RU2609732C2 - Multifunctional laser device (versions) - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: group of inventions relates to medical equipment. Device for laser surgery comprises laser emitter, optical unit, microprocessor control unit with switch locking device and power supply unit. Laser emitter, optical unit and control unit are located in manipulator, which is connected to power supply unit by flexible wire. Device has forced ventilation device, installed in rear part of manipulator. Manipulator case is equipped with ribbed radiator.

EFFECT: invention aim of its two versions is development of multifunctional laser device to achieve technical result, which is increase of functionality, ergonomics and ease of use.

5 cl, 2 dwg

Description

The invention relates to medicine, in particular to laser surgery, and can be used both in general surgery, orthopedics and traumatology, neurosurgery, and in neurology, gynecology, otorhinolaryngology, ophthalmology, dentistry, dermatology, aesthetic medicine, as well as in various fields of therapy where the unacceptable destructive ("lethal") effect of quantum energy.

The operating principle of the claimed apparatus is based on the ability of laser quantum energy to destroy the pathological structures of biological tissue, which makes it possible to use the claimed device both in cases of non-ablative (non-destructive) effects: laser hyperthermia, photodynamic therapy of some cancers of the skin, subcutaneous tissue and mucous membranes, and ablative (destructive) effects on biological tissue: laser coagulation, vaporization, cutting.

The inventive device can also be used in cases of therapeutic effect in the treatment of the musculoskeletal system (arthritis, arthrosis, plantar tendonitis, calcaneal spur, osteochondrosis of the spine, etc.), otorhinolaryngology, neurology, gynecology, in general therapy.

It is known "Crystal medical device" Crystal "(Patent of the Russian Federation No. 2110874, MPK-7 A61N 5/06, А61В 18/22, published on 08/20/2001, trademark" Laser diode surgical device "LAHTA-MILON" http: //www.milon.ru/index.phtml?id=9), containing a power supply unit connected to a microprocessor control unit, to which an optical unit is connected, including semiconductor laser sources emitting in the visible and infrared regions of the spectrum, optical fibers from which, which are the components of the optical node alignment of the fiber optic transform The collators are combined into one fiber, made in the form of a dense cylinder with a polished distal end, the output connected to a replaceable fiber-optic instrument having a fiber with a diameter of 200-400 microns, while the power of semiconductor laser sources emitting in the visible region does not exceed 5 W and the power of semiconductor laser sources emitting in the infrared in the range of 780-950 nm and 960-1060 nm does not exceed 25 watts.

A disadvantage of the known device is its structural complexity, which reduces the reliability of the device and increases the cost of the product.

The closest in technical essence to the technical result achieved and selected as a prototype is “Laser Surgery Unit” (Ukrainian Patent No. 75626, IPC А61В 18/20 (2006.01), H01S 3/02 (2006.01), published on December 10, 2012, bull. No. 23, 2012, author - Vinogradsky Alexander Eduardovich), which includes a laser emitter, an optical unit, a microprocessor control unit with a device lock key and a power supply unit, while the laser emitter, optical unit and control unit are located in the manipulator, which is connected by a flexible wire with power unit In addition, the apparatus contains a forced ventilation device installed in the rear of the manipulator, and the manipulator body is equipped with a fin radiator, and the device is configured to connect an optical fiber nozzle or a flexible optical fiber with a collimating adapter, and the control unit is equipped with two buttons and a light and sound indicators, in addition, the control unit is made on a microcontroller, for example, of the Pic16xxx family according to the principle of a pulse-width modulated pulse-area generator, p At the same time, the control unit has a “memory” of the previous operating mode, which is automatically set when the device is turned on again, and the laser emitter is based on laser diodes, with a laser radiation wavelength of 808 nm (445 nm and 650 nm), and the device circuitry is made with the ability to adapt to any of the indicated wavelengths of radiation, while the radiation power range is 1-15 W, and the frequency of the pulses of "continuous" radiation is 5 kHz, the frequency of the modulating pulses is 10 Hz, and the circuitry of the device provides There are 13 installation modes, 10 of which are steps for adjusting the output power, and the remaining 3 are temporary parameters of radiation in the modulation mode, which are 5-10-15 seconds, while the control of the installation of power modes and radiation mode is carried out with one button, and the modes device operation, including and signaling the presence of laser radiation are displayed on a 7-segment LED indicator, in addition, the choice of modes and the operation of the device are accompanied by a sound signal, and the forced ventilation device is made in the form of a low-power cooler.

