Zheng Chuna, Wang Peiping, Ke Changmin*
The Fifth Affiliated Hospital of Sun Yat-Sen University, Zhuhai 519000, China
Objective: to analyze the application value of ultra pulse CO2 lattice laser in the treatment of facial rejuvenation. Methods: from January 2018 to December 2019, 120 patients with facial rejuvenation were selected and analyzed retrospectively. Observe the clinical efficacy and complications of the patients. The clinical efficacy is evaluated by the indicators after treatment. Results: the results of this study showed that after treatment, the improvement of all indicators of the patients was relatively good, in which the total effective rate of capillary dilation was the highest, reaching 95.0%; the control of pigmentation with the lowest total effective rate was also 80.0%, which confirmed the therapeutic effect of ultra pulse carbon dioxide lattice laser on the patients. The difference of data results was significant (P < 0.05). In addition, no serious complications occurred in all patients, only slight persistent erythema. Conclusion: Ultra pulse CO2 lattice laser can play a significant clinical effect in the treatment of facial rejuvenation, and the incidence of complications is less. It is a relatively safe and effective way.
Ultra pulse co2 lattice laser; Facial rejuvenation; Application method
Zheng Chuna, Wang Peiping, Ke Changmin. The Application of Super Pulse Carbon Dioxide Lattice Laser in the Treatment of Facial Rejuvenation. Frontiers in Medical Science Research (2020) Vol. 2 Issue 1: 69-73. https://doi.org/10.25236/FMSR.2020.020110.
 Jin Lei, Zhenming Hao, Lifeng Yu, et al (2015). Clnical observation, of the effects of lattice ultra pulse carbon dioxide laser combined with traditional Chinese medicine on the treatment of hyperplastic scar. Zhonghua shao shang za zhi = Zhonghua shaoshang zazhi = Chinese journal of burns, vol.31, no.3, pp.45-45.
 Kai Wei,Qidong Yang,Xujing Yang, et al (2019). Mechanical analysis and modeling of metallic lattice sandwich additively fabricated by selective laser melting. Thin-Walled Structures, pp.125-126.
 Zhibo Ma, David Z Zhang, Fei Liu, et al (2019). Lattice structures of Cu-Cr-Zr copper alloy by selective laser melting:Microstructures, mechanical properties and energy absorption. Materials & Design, pp.189-190.
 Maietta Saverio, Gloria Antonio, Improta Giovanni, et al (2019). A Further Analysis on Ti6Al4V Lattice Structures Manufactured by Selective Laser Melting. Journal of healthcare engineering, pp.256-257.