SOVREMENNAYA PEDIATRIYA.2018.1(89):73-79; doi 10.15574/SP.2018.89.73

Experience in application of red and blue LED light with infra+red component in the ENT disease treatment in children

Kosakovskyi A. L., Gulyar S. O., Kosakivska I. A., Grushetska N. P., Shukh L. A., Tkachenko Yu. V.

Shupyk National Medical Academy of Postgraduate Education, Kyiv, Ukraine

Bogomolets Institute of Physiology of National Academy of Sciences of Ukraine, Kyiv, Ukraine

National Children's Specialized Hospital "OKHMATDYT", Kyiv, Ukraine

The rationale of the study is conditioned by the need to find non1invasive and non1pharmacological ways of ENT organ treatment in children.

Objective: to study the effects of red and blue LED light with an infrared component on the course of inflammatory ENT diseases in children.

Material and methods. In total 62 patients (the treatment group comprised 50 and the control group – 12) aged from 6 to 18 years with the acute viral and bacterial rhinosinusites (16 and 13 respectively), acute otitis media (23), acute tonsillopharyngitis (10) were under observation in the clinic. There were 33 girls and 29 boys. The curative effect of red-infrared LED radiation, which is generated by the MEDOLIGHT-red device and blue – infra-red one, which is generated by the MEDOLIGHT-BluDoc device, produced by Bioptron AG of Zepter Group, was studied. The red-infrared (640±30 and 880±30 nm) and blue-infrared (470±30 and 880±30 nm) LEDs were used. The power density of light of the apparatus did not exceed 5.35 mW/cm² and 10.1518.2 mW/cm² from a distance of 0-1 cm respectively. A continuous1wave mode with a frequency of 8000 Hz was used for 10 minutes every day in the combination treatment.

Results. It was found that the use of red monochromatic light combining with infrared radiation in the treatment of patients with the acute viral and bacterial rhinosinusites, acute otitis media, acute tonsillopharyngitis contributes to faster reduction of symptoms, pain syndrome, improvement of the function of ENT organs, and the patients' rehabilitation. The use of blue monochromatic light combining with infrared radiation promotes a faster reduction of symptoms of above mentioned diseases, neutralization of inflammation, especially at the initial stage, reducing stress and overall improvement of the ENT organ function.

Conclusions. The obtained results allow to recommend the practical use of Medolight Red and Medolight BluDoc devices with therapeutic purposes in patients with the acute ENT diseases.

Key words: acute inflammatory ENT diseases, treatment, red and blue LED light.

References

1. Antologiya svetoterapii. Meditsinskie BIOPTRON-tehnologii (teoriya, klinika, perspektivyi): Sb. nauchn. tr. (2009). Pod red. S.A. Gulyar. Kiev: Izd-vo In-ta fiziol. im. A.A. Bogomoltsa NAN Ukrainyi.

2. Gulyar S.A. (red.) (2009). Kolorterapiya. 1. Vvedenie v novuyu tehnologiyu lecheniya apparatom BIOPTRON, osnaschennyim tsvetnyimi filtrami. Antologiya svetoterapii. Meditsinskie BIOPTRON-tehnologii (teoriya, klinika, perspektivyi). Kiev: Izd-vo In-ta fiziol. im. A.A. Bogomoltsa NAN Ukrainyi: 686—696.

3. Gulyar S.A. (red.) (2009). Kolorterapiya. 2. Mehanizm deystviya monohromnogo polyarizovannogo sveta kak osnova tsvetoterapevticheskih programm. Antologiya svetoterapii. Meditsinskie BIOPTRON-tehnologii (teoriya, klinika, perspektivyi). Kiev: Izd-vo In-ta fiziol. im. A.A. Bogomoltsa NAN Ukrainyi: 697—706.

4. Gulyar SA, Kosakovskiy AL. (redaktori) (2011). Primenenie BIOPTRON-PAYLER-sveta v meditsine. Uchebno-metodicheskoe posobie dlya studentov i vrachey. 2-e izd., dop. Kiev: Izd-vo IFB NAN Ukrainyi i NMAPO MZ Ukrainyi.

5. Huliar S.O. (2016). Medolait: osnovy likuvalnoi dii svitlodiodnoi tekhniky. 5-e vyd., dop. Kyiv.

6. Huliar S.O., Kosakovskyi A.L. (redaktory). (2006). Zastosuvannia BIOPTRON-PAILER-svitla v medytsyni. Kyiv: Vyd-vo IFB NAN Ukrainy ta KMAPO MOZ Ukrainy.

7. Divocha V.A. (2009). Protivogrippoznaya effektivnost vidimogo polyarizovannogo nekogerentnogo sveta v eksperimente. Pod red. S.A. Gulyar. Antologiya svetoterapii. Meditsinskie BIOPTRON-tehnologii (teoriya, klinika, perspektivyi) Kiev: Izd-vo In-ta fiziol. im. A.A. Bogomoltsa NAN Ukrainyi: 457—460.