The disadvantage of the prototype is its insufficiently high functionality, ergonomics and ease of operation, which were found out as a result of long practical work of the Author (the claimed technical solution and prototype) with several versions of the prototype device, which was the reason for the creation of the present invention.

The objective of the invention according to option 1 is the development of a multifunctional laser device in the "mini" version with the achievement of a technical result - increasing functionality, ergonomics and ease of operation.

The task according to option 1 is achieved by the fact that in the "Multifunctional laser device, including a laser emitter, an optical unit, a microprocessor control unit with a device lock key and a power supply, the laser emitter, optical unit and control unit are located in a manipulator, which is connected by a flexible a wire with a power supply, in addition, the device contains a forced ventilation device in the form of a low-power cooler installed in the rear of the manipulator, and the body of the manipulator is equipped with a fin radiator, while the device is configured to connect an optical fiber nozzle or a flexible light guide with a collimating adapter, and the control unit is equipped with buttons and LED light and sound indicators, in addition, the control unit is made on a microcontroller, while the control unit has a “memory »The previous mode of operation, which is automatically set when the device is turned on again, and the device is adapted to adapt to any of the indicated radiation wavelengths, the radiation power range is 1-15 W, and the frequency of the “continuous” radiation pulses is 5 kHz, the frequency of the modulating pulses is 10 Hz, while the device provides several installation and operation modes, the choice of which is accompanied by an audio signal, to control the setting of power modes and radiation time modes, two separate buttons are installed, while the device provides 22 operating modes, 10 of which are steps for adjusting the output power, the remaining 12 are temporary parameters of radiation, Three of them are modulation modes: 5-10-15 seconds, and the remaining 9 modes are modes with the exposure time setting 1-1.5-2-2.5-3-3.5-4-4.5- 5 seconds, with a resolution of 0.5 seconds, in addition, to display the operating modes of the device, including and alarms for the presence of laser radiation, a two-digit (two-digit) 7-segment LED indicator display is installed, and for sound accompaniment of the choice of modes and operation of the device, an audible alarm device is installed, and the signal during surgical procedures differs in tone and volume from the signal during therapeutic procedures in addition, the microcontroller is made on the basis of the Pic16xxx family of microcontrollers according to the principle of a generator with pulse-width modulation of the pulse area, and azerny radiator is made based on laser diodes with the laser wavelength - 808 nm, 445 nm or 650 nm.

Salient features of the claimed device according to option 1, coinciding with the prototype, are the following features:

- laser emitter;

- optical unit;

- microprocessor control unit with a device lock key;

- Power Supply;

- the laser emitter, the optical unit and the control unit are located in the manipulator, which is connected by a flexible wire to the power supply;

- the apparatus contains a forced ventilation device in the form of a low-power cooler installed in the rear of the manipulator, and the manipulator body is equipped with a fin radiator;

- the device is configured to connect an optical nozzle-fiber or a flexible fiber with a collimating adapter;

- the control unit is equipped with buttons and light LED and sound indicators;

- the control unit is made on the microcontroller, while the control unit has a "memory" of the previous mode of operation, which is automatically installed when the device is turned on again;

- the device is adapted to adapt to any of the indicated radiation wavelengths;

- the radiation power range is 1-15 W;

- pulse frequency of "continuous" radiation - 5 kHz;

- the frequency of the modulating pulses is 10 Hz;

- the device provides several modes of installation and operation, the selection of which is accompanied by a sound signal.

