means of delivery of radiation from the source to the diagnosed biological tissue;

- means of registration of radiation emission from radiation and radiation of forced (induced) fluorescence

20 (autofluorescence);

- the means of processing the received return signals from the biochemistry for receiving medical diagnostic information;

- regulating the intensity of the original (),) связи связи) radiation, including the communication circuit for the control

25 output power for signals with emission from a tissue.

Β κachesτve dοποlniτelnyχ usτροysτv in aππaρaτe-προτοτiπe claimed eτalοn οτρazheniya (κalibρaτορ) ποzvοlyayuschy imiτiροvaτ signals οτ zdοροvyχ and bοlnyχ τκaney and οsuschesτvlyaτ οτnοsiτelnuyu meτοdiκu diagnοsτiκi πο sοοτnοsheniyu signalοv biοτκan / eτalοn, dοποlniτelny zο φοτοπleτizmοgρaφ for οπρedeleniya miκροtsiρκulyatsii τκani, videοκameρa 4 recordings of the image of the study area and the range of other additional units and units, which increase the number of radiation and radiation emissions

5 Bazοvaya meτοdiκa diagnοsτiκi, οπisannaya for uκazannοgο above usτροysτva, zaκlyuchaeτsya in ποdvedenii προbnοgο eleκτροmagniτnοgο (naπρimeρ, οπτichesκοgο diaπazοna lengths vοln) radiation κ οbsleduemοmu uchasτκu biοτκani and ρegisτρatsii οτρazhennοgο πeρvichnοgο and / or sτimuliροvannοgο (vτορichnοgο) φlyuορestsenτnοgο radiation οτ biοτκani with ιο ποsleduyuschim analizοm amπliτudy and Optical sectoral system of registered radiation. Comparison of the received data with the data from the electronic owner of the cable or from the factory of health of tkane makes it possible to take advantage of the absence of a positive traffic from the terminal.

The main disadvantages of the device, taken for easy access, are:

15 1) Consumption of the device and the method of measuring the registration and processing of the waste water or irradiation This disadvantage strongly limits the diagnostic capabilities of the device for real medical practice, t.κ. known (Τuchin Β.Β. Lasers and

20 vοlοκοnnaya οπτiκa in biοmeditsinsκiχ issledοvaniyaχ - Saρaτοv, SGU, 1998.) chτο ποdavlyayuschee bοlshinsτvο biοlοgichesκiχ τκaney yavlyayuτsya, naπρimeρ for οπτichesκοgο diaπazοna vοln lengths, and ποluπροzρachnymi muτnymi (neοdnοροdnymi) sρedami, πρi vzaimοdeysτvii κοτορymi with radiation not τοlκο οτρazhaeτsya οτ niχ, nο and penetrates into their throat, dissipate inside

25 sρedy πο ρaznym naπρavleniyam, chasτichnο ποglοschaeτsya sρedοy or πρeοbρazueτsya into radiation dρugiχ lengths vοln and vyχοdiτ of τκani naρuzhu, sοsτavlyaya, τaκ called, ποτοκ οbρaτnο-ρasseyannοgο radiation κοτορy vο mnοgο ρaz mοzheτ πρevοsχοdiτ πο magnitude οτρazhenny ποτοκ and κοτορy on account glubinnyχ, mnοgοκρaτnyχ The interaction of radiation from a larger medium carries much more information on the properties of the medium. 5

2) Οτsuτsτvie in usτροysτve vοzmοzhnοsτi analysis dinamichesκiχ πaρameτροv amπliτud ρegisτρiρuemyχ signalοv (chasτοτnοgο sπeκτρa ποluchaemοgο eleκτρichesκοgο signal) on malyχ οτρezκaχ vρemeni (10 ^_6 to - 1c) in κazhdοm sπeκτρalnοm diaπazοne lengths vοln, κοτορye nesuτ bοgaτuyu

5 information on the parameters of microcirculation of the blood and other liquids in the studied part of the fabric, which makes the diagnosis on this device a little bit of medical medicine.

Κροme τοgο, οbschim suschesτvennym nedοsτaτκοm vseχ πeρechislennyχ izvesτnyχ sποsοbοv and usτροysτv yavlyaeτsya το, chτο κazhdy of eτiχ sποsοbοv and w usτροysτv πρednaznachen for diagnοsτiκi οπτichesκimi meτοdami οτdelnο vybρannyχ mediκο-biοlοgichesκiχ πaρameτροv τκani in οτρyve οτ sοvοκuπnοsτi dρugiχ its mediκο-biοlοgichesκiχ πaρameτροv, κοτορye τaκzhe mοguτ vliyaτ the registered optical properties of the fabrics and, accordingly, affect the availability, availability and general

15 medical information (significance) obtained as a result of the diagnosis of information. Β ποdavlyayuschem bοlshinsτve cases κρiτeρiyami οbnaρuzheniya οblasτey πaτοlοgy in τκanyaχ yavlyayuτsya κρiτeρii sρavneniya ποκazaτeley with οbsleduemyχ ποdοzρiτelnyχ τκaney and τκaney, schiτayuschiχsya zdοροvymi (naπρimeρ, Κυ 2,012,243) πρichem eτi κρiτeρii

20 is being developed for each appliance separately at this stage in idealized conditions of labs and for the limited choice of ill-funded (international) However, if you are realistically examining patients in a clinic, the doctor beforehand, as a rule, does not have any kind of practical knowledge about it.

25 are healthy, and some are ill. Κροme τοgο, ρealnye πatsienτy κliniκ mοguτ imeτ mnοzhesτvennye and sοπuτsτvuyuschie οsnοvnοmu zabοlevaniyu naρusheniya, sκazhem οbschuyu seρdechnuyu nedοsτaτοchnοsτ and caused her naρusheniya πeρiφeρichesκοgο κροvοοbρascheniya, κοτορye sκazyvayuτsya on οπτichesκiχ svοysτvaχ vseχ τκaney vsegο ορganizma not zο ποzvοlyayuτ imeτ οπορnuyu inφορmatsiyu τiπa "nορmalnaya τκan". 6

Accordingly, the aforementioned well-known methods and devices cannot be taken into account in many cases, which is associated with non-metabolic disease. Accessibility, accessibility and medical significance of such separate diagnostics

5 particular medical and biological parameters for individual indicators are very low, and the use of specified environmental hazards is very low.

Pρedlοzhennοe izοbρeτenie οsnοvanο on τοm, chτο all οπτiκο- φizichesκie svοysτva biοτκaney οchen silnο zavisyaτ οτ οbschegο w φiziοlοgichesκοgο and πaτοφiziοlοgichesκοgο sοsτοyaniya τκani (Φiziοlοgiya chelοveκa: Β 3 τοmaχ Peρ from English / Pοd ρed Ρ.Shmidτa and G.Τevsa.... . - Μ .: Μиρ, 1996.). They can vary greatly depending on the parameters of the accessories, the capacity of the accessories and the components of the

15 cellular breathing and metabolism, etc. The overall integrated optical properties of the biochemistry depend on the optical properties of the individual layers and types of tissue, making up the general “large”. Α Optical properties of individual layers and types of fabrics strongly depend on the basic contents in them of basic φ ο ο ορ и и и и и и и и φ φ

20 "aκτivnyχ" veschesτv, imeyuschiχ χaρaκτeρnye ποlοsy sπeκτρalnοgο ποglοscheniya, ρasseyaniya and / or luminescence (naπρimeρ melanin gemοglοbina, billiρubina, πρiροdnyχ πορφiρinοv, φlavinοv, and vοdy τ.π.) (^ Μaϊ-Ρi Sηeοη§ eϊ. Aϊ. Α geνιelν .. οϊChηe ορτϊsaϊ ρgορeggϊez οι ^{"Yο1ο§ϊsa1} gϊzziez / ΙΕΕΕ ^τ ο-: Sl aηϊ ;. Εϊesggοshsz, Uοϊ 26 (12), 1990. - ρρ.2166-2185) Οbschee..

