LT5397B - Mini multipurpose medical laser apparatus - Google Patents

Abstract

The invention relates to medical engineering. Apparatus is used for physiotherapeutic effect of laser radiations in combination with magnetic field on internal and external tissue of biological object. The apparatus has casing having a laser radiator and permanent magnets or electromagnets. The casing is hand one-piece and has a recess in which a control panel, a power supply source, a laser radiator, permanent magnets or electromagnets, a microprocessor and a display and an optical focusing system are mounted. In a carrier of the apparatus, there are fastened exchangeable optical nosepieces, which have the permanent magnets and light stream focusing elements. The laser, the optical focusing system and the optical nosepieces are mounted in such way that geometrical axes thereof are coincident with each other.

Description

The invention relates to the field of medical technology - physiotherapy apparatus for use in the treatment of various diseases in arthrology, traumatology, surgery, cardiology, neurology, otorhinolaryngology, dentistry, pulmonology, gastrology, gynecology, dermatology, proctology, urology, immunology.

Known laser medical devices are described in the claims and patents JP

5-53113, DE 3817603, LT 3279 B, LT 4113 B, whereby anti-inflammatory processes at the focal points of pathology are treated with an ultraviolet or laser beam and a magnetic field, or they are anesthetized by stimulating biological tissues.

The aforementioned apparatus has a number of disadvantages: it is relatively narrow, low-function, non-universal, bulky, has no active parameters for self-monitoring and continuous calibration of energy parameters, does not have power parameters, dosages, informativeness of microcomputer and display screen, awkward carry a jacket, bathrobe or other garment in your pocket and use it both for medical staff and for individual home use, outings, travel, and especially for the disabled.

Because physicians, especially family physicians, are confronted with a wide variety of patient pathologies in practice, it is not profitable for them to use many specialized medical devices. With the emergence of a very important local rehabilitation problem in Lithuania, the expansion of outpatient treatment in rural and rural areas, family physician services, personal use, especially for the disabled, there was a need for multiprofile, multifunctional, versatile, miniature, portable medical devices with multiple functions and procedures and home conditions.

The object of the invention is to create for the user a multi-profile, multifunctional, versatile, non-invasive and sterile 100% effect, compact miniature, portable, convenient and fast attachment to the patient body, simple to operate, stylish competitive combined laser and magnetic for individual use.

The proposed apparatus consists of the following basic units: housing, autonomous power supply, control, parameter control and calibration systems, optical focusing system, interchangeable optical tips, laser and permanent magnets. It has an optical focusing system that enables the collimation, unfolding and compression of the laser beam and easily replaceable optical tips that shape and direct the laser beam in the desired direction depending on the pathological focal area and depth in the body.

It is an object of the present invention that the body of a laser medical device consisting of a laser mounted in a housing and permanent magnets or electromagnets, which fits easily into the hand of a human hand, is integral and contains a monolithic power and electronics control unit in the form of a layered package autonomous power supply, laser with radiator, permanent magnets or electromagnets, microprocessor, control board with control buttons, display, optical focusing system and bracket or special cover.

In addition, the device may have a flat-shaped, easily replaceable adhesive with a protective film or a "brush" tape for convenient and stable attachment to the patient's body.

For specific applications of the device, the laser medical device holder or special cover is fitted with interchangeable optical tips, which consist of permanent magnets or electromagnets and light flux-forming elements whose light-reflecting surfaces are in the form of spatial geometry. In this case, the laser, optical focusing system and interchangeable optical tips are mounted so that their geometry axes overlap.

The invention will be described in more detail using the drawings which show:

Fig. 1 is a first cross-sectional view of the proposed apparatus without interchangeable optical tips;

FIG. 2 - a second embodiment of the proposed apparatus with interchangeable optical tips, cross-section;

FIG. 3 is an image I of the optical tip pointing the laser beam in one direction B ₂ ;

FIG. 4. - Image I of an optical tip for directing a laser beam in bidirectional or circumferential directions B ₃ .

The apparatus consists of a housing 1 incorporating an autonomous power supply 2 and a small semiconductor laser 3 (commercially available, eg DL - 7032-001,

DL -8032 -001, HII - 50, ΗΠ - 4- 250), mounting control board 4, permanent magnets or electromagnets 5, display 6, optical focusing system 7, replaceable optical tips

8, Microprocessor 10.

