RU191109U1 - Skin conditioner - Google Patents

Abstract

Device for assessing the condition of the skin - a utility model relates to medical equipment, namely to diagnostic equipment and is intended for use in dermatological diagnostics by the optical properties of the skin. The proposed utility model is characterized by the fact that it includes a cylindrical fiber, one of the ends of which is a flat surface illuminated by light from the source, and the opposite end of the fiber is a concave spherical surface, in the center of which there is a light detector detecting the light reflected from the skin that hits it from the end attached to the skin of the fiber. The proposed utility model can be used in other areas of technology for a comparative assessment of the reflectivity of various surfaces.

Description

A device for assessing the condition of the skin - a utility model relates to medical equipment, namely to diagnostic equipment and is intended for use in dermatological diagnostics by the optical properties of the skin.

The purpose of the device is to expand the range of diagnostic dermatoscopic equipment, providing the optimal choice for optical diagnostics of the skin.

The proposed utility model is characterized in that it includes a cylindrical fiber, one of the ends of which is a flat surface illuminated by light in a selected part of the spectrum, and the opposite end of the fiber is a concave spherical surface, in the center of which a light detector is installed, while the light flux through the concave the spherical surface of the fiber applied to the skin surface illuminates the central part of the skin region, limited by the size of the end of the fiber, and the reflected light p gistriruetsya light detector.

It is known that symptoms of many diseases can be identified by skin color. If pathologies occur in the internal organs on the surface of the skin, in particular on the face, noticeable changes may occur, and skin problems not associated with internal disorders make up only 5%. (N. Olshevskaya, Diagnosis of diseases by face, 2012, https://bookz.ru/authors/natal_a-ol_6evskaa/diagnost_683/1-diagnost_683.html)

To date, classic instruments for visual diagnosis of the skin are a magnifying glass, binocular glasses, a Wood lamp. All these devices provide only qualitative, subjective information (Dermatoscopy in clinical practice: a guide for doctors under the editorship of NN Potekaev, 2nd ed., Publisher: MDV, 2011, 143 C.) is often supplemented only by a survey patient (Yasutaka Nakata, JP 2002372682 A, 2002).

Most dermatologists and cosmetologists base their advice and recommendations on a subjective visual interpretation of the skin condition. However, this is not always enough for the optimal selection of cosmetic or therapeutic procedures. Visual treatment is not enough for treatment, comprehensive correction and prevention of aging of the skin and soft tissues. An objective diagnosis of skin parameters allows not only to obtain the required information with a high degree of accuracy, but also to determine how effective therapeutic and prophylactic procedures and drugs are.

There is a method, instrumental study of the functional state of the skin using dopplerography, devices for determining the level of humidity and grease (Peretolchina T.F., Sorokina A.E., Method for studying the functional state of the skin of the face with arterial hypertension RF Patent No. 2652735, 2018), however, the method does not provide information about the optical properties of the skin and for its implementation requires complex hardware design.

A known method for diagnosing skin conditions by the efficiency of colony formation of skin fibroblasts in culture, as a parameter that determines the regenerative and proliferative potential of cells (Zorin V.L., Zorina A.I., Cherkasov V.R., Kopnin P.B., Patent RU 2466680, 2012). The method is informative, but complicated in execution, requires special equipment and a long time for its implementation.

A known method for the diagnosis of skin using microcatheters with single thin filaments of optical fibers (Shishkov M., Vouma V.E., Tearney G.J. System and method for optical coherence imaging, USRE43875E1, 2005). The method is difficult to implement and allows obtaining information only from a limited area of integumentary tissues.

A known method for correcting and evaluating skin color using cosmetic preparations containing nano-microparticles that scatter the blue part of the spectrum, and when applied to the skin, it appears whiter, because the diffused yellow and blue light are mixed. Alfano Robert R., Xiaohui Ni, Zevallos M, Changing Skin-Color Perception Using Quantum and Optical Principles in Cosmetic Preparations Patent No .: US 8,518,445 B2, 2007). The method and device for its implementation have a purely cosmetological orientation and are not very informative for the diagnosis of skin diseases.

A device (the closest analogue) for measuring the intensity of light reflected from the skin surface for assessing the condition of the skin (Disposable calibration end-cap for use in a dermoscope and other optical instruments, US 2015018645 A1 01/15/2015), which is a nozzle for a dermoscope containing a light guide, to one end of which a light source with a selected portion of the spectrum is connected, and a light detector configured to register the intensity of light reflected from the skin surface with predetermined spectral characteristics and transmit a signal to the structure of its processing.

The proposed utility model is a device designed to assess the condition of the skin by color characteristics, includes a cylindrical fiber (2), one of the ends of which is a flat surface illuminated by light from a source (1) in a selected part of the spectrum, and the opposite end of the fiber is a concave spherical surface, in the center of which a light detector (3) is installed, while the light flux through the concave spherical surface of the light guide applied to the skin surface (4) illuminates the central part of the skin region, limited by the size of the end of the fiber, and the reflected light is registered by the light receiver.

The device operates as follows:

- the light source (1) provides radiation in a selected part of the spectrum due to the use of light filters (not shown in Fig.), or the use of various light sources with different spectral characteristics;

- light with the selected spectral characteristics along the fiber (2) hits the opposite concave end and focuses on the skin surface (4);

- part of the light reflected from the skin surface (4) falls on a semiconductor, resistor, or other light detector (3), which converts the optical signal into an electric one.

To obtain comparative data, a material surface with known reflective properties, or a surface with reflective properties modeling the properties of conventionally standardized skin can be used.

As a result of the operation of the device, an electrical signal is generated containing information about the intensity of light reflected from the skin surface with predetermined spectral characteristics. Next, the signal is input to one of the known devices for signal processing (not shown in the figure) and / or is recorded by one of the known methods.

As follows from the above, the combination of distinctive features of the claimed device provides a solution to the goal.

As a result of the analysis of the prior art, a source characterized by features identical to all the essential features of the claimed device is not detected, therefore, the claimed device meets the condition of "novelty."

For the claimed technical solution in the form as described in the stated formula of the utility model, there are no obstacles to its implementation with obtaining the above result. Therefore, the claimed technical solution meets the condition of "industrial applicability".

The proposed utility model increases the required variety of diagnostic devices, providing the opportunity for the optimal choice of a dermatological diagnostic method according to the optical properties of the skin. In addition, the proposed utility model can be used in other areas of technology for a comparative assessment of the reflectivity of surfaces.

Claims (1)

A device for measuring the intensity of light reflected from the skin surface for assessing the condition of the skin, comprising a fiber, a light source with a selected portion of the spectrum, and a light detector configured to record the intensity of light reflected from the skin surface with predetermined spectral characteristics and transmitting the received information to a signal processing device, characterized in that the opposite end of the fiber is made in the form of a concave spherical surface, in the center of which tanovlen light detector.

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