Dynamics of leucocyte level in the peripheral blood depending on the dosage of repeated infrared laser irradiation in zones of red marrow location

Effects of infrared laser light irradiation at the leucocyte level in the peripheral blood in rats have been studied in the present work. Zones of bone marrow location were repeatedly irradiated with summarized energy density 450 and 112 J/cm². Irradiation with 112 J/cm² resulted in the increase of total leukocyte level in blood. A left shift of leukocyte formula was observed: on the first day - increase of absolute count of band neutrophils, on days 3 and 7 - increase of segmented neutrophils and lymphocytes. Infrared laser irradiation with density 450 J/cm² did not cause any significant drop in the total leukocyte count or shift in the neutrophil and lymphocyte level. The eosinophil level decreased irrespective of irradiated dosage. The monocyte level increased after 450 J/cm² irradiation and decreased after 112 J/cm² irradiation. Thus, multiple laser irradiations of bone marrow with 112 J/cm² caused more pronounced changes in the leukocyte level as compared to 450 J/cm².

лазер, костный мозг, лейкоциты, кровь, laser, bone marrow, leucocytes, blood

1. Бондаренко О.Г., Попов Г.К. Влияние низкоинтенсивного лазерного излучения на эозинофилы, выделенные из периферической крови // Бюлл. экспер. биол. и мед. 2004. Т. 138. № 11. С. 577-580.

2. Головнева Е.С., Гужина А.О., Игнатьева Е.Н. и др. Способ стимуляции выхода стволовых клеток из костного мозга в периферическое кровяное русло // Патент на изобретение RUS 2305573 28.12.2004.

3. Кравченко Т.Г., Головнева Е.С. Краткосрочные эффекты действия лазерного излучения неповреждающей мощности на тучноклеточную популяцию и сосуды костного мозга (экспериментальное исследование) // Вест. Уральск. мед. академ. науки. 2007. № 4. С. 54-57.

4. Кравченко Т.Г., Зарезина А.В., Головнева Е.С. Оценка глубины проникновения лазерного излучения при терапевтическом воздействии методом компьютерного моделирования // Вестн. новых мед. технол. 2007. № 2. С. 202-204.

5. Ayuk S.M., Houreld N.N., Abrahamse H. Collagen production in diabetic wounded fibroblasts in response to low-intensity laser irradiation at 660 nm // Diabetes Technol. Ther. 2012. Vol. 14 (12). Р. 1110-1117.

6. Golovneva E.S. Expression of basic fibroblast growth factor in the course of neoangiogenesis stimulated by high-intensity laser irradiation // Bull. of Exper. Biol. and Med. 2002. Т. 134. № 1. С. 95-97.

7. Kujawa J., Zavodnik I., Lapshina A. Cell survival, DNA, and protein damage in B14 cells under low-intensity near-infrared (810 nm) laser irradiation // Photomed. Laser Surg. 2004. Vol. 22 (6). P. 504-508.

8. Leonida A., Paiusco A., Rossi G. et al. Effects of low-level laser irradiation on proliferation and osteoblastic differentiation of human mesenchymal stem cells seeded on a three-dimensional biomatrix: in vitro pilot study // Lasers Med. Sci. 2013. Vol. 28 (1). P. 125-132.

9. Novoselova E.G., Cherenkov D.A., Glushkova O.V. et al. Effect of low-intensity laser radiation (632.8 nm) on immune cells isolated from mice // Biofizika. 2006. Vol. 51 (3). P. 509-518.

10. Sun X., Wu S., Xing D. The reactive oxygen species-Src-Stat3 pathway provokes negative feedback inhibition of apoptosis induced by high-fluence low-power laser irradiation // FEBS J. 2010. Vol. 277 (22). P. 4789-4802.