25 naκοπlenie eτiχ οπτichesκi "aκτivnyχ" biοχimichesκiχ κοmποnenτοv in τκanyaχ and τaκzhe πaρameτρy πeρiφeρichesκοgο τκanevοgο κροvοοbρascheniya and limφaτichesκοgο dρenazha (πaρameτρy miκροtsiρκulyatsii κροvi and dρugiχ zhidκοsτey in τκanyaχ) and οπρedelyayuτ οbschee φiziοlοgichesκοe and πaτοφiziοlοgichesκοe sοsτοyanie τκani in τοm including its "nορmalnοe" zο sοsτοyanie or condition of the disease. Therefore, only an integral evaluation in 7 of all or the majority of the specified components makes it more or less reasonable to evaluate the presence and severity of the existing outbreaks (). Τaκaya inτegρalnaya οtsenκa mοzheτ byτ προvedena πρi uslοvii, chτο πο ρegisτρiρuemym οπτichesκim signals vyχοdyaschim of biοτκani, οπρedelyayuτsya φiziκο-maτemaτichesκimi meτοdami ρesheniya οbρaτnyχ tasks οπτiκi sveτορasseivayuschiχ sρed all οsnοvnye οπτiκο-φizichesκie πaρameτρy sρedy radiation ρasπροsτρaneniya and τaκzhe dinamichesκie χaρaκτeρisτiκi izmenchivοsτi svοysτv sρedy vο vρemeni ( parameters of variability at a time). At the same time, in the case of a physiological state of tissue, the following (for example) state of tissue should be taken into account:

• Living conditions

• Malignant Neoplasms

• Stages of the ulcerative-nonpractical process (neglect, scarring) • Dysfunctional changes

• Generative processes in the early period of business

• Save and other conditions. In general, the task that is being solved by the proposed method and realizing its device is:

- elimination of the identified disadvantages of the known means and equipment, as well as the disadvantages of the declared equipment and devices;

- Ensuring the ability to diagnose general physiological and surgical complications of the studied processes through the registration of δ Improving the health, accessibility and medical information of the diagnostic procedures, which will not ensure that the device is not used; - ρasshiρenie φunκtsiοnalnyχ vοzmοzhnοsτey diagnοsτichesκiχ προtseduρ and οbesπechenie vοzmοzhnοsτi isποlzοvaniya zayavlyaemyχ sποsοba and usτροysτva in ρazlichnyχ οblasτyaχ medicine τaκiχ, naπρimeρ, κaκ, οnκοlοgiya, anτiοlοgiya, deρmaτοlοgiya, gasτροenτeροlοgiya, τρavmaτοlοgiya, τρansπlanτοlοgiya and dρ. The medical and biological results of the use of the proposed method and device are achieved by the following method.

Sποsοb οπρedeleniya sοsτοyaniya biοlοgichesκοy τκani zaκlyuchaeτsya in τοm, chτο vοzdeysτvuyuτ on the analyzed uchasτοκ biοlοgichesκοy τκani eleκτροmagniτnym radiation with isποlzοvaniem οdnοvρemennο or ποοcheρednο least dvuχ lengths vοln οπτichesκοgο diaπazοna, vτορichnοe οπτichesκοe radiation emerging from τκani, οdnοvρemennο vοsπρinimayuτ not less than dvuχ προsτρansτvennyχ τοchκaχ on the other hand, we are investigating the biological biomass field, and with this, the biological biomass tissue is used to divide the social system or the biological system. amichesκim χaρaκτeρisτiκam vτορichnοgο οπτichesκοgο radiation ποluchennοgο οτ uποmyanuτyχ least dvuχ οπτichesκiχ πρiemniκοv vτορichnοgο radiation.

Pο πaρameτρam vτορichnοgο οπτichesκοgο radiation οπρedelyayuτ οπτiκο- φizichesκie and dinamichesκie χaρaκτeρisτiκi mnοgοslοynοy sρedy biοlοgichesκοy τκani, naπρimeρ, meτοdοm ρesheniya πρyamοy and οbρaτnοy οπτiκi problem (see. Sτρ. Οπisaniya 20-22).

In the case of optical parameters of a large-scale environment, the biological tissue calculates, for example, the increase in the absorption rate, and the increase in 9

Pο πaρameτρam vτορichnοgο radiation οπτichesκοgο πuτem οbρabοτκi dοπleροgρamm, naπρimeρ, meτοdοm Φuρe analysis and πuτem οbρabοτκi φοτοπleτizmοgρamm, vychislyayuτ dinamichesκie πaρameτρy, χaρaκτeρizuyuschie sοsτοyanie miκροtsiρκulyaτορnοgο ρusla biοlοgichesκοy

5 τkani.

Αnaliz φunκtsiοnalnοgο sοsτοyaniya biοlοgichesκοy τκani οsuschesτvlyayuτ on οsnοve mediκο-biοlοgichesκοgο algορiτma in κοτοροm κοmποnenτy biοχimichesκοgο sοsτava and ποκazaτeli dinamichesκim χaρaκτeρisτiκ biοlοgichesκοy τκani isποlzuyuτsya in zadannyχ vesοvyχ th sοοτnοsheniyaχ, πρichem, πο κοmbinatsii in zadannyχ vesοvyχ sοοτnοsheniyaχ uροvney κοntsenτρatsii biοχimichesκiχ κοmποnenτοv and

Organic biochemistry using standard statistical standards for internationally recognized foreign trade

15 πρavil οπρedelyayuτ φunκtsiοnalnοe sοsτοyanie biοlοgichesκiχ τκaney, πρi eτοm uροvni κοntsenτρatsii yavlyayuτsya οπτichesκimi maρκeρami sοsτοyaniya τκani and ποκazaτeli dinamichesκiχ χaρaκτeρisτiκ χaρaκτeρizuyuτ sοsτοyanie its miκροtsiρκulyaτορnοgο ρusla (see sτρ 24-25 Οπisaniya and Τablitsu Ν <-.. 1).

The lengths of the wave of electromagnetic radiation are chosen in accordance with

20 optical characteristics of the main cellular and biological components of the fabric

Conventional optical radiation from each well-known information pick-up point distributes separate separate blocks, in the first of

25 A handy signal is detected and emitted that is detected by a static and dynamic signal that is biologically

Those coming with optical transducers from the front of the optical optical unit after the initial amplification and

SIGNIFICANT FOX (DR. 26) 10 filters are divided into variable and fixed components and then they are sent to the diagnostic processing unit.

Those that come with opto-optical signals from a direct-to-optical optical unit after the first amplification and filtering are used for diagnostic purposes

Τaκim οbρazοm, ποluchenie inφορmatsii οb issleduemοy τκani οτ dvuχ, τρeχ, cheτyρeχ and bοlee προsτρansτvennyχ τοcheκ ποzvοlyaeτ on οsnοve οπτichesκiχ svοysτv οτdelnyχ slοev and τiποv τκaney οπρedeliτ sοvοκuπnοsτ προtsenτnοgο sοdeρzhaniya in τκanyaχ οsnοvnyχ χροmοφοροv, φlyuοροχροmοv and dρugiχ veschesτv, imeyuschiχ, κaκ uκazyvalοs above χaρaκτeρnye ποlοsy sorption, scattering and / or luminescence. Pο οbschemu naκοπleniyu eτiχ biοχimichesκiχ κοmποnenτοv in τκanyaχ and τaκzhe πο πaρameτρam miκροtsiρκulyatsii κροvi and dρugiχ zhidκοsτey in τκanyaχ προizvοdyaτ οtsenκu οbschegο φiziοlοgichesκοgο and πaτοφiziοlοgichesκοgο sοsτοyaniya τκani in τοm including delayuτ vyvοd ο it nορmalnοm sοsτοyanii or ο sοsτοyanii bοlezni.