Distinctive from the prototype, the essential features of the claimed device according to option 1 are the following features:

- two separate buttons are installed to control the installation of power modes and radiation time modes;

- the device provides 22 operating modes, 10 of which are steps for adjusting the output power, the remaining 12 are temporary radiation parameters, three of which are modulation modes: 5-10-15 seconds, and the remaining 9 modes are modes with exposure time setting 1-1.5-2-2.5-3-3.5-4-4.5-5 seconds, with a resolution of 0.5 sec;

- to display the operating modes of the device, including and signaling the presence of laser radiation, a two-digit (two-digit) 7-segment LED indicator display is installed;

- for soundtracking the choice of modes and operation of the device, a sound alarm device is installed, and the signal during surgical procedures differs in tone and volume from the signal during therapeutic procedures.

Private distinctive from the prototype of the essential features of the claimed device according to option 1 are the following features:

- the microcontroller is based on the Pic16xxx family of microcontrollers according to the principle of a pulse-width modulated pulse-area generator;

- the laser emitter is based on laser diodes with a wavelength of laser radiation of 808 nm, 445 nm or 650 nm.

The objective of the invention according to option 2 is the development of a multifunctional laser apparatus in the "desktop" version with the achievement of a technical result - increasing functionality, ergonomics and ease of use.

The task of option 2 is achieved by the fact that in the "Multifunctional laser apparatus", which includes a laser emitter, an optical unit, a microprocessor control unit with a device lock key and a power supply unit, the device is configured to connect an optical fiber nozzle or a flexible light guide with collimating adapter, and the control unit is equipped with buttons and light LED and sound indicators, in addition, the control unit is made on a microcontroller, while the control unit has "Memory" of the previous mode of operation, which is automatically set when the device is turned on again, and the device is adapted to any of the indicated radiation wavelengths, while the radiation power range is 1-15 W, and the pulse frequency of the "continuous" radiation is 5 kHz , the frequency of the modulating pulses is 10 Hz, while the device provides several modes of installation and operation of the device, the choice of which is accompanied by a sound signal, the deck part of the apparatus contains a laser emitter, optical unit, microprocessor control unit with a device lock key, power supply unit and forced ventilation device, and for performing various surgical and therapeutic procedures, a standard SMA-905 connector for connecting various optical fiber optical nozzles is located on the device’s body, including and disposable, while to control the installation of power modes and radiation time modes, two separate

buttons, and the device provides 22 operating modes, 10 of which are steps for adjusting the output power, the remaining 12 are temporary radiation parameters, three of which are modulation modes: 5-10-15 seconds, and the remaining 9 modes are installation modes exposure time 1-1.5-2-2.5-3-3.5-4-4.5-5 seconds, with a resolution of 0.5 seconds, in addition, to display the operating modes of the device, including and alarms for the presence of laser radiation, a two-digit (two-digit) 7-segment LED indicator display is installed, and for sound accompaniment of the choice of modes and operation of the device, an audible alarm device is installed, and the signal during surgical procedures differs in tone and volume from the signal during therapeutic procedures In addition, the microcontroller is based on the Pic16xxx family of microcontrollers according to the principle of a pulse-width modulated pulse generator, la the grain emitter is made on the basis of laser diodes with a wavelength of laser radiation of 808 nm, 445 nm or 650 nm, and for operation in various climatic conditions the forced ventilation device is made in the form of a cooler, which has a separate on / off button.

