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Lasers in Medical Science
Published in: Lasers in Medical Science 4/2022

05-02-2022 | Melasma | Review Article

Laser therapy in the treatment of melasma: a systematic review and meta-analysis

Authors: Dihui Lai, Shaona Zhou, Shaowei Cheng, Hongmei Liu, Yong Cui

Published in: Lasers in Medical Science | Issue 4/2022

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Abstract

Melasma is a highly prevalent and cosmetically disfiguring pigmented skin disease. The post-treatment results are often unsatisfactory. A large number of clinical trials have tried to prove the effectiveness of the combination therapy involving laser therapy, but the results have been indeterminate. This study aimed to evaluate the effectiveness of laser treatment for melasma via a systematic review and meta-analysis. We respectively searched 4 databases and clinicaltrials.gov as of June 8, 2021. Two researchers independently searched for literature and extracted data. Study outcomes were computed by weighted mean differences (WMD). All statistical analyses were performed by the Review Manager version 5.3, STATA version 14 software at 95% confidence interval. We obtained 22 eligible studies which involved a total of 694 patients. After the heterogeneity test and sensitivity analysis, we took a subgroup meta-analysis on the before and after treatment of different laser types. We found that most lasers and laser-based combinations were associated with reduced melasma area and severity index (MASI), such as low-fluence Q-switch 1,064-nm Nd: YAG laser (QSNYL) (WMD: − 2.76; 95% CI: − 3.53 to − 1.99), fractional ablative CO2 laser (WMD: − 9.36; 95% CI: − 12.51 to − 6.21), and fractional ablative 2940-nm Er: YAG laser (WMD: − 2,72; 95% CI: − 3.94 to − 1.49). Significant decrease was seen in neither MASI score of non-ablative 1550-nm fractional laser (WMD: − 1.29; 95% CI: − 2.80 to 0.21) and picosecond laser (WMD: − 0.58; 95% CI: − 1.43 to 0.27), nor melanin index (MI) of low-fluence QSNYL treatment (WMD: 10.17; 95% CI: − 4.11 to 24.46). When using laser to treat melasma, various adverse reactions may occur, most of which will resolve quickly without subsequent treatment, such as edema, erythema, scaling, and burning sensation after treatment. However, for patients with darker skin, there are risks of postinflammatory hyperpigmentation and hypopigmentation. The laser and laser-based combination treatment for melasma could significantly reduce the MASI score, which was showed by our systematic review and meta-analysis.
Literature
1.
Sheth VM, Pandya AG (2011) Melasma: a comprehensive update: part I. J Am Acad Dermatol 65(4):689–697PubMedCrossRef
2.
3.
Gupta AK, Gover MD, Nouri K, Taylor S (2006) The treatment of melasma: a review of clinical trials. J Am Acad Dermatol 55(6):1048–1065PubMedCrossRef
4.
Nordlund JJ, Grimes PE, Ortonne JP (2006) The safety of hydroquinone. J Eur Acad Dermatol Venereol 20(7):781–787PubMedCrossRef
5.
Lee HC, Thng TG, Goh CL (2016) Oral tranexamic acid (TA) in the treatment of melasma: a retrospective analysis. J Am Acad Dermatol 75(2):385–392PubMedCrossRef
6.
Kumari R, Thappa DM (2010) Comparative study of trichloroacetic acid versus glycolic acid chemical peels in the treatment of melasma. Indian J Dermatol Venereol Leprol 76(4):447PubMed
7.
Chalermchai T, Rummaneethorn P (2018) Effects of a fractional picosecond 1,064 nm laser for the treatment of dermal and mixed type melasma. J Cosmet Laser Ther 20(3):134–139PubMedCrossRef
8.
Wang YJ, Lin ET, Chen YT, Chiu PC, Lin BS, Chiang HM, Huang YH, Wang KY, Lin HY, Chang TM et al (2020) Prospective randomized controlled trial comparing treatment efficacy and tolerance of picosecond alexandrite laser with a diffractive lens array and triple combination cream in female Asian patients with melasma. J Eur Acad Dermatol Venereol 34(3):624–632PubMedCrossRef
9.
Manuskiatti W, Yan C, Tantrapornpong P, Cembrano KAG, Techapichetvanich T, Wanitphakdeedecha R (2020) A prospective, split-face, randomized study comparing a 755-nm picosecond laser with and without diffractive lens array in the treatment of melasma in Asians. Lasers Surg Med 53(1):95–103PubMedCrossRef
10.