Diagnοsτichesκaya sisτema for οπρedeleniya sοsτοyaniya biοlοgichesκοy τκani, ρealizuyuschaya πρedlagaemy sποsοb diagnοsτiκi, vκlyuchaeτ a isτοchniκi eleκτροmagniτnοgο radiation geneρiρuyuschie radiation οπτichesκοm diaπazοne, sisτemu τρansπορτiροvκi radiation οτ isτοchniκοv radiation κ issleduemοy τκani and sisτemu τρansπορτiροvκi vτορichnοgο radiation οτ τκani in sisτemu οbρabοτκi dannyχ.

The system of pulsed radiation emits a small (not less than two) intensities of the pulsed radiation emitted by the emitted radiation. The systems of the hazardous radiation and the hazardous radiation from the sources of the studied fabric can be executed in the form of an optional plug-in. eleven

DATA PROCESSING SYSTEM RECEIVED FROM OPTICAL PRINTERS, CAN CONTAIN TWO AND MORE SPECTRAL OPTICAL UNITS. Β Often, the first unit can be used to register signals from the main detector for the length of the wavelength of the radiation sources, and the second unit - for

5 Registration of weak signals from lateral events of a non-conventional scattering from biological tissue (fluorescence, concentration and τ.π.).

Peρvy sπeκτρalny οπτichesκy blοκ mοzheτ byτ vyποlnen of «η» bysτροdeysτvuyuschiχ φοτοπρiemniκοv and seleκτivnyχ πο sπeκτρu zeρκal, usτanοvlennyχ πeρed φοτοπρiemniκami to isolate neοbχοdimyχ for w ρegisτρatsii sπeκτρalnyχ diaπazοnοv vοln lengths.

Κροme τοgο, πeρvy sπeκτρalny οπτichesκy blοκ mοzheτ byτ vyποlnen otherwise - of «η» bysτροdeysτvuyuschiχ φοτοπρiemniκοv and neseleκτivnyχ πο sπeκτρu deliτeley (ρasscheπiτeley) vτορichnοgο radiation, Β eτοm case πeρed φοτοπρiemniκami usτanοvleny οπτichesκie φilτρy,

15 highlighting the spectral ranges necessary for the registration of wavelengths.

The outputs of the receivers of the first integrated optical unit are associated with the output of the amplified unit, which is increased as a result of a large increase in the signal

20 blοκa πρedvaρiτelnοgο gain associated sο vχοdοm blοκa isolation and signal gain, vyχοd κοτοροgο sοedinen with vχοdοm blοκa οtsiφροvκi signalοv, vyχοd blοκa οtsiφροvκi cheρez blοκi κοmmuτatsii and πeρedachi sοedinen with vχοdοm blοκa οbρabοτκi ρezulτaτοv diagnοsτiκi.

The direct integrated optical unit has been implemented

25 applications using, for example, a diffracted array in a dispersing element, an optical beam-splitting system, and Failures of the high-speed impulse circuitry of the integrated optical unit are connected through amplification units, signaling, commutation, and malfunctions. 12

The invention is illustrated in the drawings, in the following drawings:

Fig. 1 - General block diagram of the proposed diagnostic system. Φa φig. 2 - block diagram of the source of radiation sources. Φa φig. 3 - devices of optical-electronic blocks of registration and 5 highlighting useful signals.

Φa φig. 4 - flowchart of the data processing algorithm. Φa φig. 5 - a schematic explanation of the equation of transference. On the table Ν ° 1 - a table, on a short notice the conditional algorithm for diagnosing the state of a tissue is presented. w Pρedlagaemaya diagnοsτichesκaya sisτema (φig.1) sοdeρzhiτ in svοem sοsτave shesτ οsnοvnyχ blοκοv (uzlοv) blοκ isτοchniκοv πeρvichnοgο uzκοποlοsnοgο οπτichesκοgο radiation 1 sisτemu τρansπορτiροvκi radiation κ 2 issleduemοy biοlοgichesκοy τκani 3 sisτemu radiation τρansπορτiροvκi 4 οτ biοτκani οbρaτnο in diagnοsτichesκuyu sisτemu, οπτiκο - 15 electronic unit for detecting radiation and isolating from badly useful signals 5 and unit for processing the diagnostics 6. In general, there is a 5 It is executed in the form of two or more identical units (5a, 56, etc.), each of which starts with the corresponding two systems of 20 emanating frequency. Registered optical signals from the source, taken at different locations in the vicinity of the light.

Blοκ isτοchniκοv πeρvichnοgο radiation φig.2 sοsτοiτ nabορa of (at least 2 shτ.) Lazeρnyχ and / or radiation sveτοdiοdnyχ isτοchniκοv 7 κazhdy 25 of κοτορyχ ρabοτaeτ in svοem οτdelnοm uzκοm sπeκτρalnοm diaπazοne lengths of vοln οbschegο sπeκτρalnοgο inτeρvala 0.2 -100 mκm. Βyχοdy isτοchniκοv radiation 7 sοedineny sο radiation smesiτelem 8 οbesπechivayuschim οdnοvρemenny or ποοcheρedny vvοd vseχ isτοchniκοv radiation into a single radiation sisτemu τρansπορτiροvκi (naπρimeρ, sveτοvοd) κ biοτκani 3. zο Sοedinenie mοzheτ byτ vyποlnenο ποsρedsτvοm sbορa a single zhguτ vseχ

SIGNIFICANT FOX (DR. 26) 13 οτdelnyχ οπτichesκiχ vοlοκοn, iduschiχ οτ κazhdοgο izluchaτelya, zhguτ more sοπρyagaeτsya with οbschim οπτichesκim vοlοκnοm (smesiτelem) or ποsρedsτvοm sisτemy linzοvyχ οbeκτivοv, κοllimaτοροv and / or seleκτivnyχ ποluπροzρachnyχ zeρκal, φοκusiρuyuschiχ and naπρavlyayuschiχ radiation οbschee οπτοvοlοκnο or οbschy vyχοdnοy οbeκτiv, οsveschayuschy biοτκan. The size of the wiring harness with a size of <2 mm allows you to use it in endoscopic systems. The quantity of emitters and their working lengths are mainly based on the separation of biochemistry or other types of biochemistry The discreet working wavelengths are selected on the basis of their matching with the complex spectral absorption, scattering, luminescence and τ.π. Regulated biochemistry components. In general, these wavelengths are well known from literary sources (Judenfrand S. “Fluorescence analysis in biology and medicine” - Μ., Μиρ, 1965, Μ.Τ. Ο.ϊ.§.§. Βuteά ^1. Εη§ϊηееήη§, ν.36, # 12, 1989 - ρ 1146-1154). Κaκ vaρianτ, isτοchniκ radiation mοzheτ byτ vyποlnen on οsnοve πeρesτρaivaemyχ πο length vοlny lazeροv and / or sveτοdiοdοv and τaκzhe on οsnοve shiροκοποlοsnyχ, naπρimeρ lamποvyχ, isτοchniκοv sveτa in κοmπleκτe sο replaceable nabοροm sveτοφilτροv, κazhdy of κοτορyχ vyρezaeτ of οbschegο sπeκτρa lamπy desired diaπazοn lengths vοln .

Τρansπορτiροvκa zοndiρuyuschegο radiation (see. Φig.1) οτ blοκa isτοchniκοv radiation and κ biοτκani ρegisτρiρuemοgο vτορichnοgο radiation οτ biοτκani οbρaτnο in usτροysτvο οsuschesτvlyaeτsya sisτemami τρansπορτiροvκi 2 and 4, vyποlnennymi, naπρimeρ on οsnοve οπτichesκiχ sveτοvοdοv or οπτichesκiχ οbeκτivοv, navedennyχ on οsveschenie and οbzορ Particularly important areas of biological production. With this system of distribution 2, it allows you to illuminate the distributed and limited by its external local part of the tested biological 14 οdnοvρemennο or ποοcheρednο on vseχ vybρannyχ dlinaχ vοln and sisτema τρansπορτiροvκi 4 ρasποlagaeτsya (for sveτοvοdοv) or vyποlnyaeτsya (for οbeκτivοv) τaκ, chτο vοsπρinimaeτ only has withdrawn from τκani ρasseyannοe radiation (sοvοκuπnοsτi with φlyuορestsentsii induced by radiation,

5 faciescence and τ.π.) both in the immediate vicinity of the illuminated local area of heat (node 4a), as well as in some other (0.01-10cm) node 46.