The essential features of the claimed device according to option 2, coinciding with the prototype, are the following features:

- laser emitter;

- optical unit;

- microprocessor control unit with a device lock key and power supply;

- the device is configured to connect an optical nozzle-fiber or a flexible fiber with a collimating adapter;

- the control unit is equipped with buttons and light LED and sound indicators;

- the control unit is made on the microcontroller, while the control unit has a "memory" of the previous mode of operation, which is automatically installed when the device is turned on again;

- the laser emitter is based on laser diodes, with a wavelength of laser radiation of 808 nm (445 nm and 650 nm);

- the device is adapted to adapt to any of the indicated radiation wavelengths;

- the radiation power range is 1-15 W;

- pulse frequency of "continuous" radiation - 5 kHz;

- the frequency of the modulating pulses is 10 Hz;

- the device provides several modes of installation and operation of the device, the selection of which is accompanied by a sound signal.

Distinctive from the prototype, the essential features of the claimed device according to option 2 are the following features:

- the “desktop” part of the apparatus contains a laser emitter, an optical unit, a microprocessor control unit with a device lock key, a power supply unit and a forced ventilation device;

- for carrying out various surgical and therapeutic procedures, a standard connector of the SMA-905 type is located on the body of the manipulator for connecting various fiber-optic optical nozzles-terminals, including and disposable;

- two separate buttons are installed to control the installation of power modes and radiation time modes;

- the circuitry of the device provides 22 operating modes, 10 of which are steps for adjusting the output power, 12 others are temporary radiation parameters, three of which are modulation modes: 5-10-15 seconds, and the remaining 9 modes are time-setting modes exposure 1-1.5-2-2.5-3-3.5-4-4.5-5 seconds, with a resolution of 0.5 sec;

- to display the operating modes of the device, including and signaling the presence of laser radiation, a two-digit (two-digit) 7-segment LED indicator display is installed;

- for soundtracking the choice of modes and operation of the device, a sound alarm device is installed, and the signal during surgical procedures differs in tone and volume from the signal during therapeutic procedures.

Private distinctive from the prototype of the essential features of the claimed device according to option 2 are the following features:

- the microcontroller is based on the Pic16xxx family of microcontrollers according to the principle of a pulse-width modulated pulse-area generator;

- the laser emitter is made on the basis of laser diodes with a wavelength of laser radiation of 808 nm, 445 nm or 650 nm;

- for operation in various climatic conditions, the forced ventilation device is made in the form of a cooler, which has a separate “on / off” button.

It is known that for the purposes of surgery, the laser beam must be powerful enough to heat the biological tissue above a temperature of 50-70 ° C, which leads to its coagulation, dissection or evaporation.

In laser surgery, the power of laser radiation can be from units to hundreds of watts, for example:

- coagulating lasers - 1-5 W;

- evaporating and shallow cutting - 5-20 W;

- deep cutting - 20-100 watts.

In addition, surgical lasers, depending on the type of active medium, are divided into continuous and pulsed, it should be borne in mind that the division of lasers by power is largely arbitrary, since the radiation wavelength and mode of operation greatly affect the requirements for the output power of surgical lasers.

Between the essential features of the proposed technical solution, indicated in the formula of the utility model, and the technical result achieved with their help, there is the following causal relationship.

Indeed, achieving a technical result — improving functionality, ergonomics and ease of use — is impossible in the absence of any of the essential features specified in the first and second claims. For example, according to option 1:

- if the laser emitter, the optical unit and the control unit are located in the manipulator, this allows ergonomic, without distraction for programming (as is the case with the "desktop" version), to set the operating parameters "with one hand";

- if the manipulator is connected by a flexible wire to the power supply, the power supply can be installed in any convenient place at a considerable distance from the manipulator;

- if the device contains a forced ventilation device installed in the rear of the manipulator, then in addition to the main cooling function, the cooler also serves to suck out the smoke generated during ablative procedures, improving the view of the surgical field;

- if the body of the manipulator is equipped with a fin radiator, the conditions for convection cooling of the laser emitter are improved;

- if the control of the installation of power modes and the radiation time mode is carried out by two separate buttons, then this eliminates the possibility of errors when setting and switching the operation modes of the device;

