Carbon dioxide laser in the treatment of benign skin neoplasms

Purpose: to assess the effectiveness of carbon dioxide laser light in the treatment of benign skin neoplasms.

Material and methods. The researchers have analyzed outcomes in 1394 patients treated for benign skin neoplasms. In the main group (n = 1184), laser photocoagulation (vaporization) and laser photohydraulic preparation were applied. Laser surgical devices “Lancet-1” and “Lancet-2” in continuous and pulsed modes, power up to 20 W, focused beam up to 1 mm were used. In the control group (n = 210), traditional techniques (excision and electrocoagulation) were applied.

Results. High effi ciency of CO2 laser light for the removal of benign skin neoplasms has been confi rmed. Such a technique has a minimal rate of complications and relapses and satisfactory aesthetic outcomes, compared to the conventional treatment.

Conclusion. Carbon dioxide laser light is highly effective for treating benign skin neoplasms.

1. Geynitz A.V., Dremova E.E. Modern approaches to the treatment of skin keratoses (literature review). Laser Medicine. 2015; 19 (2): 52–56. [In Russ.].

2. Mordovtseva V.V., Volgin V.N., Kakhishvili N.N. Benign skin lesions diffi cult for diagnosing. Dermatology (Suppl. Consilium Medicum). 2012; (1): 26–29. [In Russ.].

3. Shuyukova E.V. Features in the clinical picture of benign epithelial tumors of the skin. Natsional’nye proekty: vyzovy I resheniya. Materialy 55-yy mezhregional’noy nauchnoprakticheskoy meditsinskoy konferentsii. Ulyanovsk; 2020: 123–126.

4. Bryantseva N.G., Shagrov L.L., Shutsky N.A. Incidence of conditionally benign skin neoplasms in the dermatologist’s practice. Byulleten’ Severnogo gosudarstvennogo meditsinskogo universiteta. 2019; 1 (42): 288–289. [In Russ.].

5. Valdina E.A. Diagnosis of skin tumors on an outpatient basis. Hospital replacement technologies. Ambulatornaya khirurgiya = Ambulatory Surgery (Russia). 2006; 2 (22): 8–11. [In Russ.].

6. Kassirov D.A., Kozlov S.V., Lesnova E.I. Laser destruction of benign skin tumors. New technologies in oncology. Novye tekhnologii v onkologii: sbornik materialov ezhegodnoy nauchno-prakticheskoy konferentsii, posvyashchennoy 100-letiyu Samarskogo gosudarstvennogo meditsinskogo universiteta. 2018: 46–47. [In Russ.].

7. Yutskovskaya Ya.A., Kizei I.N., Kusaya N.V. Methods of choice for skin neoplasms in dermatocosmetologist’s practice. Eksperimental’naya i klinicheskaya dermatokosmetologiya. 2006; (5): 2–9. [In Russ.].

8. Grossman P.H., Grossman A.R. Treatment of thermal injuries from CO2-laser resurfacing. Plast Reconstr Surg. 2002; 109 (4): 1435–1442. DOI: 10.1097/00006534-200204010-00036

9. Furukawa F, Mizawa M, Shimizu T. Treatment of dermatosis apulose nigra using a carbon dioxide laser. J Cosmet Dermatol. 2020; 19 (10): 2572–2575. DOI: 10.1111/jocd.13309

10. Maistryonok A.M., Salarev V.V. CO2-laser light for treating seborrheic keratoses. Dostizheniya fundamental’noy, klinicheskoy meditsiny i farmatsii: materialy 76-y nauchnoy sessii VGMU. Vitebsk; 2021: 66–67. [In Russ.].

11. Sinha K., Mallipeddi R., Sheth N., Al-Niaimi F. Carbon dioxide laser ablation for trichoepitheliomas: The largest reported series. J Cosmet Laser Ther. 2018; 20(1): 9–11. DOI: 10.1080/ 14764172.2017.1288257

12. Chavon J.P. Laser, chirurgic et microchirurgic. Principes et applications. La Revue de medicine. 1981; 23(8): 1403–1407.

13. Vasiltsov V.V., Galushkin M.G., Panchenko V.Ya. Dynamic characteristics of the process of channel formation in biological tissues under CO2-laser irradiation. Medical Physics. 2018; 4 (80): 74–79. [In Russ.].

14. Varev G.A., Davydov D.V., Reshetov I.V., et al. Selection of operating modes of surgical CO2-laser in reconstructive plastic surgery. Annaly plasticheskoy, rekonstruktivnoy i esteticheskoy khirurgii. 2017; (1): 50–56. [In Russ.].

15. Shostak I., Khrapach V., Kolibaba O., et al. Experience of surgery treatment of lipoma by use of laser technique (Ukraine). American Scientifi c Journal. 2017; 15 (1): 25–29.

16. Kirschner R.A. Cutaneous plastic surgery with the CO2 laser. J Surg Clin North Am. 1984; 64 (5): 871–883. DOI: 10.1016/ s0039-6109(16)43430-4

17. Abdulkerimov Kh.T., Svetlakova E.N., Grigoriev S.S., et al. Laser technologies. Teaching guide. Yekaterinburg; 2019. [In Russ.].

18. Sun M.D., Halpern A.C. Advances in the etiology, detection, and clinical management of seborrheic keratosis. Dermatology. 2021; 238 (2): 205–207. DOI: 10.1159/000517070

19. Byvaltsev V.A., Belykh E.G., Sorokovikov V.A., Arsent’eva N.I. Scales and questionnaires in vertebrology. Zhurnal Nevrologii i Psikhiatrii imeni S.S. Korsakova. 2011; 2 (9): 51–56. [In Russ.].

20. Kalantaevskaya K.A. Morphology and physiology of human skin. 2nd ed. Kyiv: Zdorovie; 1972. [In Russ.].

21. Yeliseenko V.I. Pathological anatomy and pathogenesis of laser wound. Laser Medicine. 2017; 21 (4); 5–10. [In Russ.].