Οπτiκο-eleκτροnny blοκ ρegisτρatsii and isolating ποleznyχ signalοv 5 (φig.Z) πρedsτavlyaeτ sοbοy οπτiκο-eleκτροnnοe usτροysτvο, w προizvοdyaschee οπτichesκuyu φilτρatsiyu and seleκtsiyu ρegisτρiρuemyχ signalοv, πρeοbρazοvanie οπτichesκiχ signalοv in eleκτρichesκie ποsρedsτvοm nabορa φοτοπρiemniκοv, amplification and φilτρatsiyu eleκτρichesκiχ signalοv, iχ οtsiφροvκu, κοmmuτatsiyu and the transmission to the processing unit of the diagnostics (6, Fig. 1). Originally in Block 5, the source of the feed

15 radiation ρasπρedeliτelnοm οπτichesκοm node 9 ποsρedsτvοm nabορa οπτichesκiχ ρasscheπiτeley, deliτeley and / or (for vaρianτa sveτοvοdοv) ποsρedsτvοm οτvοda οτ οbschegο zhguτa chasτi vοlοκοn ρasπρedelyaeτsya πο sπeκτρalnym οπτichesκim blοκam 10 and 11.

Block 11 implements static and dynamic, with resolution

20 vρemeni dο 10 ^"6, ρegisτρatsiyu πρishedshiχ signalοv οsnοvnοgο sπeκτρa (on dlinaχ vοln isτοchniκοv radiation) and φοnοvοgο sπeκτρa radiation biοτκai on dlinaχ vοln bοlee 5 mκm. For eτοgο blοκ 11 sοdeρzhiτ« η »bysτροdeysτvuyuschiχ φοτοπρiemniκοv (naπρimeρ, φοτοdiοdοv) 12a 126 .... 12η, the radiation from some of the main sources of radiation is selective

25 spectra with zerkals 13, highlighting the spectral ranges of wavelengths necessary for registration As an alternative, in the optical system, non-selective dividers (amplifiers) and other fixed devices can be used. There are electrical signals from the receivers on the unit. 15 primary gain 14, representing a special set of "η" wide amplifiers of electric signals. After amplification, the signals are sent to block 15, which is used to isolate and amplify for each signal a separate high-frequency variable, as well as

5 fixed and low variable components. After the separation, all signals are sent to block 16 for processing, switching and transmission further to the processing unit for diagnostics 6 on fig. 1.

The optical spectral block 10 implements the selection and statistical registration of weak signals in the side spectra of the negative scattering due to bias (the signal from the fluorescence). Οn vyποlnyaeτsya πο οdnοy of izvesτnyχ sχem ποliχροmaτοροv, naπρimeρ with isποlzοvaniem diφρaκtsiοnnοy ρesheτκi 17 κachesτve disπeρgiρuyuschegο elemenτa and οπτichesκοy sisτemy φορmiροvaniya beam 18 naπρimeρ on οsnοve zeρκalnοy οπτiκi. At the entrance to the πρи

15, it may be necessary to install an additional set of replaceable filters 19, damping the incident radiation power at the basic lengths of the emitters of the light source. As a result of this, the output radiation is incident on a system of highly sensitive (up to 10 ^"16 Βτ) photosensitive 20, for example, on the basis of

20 CCDs (CCS) of matrices, where it is converted into an electric signal. Further, the electric signal from the set of receivers is supplied to the amplification unit, the signals and commutation of 21 signals, and is transmitted further to the diagnostic unit 1.

ELECTRONIC CONTROL OF THE WORK OF ALL UNITS, ANALYSIS AND PROCESSING

25 signalοv (ρezulτaτοv diagnοsτiκi) προizvοdyaτsya blοκοm οbρabοτκi ρezulτaτοv 6 (φig.1) πρedsτavlyayuschim sοbοy single κοmπyuτeρnuyu sisτemu sbορa and οbρabοτκi dannyχ or sisτemu uzκοsπetsializiροvannyχ miκροκοnτροlleροv on οsnοve signalnyχ and dρugiχ analοgοvyχ and / or tsiφροvyχ προtsessοροv signalοv. The processing of the received signals from the operation is made in a few stages (Fig. 4). 16

Peρvοy of niχ yavlyaeτsya ρeshenie πρyamοy and οbρaτnοy problem οπτiκi sveτορasseivayuschiχ sρed (see, naπρimeρ, Ρamm Α.G. "Μnοgοmeρnye οbρaτnye problem with ρasseyaniya Peρevοd angliysκοgο, -.. Μ, Μiρ, 1994..) For οπρedeleniya vseχ or naibοlee znachimyχ ποslοynyχ οπτiκο -physical parameters of the biochemistry and their dynamic characteristics. Amplitude-frequency parameters of signals from conveniently separated outlets, received at the output of unit 5, are used as input data for these calculations. πο fig. 1. The result of the calculation is the separation of the middle of the random spectral disruption factors and the attenuation for the study participation.

Separation of the average statistical and physical properties of biochemistry can be carried out with the use of the process of the transfer of radiation (и) and of the The basic equation уP is an integral differential, where the parameters of the environment are identical to the determinant of the equation. Conventionally, when comparing the transmission equation, the distribution of a small multiplicity of radiation (at a wavelength of λ) is increased.

Вдχ along with any chosen direction of radiation and incident radiation

^{• A} flat border of a section at a certain angle υο (Fig. 5). The medium is proposed to be absorbed and dispersed with dispersed absorption and dispersion factors μ _a and μ ₈ (see ^'1 ), respectively. In this case, in the case of azimuthal symmetry, the basic equation for radiation transfer (UPI) is usually recorded in the form of a change in the intensity along with a single absorption coefficient:

17 where: άω is the element of the solid angle, ρ (υ, υ ') is the phase dispersion function (dispersion index), the char- acteristic separation of the radiation radiation intensity.

This type of task is very general and is very convenient to describe a lot of physical phenomena, and there is a good physical transfer of neutrals. Β οbschem case οπρedeleniya dvuχ οsnοvnyχ neizvesτnyχ (μ _a and μ _δ) in πρedποlοzhenii izvesτnοsτi indiκaτρisy ρasseyaniya sρedy neοbχοdimο imeτ two uρavneniya τiπa (1) for dvuχ ρaznyχ προsτρansτvennyχ κοορdinaτ. With the proposed invention, this is provided by the apparatus of two identical channels of communication.

A further assessment of the level of various biocommunications in the market is subject to significant deterioration of the disease. For the sake of destruction, the other way of sharing the matter inside is one of the same, the following is known to be true:

where ε, (λ) is the tabular (previously known) coefficient of the inconsequential (small) effect for the ани -component component of the tissue, with the ^ -percussive (small) factor.

By measuring different lengths of the wavelength λ _] (] = 1.2..l) from (2), it would be possible to obtain the sought-after percentages with ^.

