RU55599U1 - PULSE-PERIODIC LED IRRADIATING DEVICE - Google Patents

Abstract

An irradiating LED device, in the form of a pacifier, which structurally implements the possibility of external programming of the device, in particular, changing the repetition frequency of radiation pulses.

Description

The utility model relates to medical equipment, namely to physiotherapeutic devices that use the radiation energy of the optical spectrum.

Low-intensity optical radiation is widely used in therapy; a new direction has now been formed: quantum therapy.

The most important function of light quanta is the regulation of photomorphogenetic processes. A special role in regulation is played by blue light quanta. The intensity of functioning and regulation of many physiological systems of a person, for example, body temperature, blood pressure, mental and physical activity, are determined by circadian rhythms [1]. Until recently, it was believed that circadian rhythms were controlled by a pigment localized in the retina. This cryptochromic pigment is of flavin nature and absorbs blue light. Recently, it has been established that the cryochromes Cry1 and Cry2, which absorb blue light (440-470nm), are not identical to the photoreceptors responsible for vision, and are found not only in the retina, but also in the skin, blood, heart, liver and other tissues [2].

Cryptochroms Cry1 and Cry2 are found, in particular, in the hormones melatonin and serotonin.

Melatonin and serotonin are the most important hormones that determine the state of "sleep-wakefulness" in the body. The level of concentration of melatonin and serotonin in human blood is subject to significant fluctuations due to the action of various factors such as sleep, light, darkness, season, etc. Melatonin is characterized by a circadian rhythm of level fluctuations in the blood: the maximum values during the night and the minimum during the day. A powerful synchronizing factor that affects circadian rhythms is light, and especially blue light, which controls the content of melatonin in the blood.

Information on the smallest fluctuations of hormones in the blood and the rate of their utilization in tissues, according to the feedback principle, goes to each link of the neuro-endocrine system located above, including the cortex and subcortical structures of the brain [3].

Thus, thanks to feedbacks, it is possible to influence the processes of inhibition or, conversely, the activation of the central nervous system, providing a sedative effect or stimulating, increasing vitality action. Operating frequencies used for excitation of the central nervous system - (5-20 Hz); with its inhibition (40-100 Hz) [4]. Irradiation of blood with light allows you to control the concentration of hormones in the blood; pulse-periodic irradiation allows you to modulate this concentration. The greatest effect is achieved when the mucous membranes are irradiated, where a network of small blood vessels located close to the surface is concentrated.

A device for irradiating the oral cavity and larynx in children is known (RF Patent No. 2074752, 1997; Certificate for Utility Model No. 28035, 2002).

The device consists of a standard pacifier with a silicone transparent shell and body. The nipples are hermetically mounted: a light-emitting diode, a power supply with a microcontroller and a sealed contact. The device is used for the treatment and prevention of acute respiratory viral infections.

The disadvantage of this device is the impossibility of its operation in the frequency, pulse-periodic mode, which reduces the range of application of the device.

The objective of the utility model is the creation of an LED irradiating device operating in a pulse-periodic mode.

This goal is achieved by the use of a microcontroller, which allows for the operation of the LED irradiating device in a pulse-periodic mode, and sealed electrical outputs are used to reprogram the microcontroller.

The device consists of a pacifier with a transparent silicone shell. A light-emitting unit is mounted inside the body of the pacifier-dummy, which consists of an LED, a power source with a battery element, a tight contact, and a microcontroller with sealed electrical leads. Using sealed electrical outputs, you can program the microcontroller, for example, to operate the device in a pulse-periodic mode.

The device works as follows: the pacifier is inserted into the programmer, where it is programmed through sealed electrical inputs.

Insert the pacifier into the baby’s mouth, touch the outside of the nipple body with a permanent magnet; under the influence of a magnetic field, a sealed contact is activated and closes the power circuit of the microcontroller.

The microcontroller, according to a given program, turns the LED on and off with a certain frequency for a given time, for example, with a session duration of 5 minutes. After this time, the microcontroller switches to standby mode, the sealed contact returns to its original state, the LED turns off.

To re-enable the nipple, you must again touch its body with a permanent magnet.

The supply voltage is 3V, the tightness of the nipples and the absence of external switching elements makes it completely safe for the child.

The presence of sealed electrical leads allows you to program the irradiating LED device from the outside to various operating modes.

References.

[one]. George Brainard. "Human melatonin action spectrum: relevance to circadian phototransduction", Thomas Jefferson University Department of Neurology, BRA-1017-432237.

[2]. Aziz Sancar. "CRYPTOCHROME: The Second Photoactive Pigment in the Eye and Its Role in Circadian Photoreseption" Annual Review of Biochemistry, v.69., P.31-67, 2000.

[3]. I.I.Dedov, V.I.Dedov Biorhythms of hormones. M., Medicine, 1992

[four]. V.M. Bogolyubov, G.N. Ponomarenko General physiotherapy. M. - S.-Pb, 1998

Claims (1)

A pulsed periodic LED irradiating device, including a pacifier, a light emitting diode, a power source, a sealed contact and a microcontroller, characterized in that the microcontroller has additional sealed electrical outputs through which it is programmed.