- if the device provides 22 operating modes, 10 of which are steps for adjusting the output power, and the remaining 12 are temporary radiation parameters, three of which are modulation modes: 5-10-15 seconds, and the remaining 9 modes are installation modes the exposure time is 1-1.5-2-2.5-3-3.5-4-4.5-5 seconds, with a resolution of 0.5 seconds, the functionality of the device as a surgical and therapeutic tool is significantly expanded;

- if the operating modes of the device, incl. and signaling the presence of laser radiation, are displayed on a two-digit (two-digit) 7-segment LED indicator display, the simplicity and ergonomics of reading information are significantly improved;

- if the choice of modes and the operation of the device is accompanied by an audible signal, and the signal during surgical procedures differs in tone and volume from the signal during therapeutic procedures, then this also ergonomically improves the perception of sound information by a specialist when working with the device.

For example, in option 2:

- if all the blocks, controls and controls of the claimed apparatus are located in its "desktop" part, then when performing numerous manipulations of the same type, the ergonomics of working with the apparatus are significantly increased, because “One-time” adjustment of the device to the desired operating mode in the “desktop” part then allows you to quickly, ergonomically and comfortably perform a large number of similar manipulations;

- if all the blocks, controls and controls of the claimed apparatus are located in its “desktop” part, on which there is also a standard connector of the SMA-905 type for connecting various optical fiber optical nozzles, including and disposable, it simplifies the change of nozzles during the transition from one manipulation to another, requiring the use of various optical fiber optical nozzles-terminals;

- if the control of the installation of power modes and the radiation time mode is carried out by two separate buttons, then this eliminates the possibility of errors when setting and switching the operation modes of the device;

- if the circuitry of the device provides 22 operating modes, 10 of which are steps for adjusting the output power, and the remaining 12 are temporary parameters of radiation, three of which are modulation modes: 5-10-15 seconds, and the remaining 9 modes are modes with setting the exposure time 1-1.5-2-2.5-3-3.5-4-4.5-5 seconds, with a resolution of 0.5 seconds, the functionality of the device as a surgical and therapeutic tool is greatly expanded;

- if the operating modes of the device, incl. and signaling the presence of laser radiation, are displayed on a two-digit (two-digit) 7-segment LED indicator display, the simplicity and ergonomics of reading information are significantly improved;

- if the choice of modes and the operation of the device are accompanied by an audible signal, and the signal during surgical procedures differs in tone and volume from the signal during therapeutic procedures, then this also ergonomically improves the perception of sound information by a specialist when working with the device;

- if operation of the device is required in various climatic conditions, then equipping the cooler in the forced ventilation device with a separate “on / off” button expands the functional and technical capabilities of the device.

In the surgical laser, modes with a timer (5, 10 and 15 seconds with a 100-millisecond duration) are used, in particular, if necessary, hyperthermia (heating) of pathological tissue to a temperature of 60-80 ° C. This leads to denaturation of the protein of the pathological tissue, followed by rejection. This manipulation is performed using a cylindrical fiber with an area of the defocused beam at the contact end of 0.6 cm. This method of exposure allows you to warm the fabric to the basal layer, minimizing the possibility of formation of a rough scar.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, with the identification of sources containing information about analogues of the claimed technical solution, allows us to establish that the applicant has not identified analogues that are identical to the claimed technical solution.

Therefore, it can be argued that the claimed invention meets the eligibility condition by the criterion of "novelty."

This technical solution has an inventive step, because in the aggregate of all the essential features specified in the claims, they do not explicitly follow from the prior art for a specialist.

In addition, the invention is industrially applicable, since the claimed technical solution allows its use in the development and manufacture of multifunctional laser medical devices.

The possibility of carrying out the claimed invention is confirmed by the following description of its practical implementation and is illustrated by drawings.

In FIG. 1 shows the appearance of embodiment 1 of the device; in FIG. 2 - view of the front panel of the “desktop” part of the device (option 2).

The inventive laser surgery apparatus 1 (option 1) includes a laser emitter (not shown conditionally), an optical unit 2, a microprocessor control unit (not shown conditionally) with a device lock key, and a power supply unit (not shown conditionally).

