白癜风光电治疗进展

刘琴; 梁嫔; 宋继权; 张学军

doi:10.14188/j.1671-8852.2024.0252

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白癜风光电治疗进展

皮肤光电技术前沿 | 更新时间：2024-12-12

- 白癜风光电治疗进展
- Research progress in vitiligo phototherapy
- 武汉大学学报（医学版） 2024年45卷第12期页码：1439-1444
- 作者机构：
  
  1.武汉大学中南医院皮肤科湖北武汉430071
  2.苏州大学附属第四医院（苏州市独墅湖医院）皮肤科江苏苏州215128
- 作者简介：
  
  刘琴，女，1982—，医学博士，副主任医师，主要从事遗传性皮肤病及损容性皮肤病的基础及临床研究，E‑mail：109415013@qq.com
  张学军，男，1955—，医学博士，教授，主任医师，博士生导师，主要从事炎症性皮肤病（如银屑病、白癜风等）及遗传性皮肤病的基础及临床研究，E‑mail：ayzxj@vip.sina.com
- 基金信息：
  
  湖北省财政科研基金资助项目(YYXKNLJS2024008‑03)
- DOI：10.14188/j.1671-8852.2024.0252
  中图分类号： R758.71
- 纸质出版日期：2024-12-25，
  
  收稿日期：2024-04-09，
- 稿件说明：
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刘琴,梁嫔,宋继权等.白癜风光电治疗进展[J].武汉大学学报（医学版）,2024,45(12):1439-1444.

LIU Qin,LIANG Pin,SONG Jiquan,et al.Research progress in vitiligo phototherapy[J].Medical Journal of Wuhan University,2024,45(12):1439-1444.
刘琴,梁嫔,宋继权等.白癜风光电治疗进展[J].武汉大学学报（医学版）,2024,45(12):1439-1444. DOI： 10.14188/j.1671-8852.2024.0252.

LIU Qin,LIANG Pin,SONG Jiquan,et al.Research progress in vitiligo phototherapy[J].Medical Journal of Wuhan University,2024,45(12):1439-1444. DOI： 10.14188/j.1671-8852.2024.0252.

摘要

白癜风是一种慢性、获得性皮肤色素脱失性疾病，患者常因表皮黑色素细胞功能丧失而导致皮肤出现边界清晰的无症状白斑。目前，白癜风的治疗仍是皮肤科的一大难题。近年来，光电技术的发展为白癜风的治疗提供了新的可能，本文就近年来白癜风的光电治疗机制、方法、疗效进行综述。

Abstract

Vitiligo is a chronic

acquired skin depigmentation disease in which patients often develop asymptomatic white spots with clear borders due to the loss of epidermal melanocyte function. At present

the treatment of vitiligo is still a major problem in dermatology. In recent years

the development of photoelectric technology has provided new possibilities for the treatment of vitiligo patients. The mechanisms

methods and therapeutic effects of vitiligo phototherapy in recent years are summarized as follows.

关键词

白癜风紫外线激光治疗

Keywords

VitiligoUltravioletLaserTherapy

references

Bae JM, Jung HM, Hong BY, et al. Phototherapy for vitiligo: A systematic review and meta‑analysis[J]. JAMA Dermatol, 2017, 153(7): 666‑674.

Bishnoi A, Parsad D. Clinical and molecular aspects of vitiligo treatments[J]. Int J Mol Sci, 2018, 19(5): 1509.

Schneider LA, Hinrichs R, Scharffetter‑Kochanek K. Phototherapy and photochemotherapy[J]. Clin Dermatol, 2008, 26(5): 464‑476.

Ermis O,Alpsoy E,Cetin L,et al.Is the efficacy of psoralen plus ultraviolet A therapy for vitiligo enhanced by concurrent topical calcipotriol? A placebo‑controlled double‑blind study[J].Br J Dermatol,2001,145(3): 472‑475.

Anbar TS,El‑Sawy AE,Attia SK,et al.Effect of PUVA therapy on melanocytes and keratinocytes in non‑segmental vitiligo: Histopathological, immuno‑histochemical and ultrastructural study[J]. Photodermatol Photoimmunol Photomed,2012,28(1): 17‑25.

Kassem AA, Abd El‑Alim SH, Asfour MH. Enhancement of 8‑methoxypsoralen topical delivery via nanosized niosomal vesicles: Formulation development, in vitro and in vivo evaluation of skin deposition[J]. Int J Pharm, 2017, 517(1/2): 256‑268.

Pacifico A, Leone G. Photo(chemo)therapy for vitiligo[J]. Photodermatol Photoimmunol Photomed, 2011, 27(5): 261‑277.

Pitzanti G, Rosa A, Nieddu M, et al. Transcutol® P containing SLNs for improving 8‑methoxypsoralen skin delivery[J]. Pharmaceutics, 2020, 12(10): 973.

