Artificial sources of light used in photomedicine: history of discovery

Keywords: photomedicine, artificial light sources, incandescent lamps, fluorescent lamps, lasers, LEDs

Abstract

Introduction. The history of the development of photomedicine over the past one and a half years is directly related to the history of the development of artificial light sources. And the medical direction of using these sources, as befits the light, has always been extremely bright.
The purpose of this study was to familiarize doctors, scientists, engineers working in the field of photomedicine, with the creators of artificial sources of the light that is used for the rehabilitation, diagnosis, treatment and prevention of the most common human diseases.

Materials and methods. Sources of information were archival documents of scientific libraries, scientific journals, and conference proceedings. The search depth was almost 160 years.
Results. As a result of this work, the names of three outstanding inventors of the first incandescent lamps born in the same 1847 and giving people artificial sun were mentioned again (Russian engineer Alexander Nikolaevich Lodygin, Russian military engineer Pavel Nikolaevich Yablochkov and American electrical engineer Thomas Alva Edison) . The work of the first arc lamps was based on research by the Russian inventor V.V. Petrov and the English naturalist G.Devi. As a result of complex experiments, the Russian physicist S.I. Vavilov discovered in 1924 that the efficiency of luminescent substances is much higher than the efficiency of incandescent lamps. The Nobel laureates of 1964 for fundamental work in the field of quantum electronics, which led to the creation of generators and amplifiers of a new type - masers and lasers, became the American physicist C. Townes and Soviet physicists N.G. Basov and A.M. Prokhorov. In 1960, the laser era began with the light arm of Theodor Harold Meiman, who created the first ruby-crystal laser operating at a wavelength of 694.3 nm.
Then A. Javan, W. Bennet and D. Herriot created a gas (helium-neon) laser. In 1962, a semiconductor laser was created by a group of American (B.Lex, U. Dumke, M.Naten) and independently Soviet scientists (B.M. Vul and others). A carbon dioxide laser (molecular) was created in 1964 by K. Patel. A dye laser was created in 1966 by P. Sorokin and J. Lancard. The “father” of LEDs is considered by the whole world to Nick Holonyak, who in 1962 created the world’s first GaAsP luminescent diode emitting in the red spectrum.
Findings. In the process of evolution of artificial light sources (from incandescent lamps, fluorescent lamps to lasers and LEDs), phototherapy methods were also improved.

Downloads

Download data is not yet available.

References

Skobelkin OK, editor. [The use of low-intensity lasers in clinical practice]. Moscow. 1997. 301 p. (in Russian)

Laryushin AI, Illarionov VE. [Low-intensity lasers in biomedical practice]. Kazan: ABAK Publ.; 1997. 276 p.

(in Russian)

Uilson M. [American scientists and inventors]. Moscow: Znanie Publ.; 1975. 134 p. (in Russian)

Rusanov KV, Rusanova EG. [Pages of the history of photomedicine: a technique for diagnostic transillumination in the 1860s and 1880s]. [Fotobiol. i Fotomed] [Photobiol. and Photomed.]. 2015;12(1,2):74-86. 2016;13(1,2): 125-38. 2017;14(1,2):75-86. (in Russian)

Faradej M. Istoriya svechi [History of the candle]. Moscow: Nauka Publ.; 1980. 108 p. (in Russian)

Hramov YuA. Fiziki Biograficheskij spravochnik [Physics Biographical reference book]. Moscow: Nauka Publ.;

400 p. (in Russian)

Danin DS. Neizbezhnost’ strannogo mira [The inevitability of a strange world]. 3rd ed. Moscow: Molodaya

gvardiya Publ.; 1966. 375 p. (in Russian)

Viner N. Ya – matematik [I am a mathematician]. Moscow: Nauka Publ.; 1967. 356 p. (in Russian)

Nauka i tekhnika SSSR.1917 – 1987.Hronika [Science and technology of the USSR. 1917 - 1987. Chronicle].