In this case, the laser emitter, the optical unit 2 and the control unit are located in the manipulator 3, which is connected by a flexible wire (not shown conventionally) to the power supply.

The apparatus 1 contains a forced ventilation device 4 mounted in the rear of the manipulator 3.

The housing 5 of the manipulator 3 is equipped with a finned radiator 6.

The control unit of apparatus 1 is equipped with buttons (the Start button 7, the power mode selection button 8 and the time mode selection button 9), a two-digit (two-character) 7-segment LED indicator-display 10, and a sound indicator (not conventionally shown).

The control unit is made on a microcontroller, for example, of the Pic16xxx family according to the principle of a generator with pulse-width modulation of the pulse area, while the control unit has a “memory” of the previous operation mode, which is automatically installed when the device is turned on again.

The laser emitter is based on laser diodes, with a wavelength of laser radiation of 808 nm (445 nm and 650 nm), and the circuitry of the device is adapted to any of these radiation wavelengths, while the radiation power range is 1-15 W.

The pulse frequency of continuous radiation is 5 kHz, and the frequency of the modulating pulses is 10 Hz.

The device provides 22 operating modes, 10 of which are steps for adjusting the output power, and the remaining 12 are temporary radiation parameters, three of which are modulation modes: 5-10-15 seconds, and the remaining 9 modes are modes with setting the exposure time 1 -1.5-2-2.5-3-3.5-4-4.5-5 seconds, with a resolution of 0.5 sec

The optical unit 2 of apparatus 1 represents a collimating lens — an Aixiz triplet with the possibility of adapting a fiber with a collimating adapter (not shown conditionally).

Structurally, the claimed apparatus of laser surgery (option 1) is made in the form of a mini-manipulator "gun".

The inventive apparatus of laser surgery 11 (option 2) includes a laser emitter, an optical unit, a microprocessor control unit equipped with a key lock device 12, a forced ventilation device and a power supply unit, which are located in the deck part of the device 13 (all of the above elements, except the key lock device, conditionally not shown).

The microprocessor control unit of the apparatus 1 is equipped with buttons: the “Start” button 14, the power mode selection button 15 and the time mode selection button 16.

On the “desktop” part 13 of the device is a two-digit (two-digit) 7-segment LED indicator display 17 and a standard connector SMA-905 18 for connecting a fiber optic cable.

Inside the “desktop” part there is a sound indicator (not shown conditionally).

The control unit is made on a microcontroller, for example, of the Pic16xxx family according to the principle of a generator with pulse-width modulation of the pulse area, while the control unit has a “memory” of the previous operation mode, which is automatically installed when the device is turned on again.

The laser emitter is made on the basis of laser diodes, with a wavelength of laser radiation of 808 nm (445 nm and 650 nm), and the circuitry of the device is adapted to any of these radiation wavelengths, while the radiation power range is 1-15 W.

The pulse frequency of continuous radiation is 5 kHz, and the frequency of the modulating pulses is 10 Hz.

The device provides 22 operating modes, 10 of which are steps for adjusting the output power, and the remaining 12 are temporary radiation parameters, three of which are modulation modes: 5-10-15 seconds, and the remaining 9 modes are modes with setting the exposure time 1 -1.5-2-2.5-3-3.5-4-4.5-5 seconds, with a resolution of 0.5 seconds.

The optical unit of the apparatus 11 represents a collimating lens — a triplet of Aixiz firm with the possibility of adapting a fiber with a collimating adapter (not shown conditionally).

For various surgical and therapeutic manipulations, a standard connector of the SMA-905 18 type for connecting various optical fiber optical nozzles, including and disposable.