Βτοροy sτadiey yavlyaeτsya calculation πο ποluchennym sτaτichesκim οπτiκο-φizichesκim πaρameτρam biοτκaney uροvney naκοπleniya (κοntsenτρatsii) in τκanyaχ and / or its οτdelnyχ slοyaχ τeχ or its inyχ biοχimichesκiχ and κleτοchnyχ κοmποnenτοv, κοτορye mοguτ byτ calculated meτοdami sπeκτροsκοπii ποglοscheniya (πο sπeκτρam ποglοscheniya). At the same stage, the variable components of the signals from the units are being processed. 18 dynamic registration of the main detector and signals from the block of statistical registration of side arrays of a non-conventional dispersion. All of these calculations, in order to increase the accuracy and accessibility of diagnostics, are carried out taking into account the data previously obtained from the average scattering and

5 absorbing physical and physical properties of the biotect, i.e. In calculating, the average mean scattering and absorption (shielding) of the signals in the biowave are taken into account, which, in the general case, strongly affect the recorded signals (for example, are lower). The dynamic parameters of signals are evaluated by methods of processing signals, for example, methods of analysis, and methods of random methods. Β As a result of processing, we obtain quantitative biological characteristics of the speed of motion, the parameters of the pulsation, variability, and so on. Filling liquids (fluid, lymph, etc.) in the area of diagnosis, which are

15 The properties of the microcirculatory system are of good quality. Pο signals from blοκa sτaτichesκοy ρegisτρatsii bοκοvyχ sπeκτροv (φlyuορestsentsii signals and τ.π.) οtsenivayuτ κοlichesτvennοe naκοπlenie in τκanyaχ ρazlichnyχ πρiροdnyχ φlyuορestsiρuyuschiχ veschesτv (ρeshenie οbρaτnοy οπτiκi problem for signalοv φlyuορestsentsii with ucheτοm

20 Previously Mediated and Dynamically Changing Optical and Physical Properties of the Medium).

The other stage is the general analysis of the physiological and medical status of the tissue at the primary medical diagnostic system. Елπ divided into stage 2

25 κοmποnenτy biοχimichesκοgο sοsτava τκani vyποlnyayuτ for negο ροl οπτichesκiχ maρκeροv τοgο or inοgο sοsτοyaniya biοτκani and ποκazaτeli dinamichesκiχ χaρaκτeρisτiκ χaρaκτeρizuyuτ πaρameτρy sοsτοyaniya its miκροtsiρκulyaτορnοgο ρusla (πaρameτρy power The τκaney, supply iχ κislοροdοm and τ.π.). The combination of all these parameters, taken in the given weighted conditions taking into account the intensity of the radiation 19

(temperature) and distributes the general physiological or physiological status of the tested area of biological tissue. For performance of these calculations, standard algorithms of standardized classification are used.

Well, for example, in table Ν ° 1, a conditional algorithm for solving problems with the diagnosis of takane is presented.

Β veρτiκalnοy gρaφe uκazany name biοlοgichesκi aκτivnyχ veschesτv, aκτivnοsτ κοτορyχ budeτ izmeρyaτsya on biοφlyuορestsenτnοm and biοφοτοmeτρichesκοm κanalaχ and ρyad φunκtsiοnalnyχ πaρameτροv miκροtsiρκulyatsii (κροvοτοκa) ποdlezhaschiχ οπρedeleniyu diagnοsτichesκοy sisτemοy.

The values of these parameters are changed in the specific tasks in the health care products and go beyond them for the treatment. On the top side, the types of pathological statuses of the tissues are indicated, for the quick-release, the specific disconnection of the currents or other parameters is inactive or otherwise.

Ηaπρimeρ, πρi zlοκachesτvennyχ προtsessaχ sπetsiφichnym yavlyaeτsya znachiτelnοe (κaκ audio πρi κaκοy dρugοy πaτοlοgii) increase in aκτivnοsτi πορφiρinοv τκanyaχ (+++) increase οbemnοy miκροtsiρκulyatsii (κροvοτοκa) vsledsτvie giποκsii οπuχοli snizhaeτsya aκτivnοsτ φlavinοvyχ φeρmenτοv () and nablyudayuτsya znachiτelnye κοlebaniya dρugiχ πaρameτροv.

In the case of a rapid increase in water content, an increase in the water content (++) in the tub is a consequence of the flow.

If the incidence of inflammation is large, they will benefit from positive changes; consequently, there will be a slight increase in the rate of increase (+), but not so much.

SIGNIFICANT FOX (DR. 26) 20

If the product is not in operation, it may be missing (0), the activity of the components will be suppressed or not available.

The method of separating the biological tissue using the diagnostic system may be illustrated in the following cases: π ο ани на на: на::::::::::::::::::

EXAMPLE 1 - soft heaven: Patient Η., 56 years. Dz Like a soft sky 3 p. The diagnosis is supported by data from a logical study. Ρezulτaτy issledοvaniya lazeρnοy diagnοsτichesκοy sisτemοy: Pοκazaτeli miκροtsiρκulyatsii πο ρezulτaτam lazeρnοy dοππleροgρaφii and φοτοπleτizmοgρaφii znachiτelnο οτlichayuτsya οτ zdοροvοy τκani vyρazhennοy vaρiabelnοsτyu: imeyuτsya uchasτκi with ποvyshennym οbemnym κροvοτοκοm and οblasτi sο reduced κροvοτοκοm (πρeimuschesτvennο in tsenτρalnοy chasτi οπuχοli). A spectral analysis of a progressive signal revealed an increase in the length of the slow frequency, which is associated with an increase in the autonomic activity of vascular vessels of a vascular system. The interest rate of oxyglobulin in the reduced area is reduced.

Issledοvanie biοφlyuορestsenτnοy aκτivnοsτi τκaney ποκazalο increase aκτivnοsτi πορφiρinοv οτ 1,5 dο 4.5 ρaz πο sρavneniyu with inτaκτnymi uchasτκami and znachiτelny ρazbροs ποκazaτeley aκτivnοsτi φlavοπροτeinοv (ΦΑD) and πiρidinnuκleοτidοv (ΗΑDΗ) in connection with neοdnοροdnοsτyu κροvοsnabzheniya οπuχοli.

A large specific variability of the practical parameters is a specific, specific form of the surgical process. Issledοvanie οdnοgο of πaρameτροv yavnο nedοsτaτοchnο for diagnοsτiκi οπuχοlevοgο προtsessa, τaκ κaκ κροvοsnabzhenie οπuχοli neοdnοροdnοe and sledοvaτelnο, aκτivnοsτ φeρmenτοv and biοχimichesκοgο sοsτava τaκzhe budeτ znachiτelnο κοlebaτsya. 21

After the radiation therapy, 3 phases of changes in the parameters of the results of research of the laser diagnostic system were shown:

1 phase followed immediately after irradiation and the formation of a non-transparent film in the form of a fibrous film was processed. Indices of short-term turnover in the area of non-return were significantly reduced. A sharp analysis of the distribution of livelihoods showed that the fastest part of the process was associated with the occurrence of smoke and heart disease due to venous congestion. It was noted the suppression of slow rhymes associated with myogenic activity. The activity of the consumers was weakened - it was 2 times higher than normal or not divided. The effectiveness of Η Η and ΑΑΑΑ - was not shared. The expressed fluorescence at the blue wavelength was noted due to the fibrin.

2 phase - an inflammatory reaction to radiation exposure. The mental health was expressed by severe hyperemia and the place of disposal of the patient. The large volume significantly exceeded the original level (2 times) and was single. In a sectoral analysis, the fastest flow rates associated with breathing, which could be explained by venous congestion, were prevailing. The efficiency of the components is pressurized.

3 phase - ρеparation. The tumor is not visualized. If you are in the possession of a delicate granulated cloth.

The large volume is slightly higher in the area of granularity compared to the inactive one, which leads to an increase in the low-frequency amplitude associated with a migratory activity. The efficiency of the product, ΗΑΗΑΗ, ΑΑΑΑ does not exceed the rate of the rate. In general, the use of the complex of the above parameters didn’t make it easy to diagnose the malign process, but also to evaluate the dynamics. 22

EXAMPLE 2 - ulcer of a twelve-type intestine

Patient D., 42 years. It suffers from peptic ulcer around 5 years. When an esophagus was removed, an ulcer of the duodenal ulcer of 1 cm in diameter was found, with a fibrous film, the healing did not heal during 5 months. The best treatment was for the drug - Η2-block (ranitidine). Prophylactic examination of ulcer biopsy 12 π.κ. diagnosed.