First embodiment of the apparatus (Fig. 1). The control board 4 has built-in radio elements 9 and a microprocessor 10 which is pre-programmed by a dedicated programmer and controls the power and time parameters of the laser 3, its operating modes (continuous or pulsed), irradiation doses, exposure time, standby battery level 2. performs self-monitoring and calibration of laser energy and other parameters and modes. The laser 3 and microprocessor 10 are turned on and off by a button 11, and the button 12, via the distribution connector 13, turns on the power supply to the device. The laser 3 is mounted in a special radiator 14 for heat transfer, which is housed in a holder 15 housed in a housing 1. The holder 15 may be replaced by a special cover containing permanent magnets and the cover itself secured, for example, by screws to the housing 1 of the laser. the shape of the stream may be compressed - dotted 16, collimated 17, unfolded 18. The apparatus body 1 is secured to the patient's body with adhesive tape 19, and a protective glass 20 is mounted in front of the optical focusing system 7 on the radiator 14 to charge the apparatus. a charger (for a mobile phone) 21 which is electrically connected to a distribution terminal 13 by a cable 22. The battery 2 is electrically connected to a control board 4 connected to a laser 3, an electromagnet 5, a display 6, a microprocessor 10, a buttons 11, 12, a connector 13. , with a charger 21. Electromagnets 5 can be p interchangeable with permanent magnets.

The second embodiment of the apparatus (Fig. 2) is the same apparatus as shown in Fig. 1, but having an optical replaceable nozzle 8, which is mounted in a holder 15 or in a special cover with permanent magnets mounted thereon. The nozzle 8 deflects the beam 3 generated by the laser 3, the rear forming surface of the laser beam "A" having any desired geometry shape, e.g., semi-spherical, semi-toroidal, conical, flat and the like. Individual views I of the design of the interchangeable optical tip 8 are shown in the drawings in Figs. 3, FIG. 4. The tips consist of an optical tube 24 incorporating light-reflecting elements 25, 26 and permanent magnets 27. The reflecting surface of element 25 (Fig. 3) may have a curved, semi-spherical, semi-cylindrical, semi-toroidal, flat or other shape. The element 26 (Fig. 4) may have the shape of a symmetrical reflecting surface, e.g., cone, prism, toroid, oblique planes. The inner portion of the optical nozzles 24 (Figs. 3, 4) may be hollow or may have a cylindrical light-transmitting optical rod (not shown in the drawings) guiding the laser beams 28 along the axis of the nozzle geometry.

The machine works as follows. The apparatus (Fig. 1) is attached to the patient's body with an adhesive tape 19, which can be changed into a brush-type tape. Button 11 turns on laser 3 power from battery 2 and activates microprocessor 10 which controls laser 3 power parameters, modes, irradiation doses, exposure time, electromagnet 5 parameters, battery 2 charge level and displays them continuously on display 6. The microprocessor 10, pre-programmed by a dedicated programmer, also performs continuous monitoring and calibration of the energy parameters and modes of the laser 3 and electromagnets 5 during operation. By varying the distance between the laser 3 and the optical focusing system 7, the shape of the laser beam can be changed from a point 16 to a spread 18.

The laser 3, the optical focusing system 7, is protected from contamination by a light-transmitting glass 20 which is protected against dust by moisture.

Optical tips 8 (Fig. 2) are used in the gynecology, for example for the treatment of ovarian inflammation, in dentistry for the treatment of periodontal disease (Fig. 2), which generates the laser beam Bj. When using the device in proctology, other optical tips with one-sided B ₂ (Fig. 3) or two-sided B ₃ (Fig. 4) laser beam and a constant magnetic field M field simultaneously directed to the pathological focal point are used in urology. The generated laser 3 rays 28 (Fig. 3) fall on the reflective curvilinear surface 29 of the element 25, and the reflected one-sided rays B _{2 are} directed to the pathological focal area (not shown). In the next drawing (Fig. 4), the rays 28 of the laser 3 generated fall into the spatially shaped element 26 reflected from the light-reflecting surface 30. These rays B _{3 are} directed in either direction or in a circle, depending on the geometry of the reflecting surface 30 of the element 26.

The apparatus is manufactured and assembled from known or used elements or components in practice. For example, semiconductor laser is type DL - 7032-001, DL -8032 -001, ΗΠ - 50, ΗΠ - 4- 250, microprocessor type ATMEGA8L, battery and display from Nokia, Siemens or others, optical focusing system consists of positive optics lens control system mounted on chip type IRF7307, 74HC244 and others. All of this is easily mounted in a metal, wooden or plastic lightweight (miniature) case that fits comfortably in a bathrobe or jacket pocket.

Claims (3)

DEFINITION OF INVENTION 1. A multi-profile miniature laser medical device consisting of a laser mounted in a housing and permanent magnets, characterized in that the housing, which fits easily in the hand of a human hand, is integral and contains a monolithic power and electronics control unit in the form of a layered package autonomous power supply, laser with radiator, permanent magnets or electromagnets, microprocessor, control board with control buttons, display, optical focusing system and bracket or special cover. 2. A multi-profile miniature laser medical device according to claim 1, characterized in that the holder or special cover is fitted with interchangeable optical tips having permanent magnets and flux-forming elements whose light-reflecting surfaces are in the form of a spatial geometry and a laser, an optical focusing device. The system and the interchangeable optical tips are mounted so that their geometry axes overlap. Multi-profile miniature laser medical device according to claim 1, characterized in that the device has a flat-shaped, easily replaceable adhesive with a protective film or a "brush" shaped band for attaching the device to the patient's body.