Intravenous laser wavelength radiation effect on LCAT, PON1, catalase, and FRAP in diabetic rats

The main purpose of this study is to evaluate the effect of intravenous irradiation of different low-level laser wavelengths on the activity of lecithin-cholesterol acyltransferase (LCAT), paraoxonase (PON1), catalase, and ferric reducing ability of plasma (FRAP) in diabetic rats. First, diabetes wa...

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Bibliographic Details
Published in:Lasers in medical science 2020-02, Vol.35 (1), p.131-138
Main Authors: Amjadi, Ahmad, Mirmiranpour, Hossein, Sobhani, Seyed Omid, Moazami Goudarzi, Niloofar
Format: Article
Language:English
Subjects:
Acyltransferase
Animals
Antioxidants - metabolism
Aryldialkylphosphatase - blood
Blood
Catalase
Catalase - blood
Cholesterol
Continuous wave lasers
Dentistry
Diabetes
Diabetes mellitus
Diabetes Mellitus, Experimental - blood
Diabetes Mellitus, Experimental - enzymology
Diabetes Mellitus, Experimental - metabolism
Diabetes Mellitus, Experimental - therapy
Energy
Enzymes
Intravenous administration
Iron - metabolism
Irradiation
Laser radiation
Lasers
Lecithin
Male
Medicine
Medicine & Public Health
Optical Devices
Optics
Original Article
Paraoxonase
Phosphatidylcholine-Sterol O-Acyltransferase - blood
Photonics
Photons
Quantum Optics
Radiation
Rats
Rodents
Streptozocin
Wavelength
Wavelengths
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Summary:The main purpose of this study is to evaluate the effect of intravenous irradiation of different low-level laser wavelengths on the activity of lecithin-cholesterol acyltransferase (LCAT), paraoxonase (PON1), catalase, and ferric reducing ability of plasma (FRAP) in diabetic rats. First, diabetes was induced in rats using streptozotocin (STZ). Enzymes’ activity was measured in the blood samples and compared before and after intravenous laser blood irradiation. We used four continuous-wave lasers—IR ( λ  = 808 nm), Red ( λ  = 638 nm), Green ( λ  = 532 nm), and Blue ( λ  = 450 nm)—to compare the wavelength’s effect on different enzymes’ activity. Laser power was fixed at 0.01 mW and laser energy was changed by 2-, 4-, 6-, and 8-min time of radiations. The enzymes’ activity of blood samples was measured 2, 6, and 24 h after radiation. The results show an increase in the activity of different enzymes when compare with diabetic non-radiated samples. More importantly, with a constant laser energy, the enzymes’ activity increased with decreasing laser wavelength. It is important to note that with a constant laser energy, as the wavelength decreases, the photon energy increases and the number of photons decrease, while the enzyme’s activity elevation increases. As a result, we can conclude that in intravenous low-level laser therapy, photon energy is more important than the number of photons even if their product, energy, is kept constant.
ISSN:0268-8921
1435-604X
DOI:10.1007/s10103-019-02805-5