Moubasher AE, Youssef EM, Abou-Taleb DA (2014) Q-switched Nd: YAG laser versus trichloroacetic acid peeling in the treatment of melasma among Egyptian patients. Dermatol Surg 40(8):874–882PubMedCrossRef
11.
Wattanakrai P, Mornchan R, Eimpunth S (2010) Low-fluence Q-switched neodymium-doped yttrium aluminum garnet (1,064 nm) laser for the treatment of facial melasma in Asians. Dermatol Surg 36(1):76–87PubMedCrossRef
12.
Vachiramon V, Sirithanabadeekul P, Sahawatwong S (2015) Low-fluence Q-switched Nd: YAG 1064-nm laser and intense pulsed light for the treatment of melasma. J Eur Acad Dermatol Venereol 29(7):1339–1346PubMedCrossRef
13.
Kim HS, Kim EK, Jung KE, Park YM, Kim HO, Lee JY (2013) A split-face comparison of low-fluence Q-switched Nd: YAG laser plus 1550 nm fractional photothermolysis vs. Q-switched Nd: YAG monotherapy for facial melasma in Asian skin. J Cosmet Laser Ther 15(3):143–149PubMedCrossRef
14.
Moher D, Liberati A, Tetzlaff J, Altman DG (2009) Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. Bmj 339:b2535PubMedPubMedCentralCrossRef
15.
Higgins JP, Altman DG, Gøtzsche PC, Jüni P, Moher D, Oxman AD, Savovic J, Schulz KF, Weeks L, Sterne JA (2011) The Cochrane Collaboration’s tool for assessing risk of bias in randomised trials. Bmj 343:d5928PubMedPubMedCentralCrossRef
16.
Melsen WG, Bootsma MC, Rovers MM, Bonten MJ (2014) The effects of clinical and statistical heterogeneity on the predictive values of results from meta-analyses. Clin Microbiol Infect 20(2):123–129PubMedCrossRef
17.
Trelles MA, Velez M, Gold MH (2010) The treatment of melasma with topical creams alone, CO2 fractional ablative resurfacing alone, or a combination of the two: a comparative study. J Drugs Dermatol 9(4):315–322PubMed
18.
Kroon MW, Wind BS, Beek JF, van der Veen JP, Nieuweboer-Krobotová L, Bos JD, Wolkerstorfer A (2011) Nonablative 1550-nm fractional laser therapy versus triple topical therapy for the treatment of melasma: a randomized controlled pilot study. J Am Acad Dermatol 64(3):516–523PubMedCrossRef
19.
Park KY, Kim DH, Kim HK, Li K, Seo SJ, Hong CK (2011) A randomized, observer-blinded, comparison of combined 1064-nm Q-switched neodymium-doped yttrium-aluminium-garnet laser plus 30% glycolic acid peel vs. laser monotherapy to treat melasma. Clin Exp Dermatol 36(8):864–870PubMedCrossRef
20.
Hong SP, Han SS, Choi SJ, Kim MS, Won CH, Lee MW, Choi JH, Moon KC, Kim YJ, Chang SE (2012) Split-face comparative study of 1550 nm fractional photothermolysis and trichloroacetic acid 15% chemical peeling for facial melasma in Asian skin. J Cosmet Laser Ther 14(2):81–86PubMedCrossRef
21.
Kar HK, Gupta L, Chauhan A (2012) A comparative study on efficacy of high and low fluence Q-switched Nd:YAG laser and glycolic acid peel in melasma. Indian J Dermatol Venereol Leprol 78(2):165–171PubMedCrossRef
22.
Shin JU, Park J, Oh SH, Lee JH (2013) Oral tranexamic acid enhances the efficacy of low-fluence 1064-nm quality-switched neodymium-doped yttrium aluminum garnet laser treatment for melasma in Koreans: a randomized, prospective trial. Dermatol Surg 39(3 Pt 1):435–442PubMedCrossRef
23.
Jalaly NY, Valizadeh N, Barikbin B, Yousefi M (2014) Low-power fractional CO2 laser versus low-fluence Q-switch 1,064 nm Nd: YAG laser for treatment of melasma: a randomized, controlled, split-face study. Am J Clin Dermatol 15(4):357–363PubMedCrossRef
24.
Lee DB, Suh HS, Choi YS (2014) A comparative study of low-fluence 1,064nm Q-Switched Nd: YAG laser with or without chemical peeling using Jessner’s solution in melasma patients. J Cosmet Laser Ther 16(6):264–270PubMedCrossRef
25.
Ustuner P, Balevi A, Ozdemir M (2017) A split-face, investigator-blinded comparative study on the efficacy and safety of Q-switched Nd:YAG laser plus microneedling with vitamin C versus Q-switched Nd:YAG laser for the treatment of recalcitrant melasma. J Cosmet Laser Ther 19(7):383–390PubMedCrossRef
26.
Kong SH, Suh HS, Choi YS (2018) Treatment of melasma with pulsed-dye laser and 1,064-nm Q-switched Nd: YAG laser: a split-face study. Ann Dermatol 30(1):1–7PubMedCrossRef
27.