The main technical parameters of the laser surgery apparatus:

- the wavelength of the laser radiation is 808 nm (445 nm and 650 nm);

- pulse frequency of "continuous radiation - 5 kHz;

- frequency of modulating pulses 10 kHz;

- steps for adjusting the output power - 10;

- radiation time in modulation mode: 5-10-15 sec;

- radiation power 7 W;

- control of the installation of power modes and radiation modes is carried out with one button;

- modes are displayed on a 7-segment LED indicator;

- the choice of modes and the operation of the device are accompanied by a sound signal;

- there is a key lock the device;

- weight of the device (handle) - 180 g;

- the device is powered from a ready-made power supply company Mean Well, model S100-7.5, power consumption 50 W, weight of the power supply 700 grams.

Schematic solution of a surgical laser apparatus.

1. Built on the basis of a single controller housing of the Pic16xxx family according to the principle of a generator with PWM (pulse width modulation) pulse area.

2. Has 10 steps of power level, are selected with one button (from 1 to 10th).

3. When the button 8 is pressed further, the 1st mode (pulse-modulated) with the following parameters is activated: pulse duration 100 ms, frequency 10 Hz. Segment “D” is displayed. This mode works for 5 seconds. The next time you press button 8, the “D and G” segment is turned on. The operating time of this mode is 10 seconds. Subsequent mode segments "A, G and D". The operating time of this mode is 15 seconds.

The output to the rated pump current is “smooth”, the duration is 100 milliseconds. There is a memory function, i.e. After turning off the power of the device, the last set mode is saved, which, when turned on again, “offers” work from itself. It can be stored indefinitely. This is useful in cases where you have to work in this mode with homogeneous biological tissues.

Variant 1 of the apparatus housing design (see Fig. 1) in connection with the applied circuitry is the smallest and most importantly ergonomic in the INTERNATIONAL STAND ART IEC 60825-1 product group. Belongs to class 4.

For short-term or short-term temporary operating modes of the apparatus according to option 1, one can use the natural convection possibility of cooling, which is sufficient in this case.

In addition, the design of the radiators allows you to adapt the laser diodes design: TO-56, TO-18, TO-3.

The inventive device options are designed to work with the following laser diodes:

TO-56 - infrared laser diode (808 nm, and 980 nm) with a radiation power of 7 W and 5 W, respectively;

TO-18 - red laser diode (650 nm) with a radiation power of 3 W; TO-3 is a blue laser diode (445 nm) with a radiation power of 1.5 W and 1 W.

Common features for both designs:

1. The main circuit element is a programmable microcontroller with a minimum number of attachments, ensuring high reliability and reliability.

2. Simple operation.

3. Soft start.

4. The use of laser emitters with a long service life (5000-10000 hours), and not "short-lived" (150 hours).

5. The use of laser diodes in housings of various designs.

6. The cost of the devices is several times less than the existing analogues, despite the fact that they are similar in functions, but having their own characteristics.

The results of using the inventive apparatus.

For 2012-2013 and 8 months of 2014, the indicated laser surgery devices performed 230 operations. Of them:

- operations for laser resection (correction) of the ingrown nail - 60;

- operations of laser hyperthermia of benign neoplasms - 50;

- laser ablation operations (removal) of benign neoplasms (fibromas, papillomas, nevi, keratomas, hemangiomas) - 78;

- operations for laser ablation of malignant neoplasms - 42.

The analysis of long-term results (2 months after the operation) showed the presence of relapse of the ingrown nail in 3 cases.

Reasons: structural features of the nail bed in two cases, and trauma in one.

Relapses after removed neoplasms were not observed.

Postoperative scars were normotrophic, aesthetically pleasing.

Keloid scar was noted in two cases. After a double fractional photothermolysis, the keloid equaled the level of the surrounding skin.

Based on the foregoing, we can conclude that the task set in the present invention (options 1 and 2) - the development of a multifunctional laser apparatus - is achieved with the achievement of the technical result - increasing functionality, ergonomics and ease of use.