Westerhof W, Nieuweboer‑Krobotova L. Treatment of vitiligo with UV‑B radiation vs topical psoralen plus UV‑A[J]. Arch Dermatol, 1997, 133(12): 1525‑1528.

Ponsonby AL, Lucas RM, van der Mei IAF. UVR, vitamin D and three autoimmune diseases: Multiple sclerosis, type 1 diabetes, rheumatoid arthritis[J]. Photochem Photobiol, 2005, 81(6): 1267‑1275.

Yazdani Abyaneh M, Griffith RD, Falto‑Aizpurua L, et al. Narrowband ultraviolet B phototherapy in combination with other therapies for vitiligo: Mechanisms and efficacies[J]. J Eur Acad Dermatol Venereol, 2014, 28(12): 1610‑1622.

Yones SS, Palmer RA, Garibaldinos TM, et al. Randomized double‑blind trial of treatment of vitiligo: Efficacy of psoralen‑UV‑a therapy vs Narrowband‑UV‑B therapy[J]. Arch Dermatol, 2007, 143(5): 578‑584.

Taieb A,Alomar A,Böhm M,et al. Guidelines for the management of vitiligo: The European Dermatology Forum consensus[J]. Br J Dermatol, 2013, 168(1): 5‑19.

Thatiparthi A, Martin A, Liu J, et al. Risk of skin cancer with phototherapy in moderate‑to‑severe psoriasis: An updated systematic review[J]. J Clin Aesthet Dermatol, 2022, 15(6): 68‑75.

Karaosmanoglu N, Ozdemir Cetinkaya P, Kutlu O, et al. A cross‑sectional analysis of skin cancer risk in patients receiving narrow‑band ultraviolet B phototherapy: An evaluation of 100 patients[J]. Arch Dermatol Res, 2020, 312(4): 249‑253.

Weischer M, Blum A, Eberhard F, et al. No evidence for increased skin cancer risk in psoriasis patients treated with broadband or narrowband UVB phototherapy: A first retrospective study[J]. Acta Derm Venereol, 2004, 84(5): 370‑374.

Shi Q, Li K, Fu J, et al. Comparison of the 308 nm excimer laser with the 308 nm excimer lamp in the treatment of vitiligo: A randomized bilateral comparison study[J]. Photodermatol Photoimmunol Photomed, 2013, 29(1): 27‑33.

Le Duff F, Fontas E, Giacchero D, et al. 308 nm excimer lamp vs. 308 nm excimer laser for treating vitiligo: A randomized study[J]. Br J Dermatol, 2010, 163(1): 188‑192.

Noborio R, Morita A. Preferential induction of endothelin‑1 in a human epidermal equivalent model by narrow‑band ultraviolet B light sources[J]. Photodermatol Photoimmunol Photomed, 2010, 26(3): 159‑161.

Casacci M, Thomas P, Pacifico A, et al. Comparison between 308 nm monochromatic excimer light and narrowband UVB phototherapy (311‑313 nm) in the treatment of vitiligo: A multicentre controlled study[J]. J Eur Acad Dermatol Venereol, 2007, 21(7): 956‑963.

于学红, 苏芳. 窄谱中波紫外线与308 nm准分子光治疗面部白癜风的疗效[J]. 中华医学美学美容杂志, 2019, 25(2): 143‑146.

Yu XH,Su F.Efficacy of 308 nm monochromatic excimer light and 311 nm narrow band ultraviolet on facial vitiligo[J].Chin J Med Aesthet Cosmetol,2019,25(2): 143‑146.

刘斌, 刘排芹, 王筱梅, 等. 308 nm准分子激光强化与常规等联合治疗儿童非节段型白癜风的效果比较[J]. 中华医学美学美容杂志, 2023, 29(1): 62‑63.

Liu B, Liu PQ, Wang XM, et al. Comparison of the effect of 308 nm excimer laser enhancement and routine treatment on non‑segmental vitiligo in children[J]. Chin J Med Aesthet Cosmetol, 2023, 29(1): 62‑63.

贺楷乔, 李舒丽, 李柏樟, 等. 白癜风光疗复色模式的临床观察及其影响因素分析[J]. 中华皮肤科杂志, 2024, 57(1): 23‑28.

He KQ, Li SL, Li BZ, et al. Clinical observation of repigmentation patterns in patients with vitiligo treated with phototherapy and analysis of their influencing factors[J]. Chin J Dermatol, 2024, 57(1): 23‑28.

El‑Zawahry MB, Zaki NS, Wissa MY, et al. Effect of combination of fractional CO2 laser and narrow‑band ultraviolet B versus narrow‑band ultraviolet B in the treatment of non‑segmental vitiligo[J]. Lasers Med Sci, 2017, 32(9): 1953‑1958.

Afify AA, Zuelfakkar NM, Eshafi MA. Fractional CO2 laser, platelet rich plasma and narrow band ultraviolet B in the treatment of vitiligo (a randomized clinical trial)[J]. Lasers Med Sci, 2021, 36(7): 1479‑1486.

