High Power Laser and Particle Beams, Volume. 34, Issue 1, 011012(2022)

1064 nm laser induced thermal injure in mice skin with different laser duration

Xun Zhou1...2, Qiong Ma1, Zhibo Liu1 and Hongxiang Kang1,* |Show fewer author(s)
Author Affiliations
  • 1Institute of Radiation Medicine, Academy of Military Medical Science, Academy of Military Science PLA China, Beijing100850, China
  • 2Information and Communication Engineering College, North University of China, Taiyuan 030051, China
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    References(12)

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    [2] Hu Xinhua, Fang Qiyin, Cariveau M J, et al. Mechanism study of porcine skin ablation by nanosecond laser pulses at 1064, 532, 266, and 213 nm[J]. IEEE Journal of Quantum Electronics, 37, 322-328(2001).

    [4] Chalermsuwiwattanakan N, Rojhirunsakool S, Kamanamool N, et al. The comparative study of efficacy between 1064-nm long-pulsed Nd: YAG laser and 595-nm pulsed dye laser for the treatment of acne vulgaris[J]. Journal of Cosmetic Dermatology, 20, 2108-2115(2021).

    [6] Zhang Mengli, Huang Yuqing, Wu Qiuju, et al. Comparison of 1064-nm and dual-wavelength (532/1064-nm) picosecond-domain Nd: YAG lasers in the treatment of facial photoaging: a randomized controlled split-face study[J]. Lasers in Surgery and Medicine, 53, 1158-1165(2021).

    [7] Kim J Y, Jung H J, Kim D S, et al. The effect of 1320 nm Nd: YAG laser and long-pulsed 1064 nm Nd: YAG laser irradiation on hairless mouse skin[J]. Korean Journal of Dermatology, 42, 385-391(2004).

    [9] Won K H, Lee S H, Lee M H, et al. A prospective, split-face, double-blinded, randomized study of the efficacy and safety of a fractional 1064-nm Q-switched Nd: YAG laser for photoaging-associated mottled pigmentation in Asian skin[J]. Journal of Cosmetic and Laser Therapy, 18, 381-386(2016).

    [10] Graham S J, Bronskill M J, Henkelman R M. Time and temperature dependence of MR parameters during thermal coagulation of ex vivo rabbit muscle[J]. Magnetic Resonance in Medicine, 39, 198-203(1998).

    [11] Fan Yingwei, Ma Qiong, Liang Jie, et al. Quantitative and qualitative evaluation of recovery process of a 1064 nm laser on laser-induced skin injury: in vivo experimental research[J]. Laser Physics Letters, 16, 115604(2019).

    [12] Fan Yingwei, Luo Site, Huo Li, et al. An imaging analysis and reconstruction method for multiple-micro-electro-mechanical system mirrors-based off-centre scanning optical coherence tomography probe[J]. Laser Physics Letters, 17, 075601(2020).

    [13] [13] Li Zhifang, Wu Shulian, Cai Shoudong, et al. Segment feature extraction of optical coherence tomography image of mouse''s skin in vivo using mathematical mphology[C]Proceedings of the 2009 2nd International Conference on Biomedical Engineering Infmatics. 2009: 14.

    [14] Kagan R J, Peck M D, Ahrenholz D H, et al. Surgical management of the burn wound and use of skin substitutes: an expert panel white paper[J]. Journal of Burn Care & Research, 34, e60-e79(2013).

    [15] Moritz A R, Henriques F C. Studies of thermal injury: II. the relative importance of time and surface temperature in the causation of cutaneous burns[J]. The American Journal of Pathology, 23, 695-720(1947).

    CLP Journals

    [1] Zhibo Liu, Qiong Ma, Xun Zhou, Yu Wei, Hongxiang Kang. Skin damage in mice induced by different power densities of 1064 nm laser[J]. High Power Laser and Particle Beams, 2023, 35(3): 031001

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    Xun Zhou, Qiong Ma, Zhibo Liu, Hongxiang Kang. 1064 nm laser induced thermal injure in mice skin with different laser duration[J]. High Power Laser and Particle Beams, 2022, 34(1): 011012

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    Paper Information

    Category: Thermal and Mechanical Effects of Laser

    Received: Aug. 1, 2021

    Accepted: --

    Published Online: Jan. 25, 2022

    The Author Email: Kang Hongxiang (khx007@163.com)

    DOI:10.11884/HPLPB202234.210338

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