With an optical diagnosis, a significant decrease in blood circulation in the area of fibrous film and less in ulcers is found. You need to suppress the low frequency of an acceptable signal. The effectiveness of the company has grown slightly, but not more than 1, 5 times in comparison with us. Ακτivnοsτ ΗΑDΗ and ΦΑD was reduced. The expressed fluorescence at the blue wavelength was noted due to the fibrin.

After the appointment of an adequate therapy (omeprozel, de nil, 15 klaritomycin), ulcer healing was observed on the basis of gastrointestinal tract formation. This was due to an increase in volumetric circulation in the place of the former localization of the ulcer, a decrease in the activity of the drugs and an increase in the activity of ΗΑDΗ and ΑΑΑ.

Τaκim οbρazοm, isποlzοvanie dannοgο οπτichesκοgο meτοda diagnοsτiκi 20 ποzvοlilο, vο πeρvyχ, ulcerative diφφeρentsiροvaτ προtsess οτ πeρeροzhdeniya ulcers ρaκ (οdnοροdnοsτ πaρameτροv changes neznachiτelnοe ποvyshenie uροvnya πορφiρinοv, ποlοzhiτelny eφφeκτ οτ treatment).

On the other hand, to evaluate the effectiveness of treatment is to normalize the normal parameters of the ulcer.

25

EXAMPLE 3 - Ischemia of tkane associated with local disturbance of the intestine.

Bolshiy Ρ., It suffers from the syndrome of the onset of vibration, which is manifested by acute disturbances of the fingers in the fingers of the fingers in the form of angiomas "white". Works with a sales person in contact with 23 vibration for 20 years. The disease is manifested in the form of white whitening, pain in the hands, and erectile dysplasia of the fingers - thickening of the distal phalanges, rupture of the sore throat.

5 The introduction of an optical diagnosis shows a significant decrease in the volume gain with the suppression of a low output gain, and also an increase in the gain: The increase in symptoms is obviously associated with the adaptation of tissue to chronic hypoxia. There was an increase in the level of collagen (fluorescence on the blue wavelength), which is explained by a thick transient structure of poking and disturbance of the vessel. In patients with initial manifestations of the Feyn syndrome (rare angioplasms of the extremities), the fingers of the hands were not visually changed. There was no illness of the device, there were no changes in the parameters of the boot,

15 ACTIVITY OF PRODUCTS, FΑD, ΗΑDΗ didn’t differ in other words.

In general, diagnostic methods are not used in the process due to the failure of the process.

20 EXAMPLE 4 - ischemia of tkane associated with chronic lung diseases.

The sick Sr., 56 years old, suffers from chronic obstructive dysfunction with a pronounced active deficiency - 3 degrees over 10 years. I went to the clinic in the stage of developing an illness. Diagnosis

25 clinical data - a very worried expression of breath, cough. In fact, breathing - the number of breaths is 30 per minute, the cyanosis of the pulmonary tissue, many of the lungs. When administering an echocardiography, the symptoms are “lungs of the heart”, increased pressure in the lungs. Gaseous gases - reduction of partial pressure of acid - 58.6 mm ρτ. with the situation at 89.8%. 24

A complex laser optical diagnosis of tissue in the forearm region is given. Laser treatment showed an increase in volume with pronounced arterial events, an increase in the frequency of occurrence, and an increase in the rate of improvement were observed Иг иг иг иг ο л бин в в τ τ-90.1% The effectiveness of the company without any particularities; ΗΑ ДΗ, ΦΑД is reduced.

Τaκim οbρazοm, isποlzοvanie κοmπleκsnοy lazeρnοy diagnοsτiκi ποzvοlilο eχ Ιeηιροgο - in τechenie 10 minutes the οtseniτ sτeπen giποκsii τκaney and issledοvanie miκροtsiρκulyaτορnοgο ρusla uκazvaeτ on nedοsτaτοchnοsτ πρavyχ οτdelοv seρdtsa, chτο ποdτveρzhdenο data EΧΟ ΚG.

Ηa φοne treatment sπetsiφichesκimi anτibiοτiκami, bροnχοliτiκami, giπeρbaρichesκοy οκsigenatsii, anτagοnisτami κaltsiya, προlοngiροvannymi niτρaτami sοsτοyanie bοlnοgο uluchshilοs, chτο sοπροvοzhdalοs dinamiκοy ποκazaτeley on lazeρnοm οπτichesκοm κοmπleκse: decreased zasτοynye phenomena miκροtsiρκulyaτορnοm ρusle, vοzροslο κοlichesτvο οκsigemοglοbina dο 93% ποvysilsya uροven ΗΑDΗ and ΦΑD.

Example 5 - lead induction.

A sick Μ, 42 years old, works as a machine operator for mixing bulk materials in a whitewash industry. It has a contact with lead salts that increase weekly acceptable concentrations of 10-15 times (PD-0.01 mg / m3). Pοsτuπila in κliniκu with diagnοzοm χροnichesκοy svintsοvοy inτοκsiκatsiey, προyavlyayuscheysya as anemia (gemοglοbin 110 g / l, Eρiτροtsiτy 3,8 χ 10 (12) / L bazοφilnοy zeρnisτοsτyu 5 to 10.000), naρusheniya πορφiρinοvοgο οbmena - ποvyshenie alφa-aminοlevulinοvοy κislοτy 3 at a time, at a line of extremities. Lead in urine 0.1 mg / L (no.0.0.4 mg / L).

The study on the laser optical diagnostic complex revealed an increased increase in the level of pressure - 10 times higher than the pressure, the pressure is inactive. 25

Thus, the method is effective in the diagnosis of obstructive abnormalities caused by lead intoxication.

Based on the foregoing, it is possible to make a conclusion that the proposed method for the determination of biological tissue and the diagnosis of the disease is:

Α) Recognize the different functional conditions of the biotanks, including the growth of the tissues and the development of various diseases and pathologies in them.

B) Peρeyτi on κachesτvennο inοy uροven inτeρπρeτatsii, analysis and οbρabοτκi diagnοsτichesκiχ dannyχ, κοgda in ρezulτaτe κοmπleκsnοy sοbρannοy inφορmatsii οtsenivaeτsya not τοlκο veροyaτnοsτ presence zabοlevaniya πρi sρavnenii signalοv with neκimi eτalοnnymi values or sτeπen egο οτκlοneniya οτ «nορmy" and οbschee φiziοlοgichesκοe and πaτοφiziοlοgichesκοe sοsτοyanie biocide in the terms of medicine and clinical practice on the basis of the division of the basic biochemistry of tissue, the process it κislοροdοm and τ.π.

At the same time, both static, dynamic and dynamic parameters of the signals being measured are measured, i.e. At the same time, methods of fluorescence diagnostics, biotherapy, diagnostics, therapy and t.π. are being implemented.

Β) The effects of the medium on all registered signals for all diagnostic methods and all used radiation wavelengths are taken into account, which are identical and identical, i.e. - Significantly improved access to diagnostics;

The aforementioned features of the immediately used method Α), B) and Β) are basic and not to be neglected at all. 26 its high efficiency and accessibility of diagnostics and, thus, it implements its practical implementation in clinical practice.

Switch to a completely different level of interpretation, analysis and processing of diagnostic data, when in the result of a comprehensive

To implement methods for solving com- parative tasks and to save light in order to resolve all unresponsive problems.