Hu YX, Qi XY, Hu YQ, et al. Effects of CO2 fractional laser therapy on peripheral blood cytokines in patients with vitiligo[J]. Dermatol Ther, 2019, 32(4): e12992.

曾宝英, 罗智华, 温秋娥, 等. Pixel 2 940 nm点阵激光联合他克莫司软膏治疗肢端型白癜风的临床观察[J]. 中国医学创新, 2023, 20(2): 136‑139.

Zeng BY, Luo ZH, Wen QE, et al. Clinical observation of pixel 2 940 nm fractional laser combined with tacrolimus ointment in the treatment of acrofacial vitiligo[J]. Med Innov China, 2023, 20(2): 136‑139.

张倩, 张金娥, 郭森, 等. CO2点阵激光联合氟尿嘧啶/复方倍他米松注射液导入治疗白癜风的临床观察[J]. 中华皮肤科杂志, 2024, 57(1): 34‑38.

Zhang Q, Zhang JE, Guo S, et al. Comparison of the efficacy of fractional CO2 laser combined with topical delivery of fluorouracil versus compound betamethasone injections in the treatment of vitiligo: A clinical observation[J]. Chin J Dermatol, 2024, 57(1): 34‑38.

Chiu YJ, Perng CK, Ma H. Fractional CO2 laser contributes to the treatment of non‑segmental vitiligo as an adjunct therapy: A systemic review and meta‑analysis[J]. Lasers Med Sci, 2018, 33(7): 1549‑1556.

张悦,赵广,孟如松,等. 红外线照射对人表皮黑素细胞影响的研究[J]. 中华皮肤科杂志,2012,45(2): 117‑120.

Zhang Y, Zhao G, Meng RS, et al. Influences of infrared irradiation on human epidermal melanocytes[J]. Chin J Dermatol, 2012, 45(2): 117‑120.

王涛, 许爱娥, 尉晓冬, 等. 三种胎盘制剂联合红外线照射治疗儿童白癜风的临床疗效观察[J]. 中华皮肤科杂志, 2011, 44(11): 815‑817.

Wang T, Xu AE, Yu XD, et al. Evaluation of clinical efficacy of three different placental preparations in the treatment of childhood vitiligo[J]. Chin J Dermatol, 2011, 44(11): 815‑817.

Wu CS, Hu SCS, Lan CC E, et al. Low‑energy helium‑neon laser therapy induces repigmentation and improves the abnormalities of cutaneous microcirculation in segmental‑type vitiligo lesions[J]. Kaohsiung J Med Sci, 2008, 24(4): 180‑189.

Yu HS, Wu CS, Yu CL, et al. Helium‑neon laser irradiation stimulates migration and proliferation in melanocytes and induces repigmentation in segmental‑type vitiligo[J]. J Invest Dermatol, 2003, 120(1): 56‑64.

Yu S, Lan CC E, Yu HS. Mechanisms of repigmentation induced by photobiomodulation therapy in vitiligo[J]. Exp Dermatol, 2019, 28(Suppl 1): 10‑14.

Lan CC E, Wu CS, Chiou MH, et al. Low‑energy helium‑neon laser induces locomotion of the immature melanoblasts and promotes melanogenesis of the more differentiated melanoblasts: Recapitulation of vitiligo repigmentation in vitro[J]. J Invest Dermatol, 2006, 126(9): 2119‑2126.

AlGhamdi KM, Kumar A, Ashour AE, et al. A comparative study of the effects of different low‑level lasers on the proliferation, viability, and migration of human melanocytes in vitro[J]. Lasers Med Sci, 2015, 30(5): 1541‑1551.

Cho H, Kim B, Kim OS, et al. Photochemical reaction to increase melanogenesis using Buddleja officinalis and blue light‑emitting diode irradiation in B16F10[J]. Photodiagnosis Photodyn Ther, 2021, 35: 102456.

Regazzetti C, Sormani L, Debayle D, et al. Melanocytes sense blue light and regulate pigmentation through opsin‑3[J]. J Invest Dermatol, 2018, 138(1): 171‑178.

Winkie MJ,Sakunchotpanit G,Salazar CE,et al. A focused review of visible light therapies for vitiligo[J]. Photodermatol Photoimmunol Photomed,2024,40(1): e12939.

Lodi G, Del Re C, Nisticò SP, et al. Blue light‑emitting diodes for the treatment of localized vitiligo: A retrospective study[J]. J Cosmet Dermatol, 2023, 22(4): 1273‑1278.

Tien Guan ST, Theng C, Chang A. Randomized, parallel group trial comparing home‑based phototherapy with institution‑based 308 excimer lamp for the treatment of focal vitiligo vulgaris[J]. J Am Acad Dermatol, 2015, 72(4): 733‑735.

Zhou YQ, Gao TW, Li CY, et al. Q‑switched ruby laser for depigmentation: A feasible modality to treat vitiligo universalis in children[J]. Indian J Dermatol Venereol Leprol, 2023, 90(1): 115‑117.

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