Claims (5)

1. A multifunctional laser device, including a laser emitter, an optical unit, a microprocessor control unit with a device lock key and a power supply unit, the laser emitter, an optical unit and a control unit located in the manipulator, which is connected by a flexible wire to the power supply unit, in addition, the device contains forced ventilation device in the form of a low-power cooler installed in the rear of the manipulator, and the manipulator body is equipped with a fin radiator, while the device is made with the possibility of by connecting an optical fiber nozzle or a flexible fiber with a collimating adapter, and the control unit is equipped with buttons and LED and sound indicators, in addition, the control unit is made on a microcontroller, while the control unit has a “memory” of the previous operation mode, which is automatically set when when the device is turned on again, and the device is adapted to adapt to any of the indicated radiation wavelengths, while the radiation power range is 1-15 W, and often the number of pulses of "continuous" radiation is 5 kHz, the frequency of the modulating pulses is 10 Hz, while the device provides several installation and operation modes, the choice of which is accompanied by an audio signal, characterized in that two separate buttons are installed to control the installation of power modes and radiation time modes while the device provides 22 operating modes, 10 of which are steps for adjusting the output power, the remaining 12 are temporary radiation parameters, three of which are modulation modes: 5-1 0-15 seconds, and the remaining 9 modes are modes with the exposure time setting of 1-1.5-2-2.5-3-3.5-4-4.5-5 seconds, with a resolution of 0.5 seconds, in addition, to display the operating modes of the device, including and alarms for the presence of laser radiation, a two-digit (two-digit) 7-segment LED indicator display is installed, and for sound accompaniment of the choice of modes and operation of the device, an audible alarm device is installed, and the signal during surgical procedures differs in tone and volume from the signal during therapeutic procedures . 2. A multifunctional laser apparatus including a laser emitter, an optical unit, a microprocessor control unit with a device lock key and a power supply unit, the device being configured to connect an optical fiber nozzle or a flexible light guide with a collimating adapter, and the control unit is equipped with buttons and a LED light and sound indicators, in addition, the control unit is made on the microcontroller, while the control unit has a "memory" of the previous operating mode, which automatically the ki is set when the device is turned on again, and the device is adapted to any of the indicated radiation wavelengths, while the radiation power range is 1-15 W, and the pulse frequency of the "continuous" radiation is 5 kHz, the frequency of the modulating pulses is 10 Hz, the device provides several installation and operation modes of the device, the choice of which is accompanied by an audio signal, characterized in that the “desktop” part of the device contains a laser emitter, an optical unit, a microprocessor ny control unit with the key blocking device, a power supply device and forced ventilation, and for a variety of surgical and therapeutic manipulations on the housing unit is a standard type connector SMA-905 for connecting different light guide optical attachments terminals, including and one-time, while to control the installation of power modes and radiation time modes, two separate buttons are installed, and the device provides 22 operating modes, 10 of which are steps for adjusting the output power, the remaining 12 are temporary radiation parameters, three of which are modulation modes : 5-10-15 seconds, and the remaining 9 modes are modes with the exposure time setting 1-1.5-2-2.5-3-3.5-4-4.5-5 seconds, with a resolution of 0, 5 seconds, in addition, to display the operating modes of the device, including and alarms for the presence of laser radiation, a two-digit (two-digit) 7-segment LED indicator display is installed, and for sound accompaniment of the choice of modes and operation of the device, an audible alarm device is installed, and the signal during surgical procedures differs in tone and volume from the signal during therapeutic procedures . 3. The apparatus according to paragraphs. 1 and 2, characterized in that the microcontroller is based on the Picl6xxx family of microcontrollers according to the principle of a pulse-width modulated pulse generator. 4. The apparatus according to claims. 1 and 2, characterized in that the laser emitter is made on the basis of laser diodes with a wavelength of laser radiation of 808 nm, 445 nm or 650 nm. 5. The device according to p. 2, characterized in that for operation in various climatic conditions, the forced ventilation device is made in the form of a cooler, which has a separate “on / off” button.

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