RU91871U1 - LED DEVICE FOR TREATMENT OF AURIEP PERIODONTITIS - Google Patents

Abstract

1. LED device for the treatment of apical periodontitis containing a rectangular pulse generator, a radiation source, an optical fiber and a holder, characterized in that the holder contains a radiation source connected via a flexible electric cable to a pulse generator, a hub for matching the radiation source with an optical fiber and replaceable a tip for fixing interchangeable optical fibers, providing access of the light flux to the top of the root canal. ! 2. The device according to claim 1, characterized in that the emitting diode of the visible radiation spectrum with a wavelength of 0.63-0.66 μm is used as a radiation source. ! 3. The device according to claim 1, characterized in that an infrared radiation LED with a wavelength of 0.95 μm is used as a radiation source. ! 4. The device according to claim 1, characterized in that a semiconductor laser diode is used as a radiation source. ! 5. The device according to claim 1, characterized in that the rectangular pulse generator is made with a smooth or discrete regulator of the frequency, duty cycle and amplitude of the pulses.

Description

The utility model relates to medical equipment, in particular, to physiotherapeutic apparatuses operating on the basis of irradiation of inflamed near-apical tooth tissues with light radiation and is intended for the treatment of apical periodontitis, as well as for the prevention of inflammatory processes in the maxillofacial region.

A known method of treatment of apical periodontitis, which consists in exposure to apical periodontitis with laser radiation with a wavelength of 0.63-0.66 μm (Auth. Certificate. USSR N 1570734, 1986). A disadvantage of the known method and devices based on it are its large size, the need for high-voltage power, in separate specially equipped rooms and rather limited possibilities of exposure and control.

A device for treating deep tooth decay is known, which contains an LED emitter located at the end of the L-shaped holder, which allows exposure to dentin in the carious cavity and the pulp of the tooth (Pat. No. 83418, 2009). The reasons that impede the use of this device in the treatment of apical periodontitis are relative to the fact that the light emitter cannot be inserted into the root canal of the tooth and lead to inflamed periodontitis.

A device consisting of a fiber and a source of monochromatic radiation is known, the fiber is made in the form of a focon (focusing cone) bent at the output end to an angle exceeding a straight line, a cylinder from a magnetophore film is freely placed on the side surface of the focon at its output end, and optical fibers are used as an emitter with a wavelength of 0.63-0.66 μm in the red visible region of the spectrum and 0.95 μm in the infrared region (Pat. No. 2008956, 1994). The use of this form of focone provides the ability to visually control the input into the cavity of the channel of the device, to visually observe this cavity from the inside, and in a form convenient for the doctor outside the oral cavity. The disadvantage of this device is the inability to change the optical fiber for a one-time treatment procedure. This analogue is adopted as a prototype.

The aim of the invention is to increase the efficiency of introducing optical radiation into the root canal directly to inflamed periodontitis, as well as achieving compactness of the device while expanding its functionality through the use of interchangeable optical fibers of different diameters.

This goal is achieved in that in a device consisting of a rectangular pulse generator, a flexible electric cable connecting the pulse generator to a radiation source, a hub for matching the radiation source with an optical fiber located in a removable holder, the holder has a tip for fixing interchangeable optical fibers. In this case, the rectangular pulse generator can be made with a smooth or discrete frequency and duty cycle controller, interchangeable holders can contain various emitters (red and infrared LEDs, as well as semiconductor laser diodes) and various tips for fixing optical fibers of various diameters.

The technical result is an increase in the efficiency of introducing optical radiation into the root canal directly to the inflamed periodontal, through the use of interchangeable flexible optical fibers of different diameters and lengths, increasing the effectiveness of treatment by using various sources of coherent and non-coherent optical radiation, achieving compactness of the device when expanding it functionality through the use of a separate generator of rectangular pulses with adjustable frequency, wells and amplitude, connected to the holder containing the radiation source by means of a flexible electric cable.

The use of optical radiation of different wavelengths allows you to affect the inflamed periodontal tissue, depending on the form of inflammation. In addition, a convenient, robust design improves reliability and accuracy.

A feature of the LED device for the treatment of apical periodontitis is the presence of a hub for matching the source of optical radiation with a fiber and a tip, designed to fix interchangeable optical fibers of various diameters.

The proposed utility model can be implemented as a device shown in the drawing (Fig. 1). In the rectangular pulse generator 1, powered by built-in elements or an electric network, rectangular pulses are formed, the repetition rate of which, duty cycle and amplitude can be regulated, received by means of a flexible electric cable 2 to the radiation source 4, located in the holder 3. Received light pulses through the hub 5 are received into the interchangeable optical fiber 7, fixed in the tip 6. By means of the optical fiber 7, the radiation is introduced into the root canal of the tooth to the inflamed period ontu. For convenience of turning on and off the light exposure, a switch 8 is mounted on the holder.

The device is used as follows. Tooth preparation is carried out: preparation of the carious cavity, tooth cavity, opening of the root canals, removal of pulp decay and drug treatment. The radiation source is disinfected, the generator is switched on to the network, the optical fiber is introduced into the root canal of the tooth and the inflamed periodontal tissues are irradiated for 1-3 or 3-5 sessions. After the last procedure, the root canals of the tooth are dried and filled with filling material, which is covered with a gasket and a seal is applied.

Clinical and laboratory studies have shown that light therapy contributes to the rapid relief of the inflammatory process and accelerates the healing of periapical tissues.

Claims (5)

1. LED device for the treatment of apical periodontitis containing a rectangular pulse generator, a radiation source, an optical fiber and a holder, characterized in that the holder contains a radiation source connected via a flexible electric cable to a pulse generator, a hub for matching the radiation source with an optical fiber and replaceable a tip for fixing interchangeable optical fibers, providing access of the light flux to the top of the root canal. 2. The device according to claim 1, characterized in that the emitting diode of the visible radiation spectrum with a wavelength of 0.63-0.66 μm is used as a radiation source. 3. The device according to claim 1, characterized in that an infrared radiation LED with a wavelength of 0.95 μm is used as a radiation source. 4. The device according to claim 1, characterized in that a semiconductor laser diode is used as a radiation source. 5. The device according to claim 1, characterized in that the rectangular pulse generator is made with a smooth or discrete regulator of the frequency, duty cycle and amplitude of the pulses.