Moscow: Nauka; 1987. p. 57. (in Russian)

Hramov YuA. Nauchnye shkoly v fizike [Scientific schools in physics]. Kiev: Naukova dumka Publ.; 1987. 400 p. (in Russian)

Rozhen A. [American celebrity from Transcarpathia]. Zerkalo nedeli [Mirror of the week]. 2007 Jan 20;2(631):14. (in Russian)

Karcev VP. Vsegda molodaya fizika [Always a young physics]. Moscow: Sovetskaya Rossiya Publ.; 1983. 368 p. (in Russian)

Cholakov V. Uchenye i otkrytiya [Scientists and discoveries]. Moscow: Mir Publ.; 1987. 369 p. (in Russian)

Ginzburg VL. O fizike i astrofizike [About physics and astrophysics]. Moscow: Nauka Publ.; 1985.

p. (in Russian)

Source: https://www.elec.ru/news/2019/03/11/svetodiod-i-poluprovodnikovyj-lazer-vidimogo-sveta.html

B.I. Verkin kakim my ego pomnim [Verkin as we remember him]. Kiev: Naukova dumka Publ.; 2007. 384 p. (in Russian)

Shimkov GI, Taranov VV, Kostinik TI. [Ireyfedzh Raed Issa. The use of LED matrices in therapeutic practice].

Fotobiol. ta Fotomed [Photobiol. and Photomed.]. 2001;6(1,2):99-100. (in Russian)

Tondij LD, Korobov AM. [The use of Korobov’s photon matrix “Barva Flex / K” to stimulate physiological body protection measures]. In: Korobov A.M., editor. Materialy XVI Mezhdunarodnoj nauchno-prakticheskoj

konferencii «Primenenie lazerov v medicine i biologii» [Materials of the XVI International scientific-practical

conference “Application of lasers in medicine and biology”]; 2001 Sept 25-28; Feodosia. Kharkov; 2001. p. 28-9. (in Russian)

Lagutin MF. Solnechno-zemnoe vzaimodejstvie i kvantovaya terapiya [Solar-terrestrial interaction and quantum therapy]. Fotobiol. ta Fotomed. [Photobiol. and Photomed.]. 1998;1(1,2):109- 13. (in Russian)

Popov VD, Holin VV. [Laser therapeutic equipment and peripheral devices]. Fotobiol. ta Fotomed. [Photobiol. and Photomed.]. 1999;2(1,2):83-9. (in Russian)

ShevchenkoVL. [The modern concept of building laser therapeutic apparatus]. Fotobiol. ta Fotomed. [Photobiol. and Photomed.]. 1999;2(1,2):90-6. (in Russian)

Korobov AM. [Personal medical laser devices are a new direction in low-intensity laser therapy]. Fotobiol. ta

Fotomed. [Photobiol. and Photomed.]. 2000;3,4:107-10. (in Russian)

Osins’kij VI, Pavlov SV, Tuzhans’kij SЄ, Kamins’kij OS, Temchishena AV. [Laser and photonic sources of light forphotomedicine]. Fotobiol. ta Fotomed. [Photobiol. and Photomed.]. 2010;12(3,4): 91-7. (in Ukrainian)

Korobov AM, Korobov VA. [Photonic-magnetic matrices of A. Korobov-V. Korobov “Barva-FM/24”.

Fotobiol. ta Fotomed. [Photobiol. and Photomed.]. 2012;9(1,2):132-42. (in Russian)

Korobov AM, Korobov VA, Korobov DA, Makogon AN. [Universal photon-magnetic matrix of A. Korobov-V.

Korobov “Barva-FM/24”. Fotobiol. ta Fotomed. [Photobiol. and Photomed.]. 2015;12(1,2):96-101. (in Russian)

Коrobov АМ, Коrobov VА, Lisna ТO. A.Korobov-V. Korobov. Phototherapeutic devices of «Barva» series.

Translation from ukr. Kharkiv: V.N.Karazin KhNU; 2018. 188 p.

Published
2019-11-20
How to Cite
Русанова, Е. Г. (2019). Artificial sources of light used in photomedicine: history of discovery. Photobiology and Photomedicine, (27), 58-69. https://doi.org/10.26565/2076-0612-2019-27-07
Section
Photobiology and experimental photomedicine