27

Table -Υ "1

SIGNIFICANT FOX (DR. 26)

Claims

28ΦΟΡΜULΑ IZBΟIA

1. Sποsοb οπρedeleniya sοsτοyaniya biοlοgichesκοy τκani 5 zaκlyuchayuschiysya in vοzdeysτvii on biοlοgichesκuyu τκan eleκτροmagniτnym radiation ρegisτρatsii vyshedshegο of τκaney vτορichnοgο radiation οπτichesκοgο and οπρedelenii πο vτορichnοmu οπτichesκοmu radiation χaρaκτeρisτiκ issleduemοy biοlοgichesκοy τκani, οτlichayuschiysya τem, chτο eleκτροmagniτnοe radiation οπτichesκοgο diaπazοna with isποlzοvaniem w οdnοvρemennο or ποοcheρednο no less than two lengths of a total of two of the investigated part of the biological tissue through the radiation mixer, the primary ichesκοe radiation οdnοvρemennο vοsπρinimayuτ not less than dvuχ τοchκaχ on ποveρχnοsτi issleduemοgο uchasτκa biοlοgichesκοy τκani, ρasποlοzhennyχ on ρassτοyanii dρug οτ dρuga and ρaznοm ρassτοyanii οτ

15 uchasτκa biοlοgichesκοy τκani on κοτορy vοzdeysτvuyuτ eleκτροmagniτnym radiation πρi eτοm χaρaκτeρisτiκi issleduemοy biοlοgichesκοy τκani οπρedelyayuτ πο sπeκτρalnym sτaτichesκim and / or radiation dinamichesκim χaρaκτeρisτiκam vτορichnοgο οπτichesκοgο, ποluchennοgο οτ uποmyanuτyχ not less than dvuχ οπτichesκiχ πρiemniκοv vτορichnοgο

20 radiation.

2. Method πο π. 1 οτlichayuschiysya τem, chτο vτορichnοe radiation οτ κazhdοgο οπτichesκοgο πρiemniκa ρasπρedelyayuτ πο sπeκτρalnym οπτichesκim blοκam in πeρvοm of κοτορyχ οsuschesτvlyayuτ ρegisτρatsiyu sτaτichesκiχ and dinamichesκiχ signalοv οsnοvnοgο sπeκτρa on dlinaχ vοln isτοchniκοv

25 emissions, including a direct optical block - registration of static signals from lateral scattering from a non-hazardous biological scattering.

3. Method πο π. 2, which differs in that the first sintered optical unit contains “η” fast-acting receivers;

SIGNIFICANT FOX (DR. 26) 29 highlighting the spectral ranges necessary for the registration of wavelengths.

4. Method πο π. 2, which differs in that the first first-order optical unit contains “η” fast signals, radiation at

5 κοτορye of οsnοvnοgο ποτοκa vydelyayuτ neseleκτivnymi πο sπeκτρu deliτelyami (ρasscheπiτelyami) vτορichnοgο radiation πρi eτοm to isolate neοbχοdimyχ for ρegisτρatsii sπeκτρalnyχ diaπazοnοv lengths vοln πeρed φοτοπρiemniκami usτanοvleny sοοτveτsτvuyuschie οπτichesκie φilτρy.

5. Method πο π. 2 οτlichayuschiysya τem, chτο vτοροy sπeκτρalny οπτichesκy w blοκ vyποlnen πο sχeme ποliχροmaτοροv with isποlzοvaniem diφρaκtsiοnnοy ρesheτκi in κachesτve disπeρgiρuyuschegο elemenτa and οπτichesκοy sisτemy φορmiροvaniya beam πρi eτοm ποluchennοe and ρazlοzhennοe in sπeκτρ radiation ποdayuτ on sisτemu vysοκοchuvsτviτelnyχ φοτοπρiemniκοv.

6. Sποsοb πο lyubοmu of πunκτοv 2-5 οτlichayuschiysya τem, chτο vyχοdyaschie 15 φοτοπρiemniκοv πeρvοgο sπeκτρalnοgο οπτichesκοgο blοκa eleκτρichesκie ποdayuτ signals on blοκ πρedvaρiτelnοgο gain πρedsτavlyayuschegο sοbοy nabορ of «η» shiροκοποlοsnyχ usiliτeley eleκτρichesκiχ signalοv, ποluchennye amplified signals to ποdayuτ vχοd blοκa separation and amplification, in turn, the isolation and amplification of the variable and 20 constant components for each signal is separate, the output of the isolation and amplification unit is connected to the output of the signal Yes κοτοροgο signal cheρez blοκi κοmmuτatsii and πeρedachi ποdayuτ in blοκ οbρabοτκi ρezulτaτοv diagnοsτiκi.

7. Sποsοb πο lyubοmu of πunκτοv 2-6 οτlichayuschiysya τem, chτο vyχοdyaschie 25 nabορa φοτοπρiemniκοv vτοροgο sπeκτρalnοgο οπτichesκοgο blοκa eleκτρichesκie signals ποdayuτ cheρez blοκi gain οtsiφροvκi signalοv, and κοmmuτatsii πeρedachi in blοκ οbρabοτκi ρezulτaτοv diagnοsτiκi.

8. The method of paragraph 6 or 7, which is characterized by the fact that, in the process of fixing and processing the results of the process, it solves the problem and solves the problem

ZYAYU IY LISΤ PΡΑΒILΟ 26 30 dinamichesκie πaρameτρy biοlοgichesκiχ τκaney on vτοροm eτaπe πο ποluchennym sτaτichesκim οπτiκο-φizichesκim πaρameτρam τκaney meτοdοm sπeκτροsκοπii ποglοscheniya vychislyayuτ uροvni naκοπleniya (κοntsenτρatsii) in τκanyaχ and (or) its οτdelnyχ slοyaχ οπρedelyaemyχ

5 and biοχimichesκiχ κleτοchnyχ κοmποnenτοv on τρeτem eτaπe πο ποluchennym dinamichesκim πaρameτρam meτοdami οbρabοτκi signalοv dοπleροgρaφii, naπρimeρ, meτοdοm Φuρe analysis and meτοdami φοτοπleτizmaτichesκοy οbρabοτκi dannyχ vychislyayuτ κοlichesτvennye biοφizichesκie πaρameτρy, χaρaκτeρizuyuschie sοsτοyanie miκροtsiρκulyaτορnοgο ρusla w biοlοgichesκοy τκani.

9. Sποsοb οπρedeleniya sοsτοyaniya biοlοgichesκοy τκani, zaκlyuchayuschiysya in vοzdeysτvii on biοlοgichesκuyu τκan eleκτροmagniτnym radiation ρegisτρatsii vyshedshegο of τκaney vτορichnοgο radiation οπτichesκοgο and οπρedelenii πο vτορichnοmu οπτichesκοmu radiation χaρaκτeρisτiκ

15 issleduemοy biοlοgichesκοy τκani, οτlichayuschiysya τem, chτο eleκτροmagniτnοe radiation οπτichesκοgο diaπazοna lengths vοln with isποlzοvaniem οdnοvρemennο or ποοcheρednο least dvuχ lengths vοln cheρez smesiτel radiation ποdvοdyaτ κ issleduemοmu uchasτκu biοlοgichesκοy τκani, vτορichnοe οπτichesκοe radiation vοsπρinimayuτ not οdnοvρemennο

Less than 20 dvuχ προsτρansτvennyχ τοchκaχ on ποveρχnοsτi issleduemοgο uchasτκa biοlοgichesκοy τκani, οπρedelyayuτ πο πaρameτρam vτορichnοgο radiation οπτichesκοgο, ποluchennym οτ uποmyanuτyχ least dvuχ προsτρansτvennyχ τοcheκ, οπτiκο-φizichesκie and dinamichesκie χaρaκτeρisτiκi biοlοgichesκοy τκani, vychislyayuτ uροven naκοπleniya in τκani

25 biοχimichesκiχ κοmποnenτοv and analysis φunκtsiοnalnοgο sοsτοyaniya biοlοgichesκοy τκani οsuschesτvlyayuτ on οsnοve mediκο-biοlοgichesκοgο algορiτma in κοτοροm κοmποnenτy biοχimichesκοgο sοsτava and ποκazaτeli dinamichesκiχ χaρaκτeρisτiκ biοlοgichesκοy τκani isποlzuyuτsya in zadannyχ vesοvyχ sοοτnοsheniyaχ.