Garg S, Vashisht KR, Makadia S (2019) A prospective randomized comparative study on 60 Indian patients of melasma, comparing pixel Q-switched NdYAG (1064 nm), super skin rejuvenation (540 nm) and ablative pixel erbium YAG (2940 nm) lasers, with a review of the literature. J Cosmet Laser Ther 21(5):297–307PubMedCrossRef
28.
Yun WJ, Moon HR, Lee MW, Choi JH, Chang SE (2014) Combination treatment of low-fluence 1,064-nm Q-switched Nd: YAG laser with novel intense pulse light in Korean melasma patients: a prospective, randomized, controlled trial. Dermatol Surg 40(8):842–850PubMedCrossRef
29.
Zamanian A, Behrangi E, Hossein Ghafarpour G, Mehran G, Espahbodi R, Hoseinzade Fakhim T, Azizian Z (2015) Effect of hydroquinone plus neodymium-doped yttrium aluminium garnet laser with and without CO2 fractional laser on resistant dermal melasma. J Skin Stem Cell 2(2). https://​doi.​org/​10.​17795/​jssc30290
30.
Dev T, Sreenivas V, Sharma VK, Sahni K, Bhari N, Sethuraman G (2020) A split face randomized controlled trial comparing 1,064 nm Q-switched Nd-YAG laser and modified Kligman’s formulation in patients with melasma in darker skin. Int J Dermatol 59(12):1525–1530PubMedCrossRef
31.
Qu Y, Wang F, Liu J, Xia X (2021) Clinical observation and dermoscopy evaluation of fractional CO(2) laser combined with topical tranexamic acid in melasma treatments. J Cosmet Dermatol 20(4):1110–1116PubMedCrossRef
32.
Badawi AM, Osman MA (2018) Fractional erbium-doped yttrium aluminum garnet laser-assisted drug delivery of hydroquinone in the treatment of melasma. Clin Cosmet Investig Dermatol 11:13–20PubMedPubMedCentralCrossRef
33.
Laothaworn V, Juntongjin P (2018) Topical 3% tranexamic acid enhances the efficacy of 1064-nm Q-switched neodymium-doped yttrium aluminum garnet laser in the treatment of melasma. J Cosmet Laser Ther 20(6):320–325PubMedCrossRef
34.
Kaminaka C, Furukawa F, Yamamoto Y (2017) The clinical and histological effect of a low-fluence Q-switched 1,064-nm neodymium: yttrium-aluminum-garnet laser for the treatment of melasma and solar lentigenes in Asians: prospective, randomized, and split-face comparative study. Dermatol Surg 43(9):1120–1133PubMedCrossRef
35.
Polnikorn N (2008) Treatment of refractory dermal melasma with the MedLite C6 Q-switched Nd:YAG laser: two case reports. J Cosmet Laser Ther 10(3):167–173PubMedCrossRef
36.
Gokalp H, Akkaya AD, Oram Y (2016) Long-term results in low-fluence 1064-nm Q-Switched Nd:YAG laser for melasma: is it effective? J Cosmet Dermatol 15(4):420–426PubMedCrossRef
37.
Katz TM, Glaich AS, Goldberg LH, Firoz BF, Dai T, Friedman PM (2010) Treatment of melasma using fractional photothermolysis: a report of eight cases with long-term follow-up. Dermatol Surg 36(8):1273–1280PubMedCrossRef
38.
Rokhsar CK, Fitzpatrick RE (2005) The treatment of melasma with fractional photothermolysis: a pilot study. Dermatol Surg 31(12):1645–1650PubMed
39.
Neeley MR, Pearce FB, Collawn SS (2010) Successful treatment of malar dermal melasma with a fractional ablative CO2 laser in a patient with type V skin. J Cosmet Laser Ther 12(6):258–260PubMedCrossRef
40.
Geronemus RG (2006) Fractional photothermolysis: current and future applications. Lasers Surg Med 38(3):169–176PubMedCrossRef
41.
Wu DC, Goldman MP, Wat H, Chan HHL (2021) A systematic review of picosecond laser in dermatology: evidence and recommendations. Lasers Surg Med 53(1):9–49PubMedCrossRef
42.
Choi YJ, Nam JH, Kim JY, Min JH, Park KY, Ko EJ, Kim BJ, Kim WS (2017) Efficacy and safety of a novel picosecond laser using combination of 1 064 and 595 nm on patients with melasma: a prospective, randomized, multicenter, split-face, 2% hydroquinone cream-controlled clinical trial. Lasers Surg Med 49(10):899–907PubMedCrossRef
43.
Lyons AB, Moy RL, Herrmann JL (2019) A randomized, controlled, split-face study of the efficacy of a picosecond laser in the treatment of melasma. J Drugs Dermatol 18(11):1104–1107PubMed
Metadata
Title
Laser therapy in the treatment of melasma: a systematic review and meta-analysis
Authors
Dihui Lai
Shaona Zhou
Shaowei Cheng
Hongmei Liu
Yong Cui
Publication date
05-02-2022
Publisher
Springer London
Published in
Lasers in Medical Science / Issue 4/2022
Print ISSN: 0268-8921
Electronic ISSN: 1435-604X
DOI
https://doi.org/10.1007/s10103-022-03514-2

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