8. Divocha V.A., Mikelashvili M.T., Kosteva T.K. (2009). Izuchenie deystviya polyarizovannogo sveta apparata Bioptron pri letalnoy virusnoy infektsii. Pod red. S.A. Gulyar. Antologiya svetoterapii. Meditsinskie BIOPTRON-tehnologii (teoriya, klinika, perspektivyi). Kiev: Izd-vo In-ta fiziol. im. A.A. Bogomoltsa NAN Ukrainyi: 461—469.

9. Karandashov V.I., Paleev N.R., Petuhov E.B., Dzhulini K.G. (2009). Lechenie sinim svetom. Moskva: ID «Tehnika molodezhi».

10. Karandashov V.I., Petuhov E.B., Zrodnikov V.S. (2001). Fototerapiya. Moskva: Meditsina.

11. Karandashov V.I., Petuhov E.B., Zrodnikov V.S. (2004). Kvantovaya terapiya. Moskva: Meditsina.

12. Karandashov V.I. (2013). Biolohichni efekty synoho svitla ta perspektyvy yikh vykorystannia v praktychnii medytsyni. Fotobiolohiia ta fotomedytsyna. 1; 2: 98—106.

13. Kosakovskyi A.L. (2009). Dosvid vykorystannia poliaryzovanoho nekoherentnoho svitla u ditei z LOR-zakhvoriuvanniamy v pisliaoperatsiinomu periodi. Pod red. S.A. Huliar. Antologiya svetoterapii. Meditsinskie BIOPTRON-tehnologii (teoriya, klinika, perspektivyi). Kiev: Izd-vo In-ta fiziol. im. A.A. Bogomoltsa NAN Ukrainyi: 514—515.

14. Kosakovskyi A.L., Kosakivska I.A., Tkach Yu.V., Hrushevska N.P., Shukh L.A. (2017). Likuvannia hostrykh zapalnykh zakhvoriuvan lor-orhaniv u ditei z vykorystanniam chervonoho diodnoho svitla. Materialy KhLVII Mizhnar. nauk.-prakt. konf. Kyiv: 32—34.

15. Laiko A.A. (red.), Kosakovskyi A.L., Zabolotna D.D. ta in. (2013). Dytiacha otorynolarynholohiia. Natsionalnyi pidruchnyk. Kyiv: Lohos.

16. Limanskiy Yu.P., Gulyar S.A. (red.), Tamarova Z.A. (2009). BIOPTRON-analgeziya. 12. Rol tsveta v snizhenii tonicheskoy boli. Antologiya svetoterapii. Meditsinskie BIOPTRON-tehnologii (teoriya, klinika, perspektivyi). Kiev: Izd-vo In-ta fiziol. im. A.A. Bogomoltsa NAN Ukrainyi: 722—731.

17. Limanskiy Yu.P., Gulyar S.A. (red.), Tamarova Z.A. (2009). BIOPTRON-analgeziya. 11. Sravnitelnoe issledovanie analgeticheskogo deystviya krasnogo polyarizovannogo sveta pri applikatsii na ochag boli, protivobolevuyu tochku akupunkturyi i na tseloe zhivotnoe. Antologiya svetoterapii. Meditsinskie BIOPTRON-tehnologii (teoriya, klinika, perspektivyi). Kiev: Izd-vo In-ta fiziol. im. A.A. Bogomoltsa NAN Ukrainyi: 716—721.

18. Panto V.V., Koval H.M., Panto V.I., Huliar S.O. (2017). Vplyv svitlodiodnoho vyprominiuvannia riznykh dovzhyn khvyl na intensyvnist rostu Staphylococcus aureus. SciRise. 7; 4: 16—20.

19. Panto V.V., Koval H.M., Panto V.I., Danko E.M. (2017). Vplyv poliaryzovanoho monokhromatychnoho nekoherentnoho svitla riznykh dovzhyn khvyl na intensyvnist rostu Pseudomonas aeruginosa. Materialy KhLVII Mizhnar. nauk.-prakt. konf. Kyiv: 102—104.

20. Panto V.V., Koval H.M., Panto V.I., Danko E.M. (2017). Vplyv svitlodiodnoho vyprominiuvannia na rist Staphylococcus aureus. Materialy KhLVII Mizhnar. nauk.-prakt. konf. Kyiv: 97—99.

21. Panto V.V., Panto V.I., Koval H.M. (2017). Vykorystannia svitlo-diodnoho vyprominiuvannia u likuvanni hniino-zapalnykh zakhvoriuvan na tli tsukrovoho diabetu. Materialy KhLVII Mizhnar. nauk.-prakt. konf. Kyiv: 64—65.

22. Popov V.D. (2011). Sovremennyie aspektyi lazernoy terapii. Cherkassyi: Vertikal.

23. Musshoff F., Gerschlauer A., Madea B. (2003). Naphazoline intoxication in a child-a clinical and forensic toxicological case. Forensic Sci Int. 134(2—3): 234—237.