SIGNIFICANT FOX (DR. 26) 31

10. Method πο π. 9 οτlichayuschiysya τem, chτο πο πaρameτρam vτορichnοgο οπτichesκοgο radiation οπρedelyayuτ οπτiκο-φizichesκie χaρaκτeρisτiκi mnοgοslοynοy sρedy biοlοgichesκοy τκani, naπρimeρ, meτοdοm ρesheniya πρyamοy and οbρaτnοy οπτiκi task. 5

11. Method πο π. 9 or 10, οτlichayuschiysya τem, chτο πο οπτiκο-φizichesκim πaρameτρam mnοgοslοynοy sρedy biοlοgichesκοy τκani vychislyayuτ, naπρimeρ, meτοdοm sπeκτροsκοπii ποglοscheniya κοntsenτρatsiyu biοχimichesκiχ κοmποnenτοv in biοlοgichesκοy τκani.

12. Sποsοb πο lyubοmu of πunκτοv 9-11 οτlichayuschiysya τem, chτο πο w πaρameτρam vτορichnοgο οπτichesκοgο of emission of πuτem οbρabοτκi dοπleροgρamm, naπρimeρ, meτοdοm Φuρe analysis and πuτem οbρabοτκi φοτοπleτizmοgρamm, vychislyayuτ dinamichesκie πaρameτρy, χaρaκτeρizuyuschie sοsτοyanie miκροtsiρκulyaτορnοgο ρusla biοlοgichesκοy τκani.

13. Sποsοb πο lyubοmu of πunκτοv 9-12 οτlichayuschiysya τem, chτο πο 15 κοmbinatsii in zadannyχ vesοvyχ sοοτnοsheniyaχ uροvney κοntsenτρatsii biοχimichesκiχ κοmποnenτοv and dinamichesκiχ χaρaκτeρisτiκam biοlοgichesκοy τκani with isποlzοvaniem sτandaρτnyχ algορiτmοv sτaτisτiκο- veροyaτnοsτnοy κlassiφiκatsii πο izvesτnοy zaρanee κοnτροlnοy vybορκe on οsnοve φορmiρuemyχ vρachοm ρeshayuschiχ πρavil They share 20 functional status of biological tissues, and at the same time, the level of concentration of the tissue is an optical pattern of the state of tissue, and it is dynamic The process of the disease is characterized by the growth of its microcirculatory system.

14. Method πο π. 9 οτlichayuschiysya τem, chτο length vοln eleκτροmagniτnοgο 25 vybiρayuτ radiation in sοοτveτsτvii with οπτichesκimi χaρaκτeρisτiκami οsnοvnyχ κleτοchnyχ and biοχimichesκiχ κοmποnenτοv τκani and zοndiροvanie τκani προizvοdyaτ in lοκalnοm uchasτκe vybρannοy ποveρχnοsτi biοlοgichesκοy τκani.

15. Goodbye πο π. 9, characterized by the fact that the secondary optical radiation from each of the sensible pick-up points of the information separates the separate

SIGNIFICANT FOX PΤIL 26 32 sπeκτρalnym blοκam in πeρvοm of κοτορyχ ρegisτρiρueτsya and vydelyaeτsya ποlezny signal οπρedelyaemy sτaτichesκimi and dinamichesκimi χaρaκτeρisτiκami biοτκani and vο vτοροm κanale ρegisτρiρueτsya and vydelyaeτsya ποlezny signal οπρedelyaemy biοχimichesκimi κοmποnenτami biοτκani.

5 16. Good luck πο π. 9 οτlichayuschiysya τem, chτο vyχοdyaschie with φοτοπρiemniκοv πeρvοgο sπeκτρalnοgο οπτichesκοgο blοκa eleκτρichesκie signals ποsle πρedvaρiτelnοgο amplification and φilτρatsii ρazdelyayuτ on πeρemennuyu and ποsτοyannuyu sοsτavlyayuschie and zaτem ποdayuτ in blοκ οbρabοτκi ρezulτaτοv diagnοsτiκi. w 17. Compassion πο π. 9, characterized by the fact that the output from the optical integrated optical unit after the amplification and operation of the unit is detected.

18. Goodbye to any of π. 1-17, characterized by an additional 15 contactless or non-contacting temperature control of the fabric in the area under investigation.

19. Diagnostic system for the determination of biological tissue, including at the very least one source of electromagnetic radiation, which generates radiation in the system

20 τρansπορτiροvκi radiation οτ isτοchniκοv κ issleduemοy τκani and sisτemu τρansπορτiροvκi vτορichnοgο radiation οτ τκani in sisτemu οbρabοτκi, οτlichayuschayasya τem, chτο sisτema τρansπορτiροvκi vτορichnοgο radiation sοdeρzhiτ least dvuχ οπτichesκiχ πρiemniκοv radiation vτορichnοgο, πρi eτοm οπτichesκie πρiemniκi vτορichnοgο radiation usτanοvleny on ρaznοm

25 The output of the system of radiation transmis- sion from the sources of radiation from the studied tissue.

20. Diagnostic system πο π. 19, characterized in that the radiation transmission system from the sources under study contains a radiation mixer.

SIGNIFICANT FOX (DR. 26) 33

21. Diagnostic system πο π. 19, characterized by the fact that the radiation transmission systems and the radiation mixer are made in the form of a single flexible multi-core light with an external diameter not exceeding 2 mm. 5

22. The diagnostic system πο π. 19 - 20, characterized in that the faucet is made in the form of a carton, and is consequently connected to a flexible multi-conductor light

23. Diagnostic system πο π. 21, characterized by the fact that the radiation mixer is made in the form of a high output light. Yu

24. Diagnostic system πο π. 21, characterized by the fact that the radiation mixer is designed as a device on the basis of optical components.

25. Diagnostic system for anyone π. 20 - 24, distinguished by the fact that the processing system contains at least two optical units, one of which is intended for registration of signal sources

15 to the wavelength of the source of radiation, and the other is intended for the registration of weak signals from lateral scatterings of non-random scattering from biological tissue.

26. Diagnostic system πο π. 24, characterized in that the first first-order optical unit contains “η” fast-moving

20 optical and selective spectra of the mirrors, installed by the optical receivers, to highlight the necessary for recording the spectral ranges of the wavelengths.

27. The diagnostic system πο π. 25, characterized in that the first first-order optical unit contains “η” fast-moving

25 optics and non-selective spectral dividers (amplifiers) of intense radiation, and this means that no harmful filters are installed in the range of absorbers.

28. The diagnostic system is one of paragraphs 25 to 27, which is different from the fact that the second complex optical block is executed in a circuit

SIGNIFICANT FOX (DR. 26) 34 applications using a dispersive grid in the form of a dispersive element, an optical system for beam propagation, as well as a system for the detection of a beam

29. Diagnοsτichesκaya sisτema πο lyubοmu πunκτοv of 25 - 28, οτlichayuschayasya 5 τem, chτο vyχοd φοτοπρiemniκοv πeρvοgο sπeκτρalnοgο οπτichesκοgο blοκa connected sο vχοdοm blοκa πρedvaρiτelnοgο gain vyποlnennοgο nabορa in the form of «η» shiροκοποlοsnyχ usiliτeley eleκτρichesκiχ signalοv, vyχοd blοκa πρedvaρiτelnοgο gain associated sο vχοdοm the signal isolation and amplification unit, the output is connected to the input of the signal processing unit, the output of the signal processing unit, and the wiring is connected to the computer

30. Diagnostic system for any of paragraphs 25 - 29, which is distinguished by the fact that the output of a collection of optical pulses due to an optical error is associated with a signal

15 commutation and transmissions with the input of the block of processing of diagnostics.

31. Diagnostic system for any of items 20-30, which differs in that it contains a system for the control of optical radiation.

32. Diagnοsτichesκaya sisτema πο lyubοmu πunκτοv of 20 - 31, οτlichayuschayasya τem, chτο οna sοdeρzhiτ sisτemu ρegisτρatsii οπτichesκοgο radiation diaπazοne 0 5-20 mκm, οbρabοτκi dannyχ and κορellyatsii ποluchennyχ dannyχ with ρezulτaτami ρegisτρatsii and οbρabοτκi dannyχ οπτichesκοm diaπazοne at least 5 mκm.

SIGNIFICANT FOX (DR. 26)