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Lasers in Medical Science
Published in: Lasers in Medical Science 4/2019

01-06-2019 | Original Article

Multi-wavelength laser treatments of spider nevi

Authors: Jing Yang, Xiangjie An, Yan Li, Juan Tao

Published in: Lasers in Medical Science | Issue 4/2019

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Abstract

Spider nevi (SN) are one of common vascular diseases. Different treatment techniques have been described for SN previously, including electrocoagulation, argon laser, pulsed dye lasers (PDL), pulsed potassium titanylphosphate laser (KTP), and 1064-nm neodymium yttrium-aluminum-garnet (Nd:YAG) laser. These methods are effective but may require good technical management, multiple treatments, and often result in scarring or pigmentation. Multi-wavelength laser combined with 595-nm PDL followed by 1064-nm Nd:YAG and can be selectively absorbed by hemoglobin in vessels. The 595-nm laser can target shallow vessels whereas the 1064-nm laser may target deeper vessels due to the different penetration capacities of these wavelengths. Moreover, Nd:YAG absorption is remarkable increased following by PDL treatment. Multi-wavelength laser treatments have been successfully used for vascular diseases but there is little experience in SN therapy. Consequently, these treatment parameters have not been established for SN, particularly in Asian patients with Fitzpatrick skin type (FST) IV. Report experience with using multi-wavelength laser for SN treatment in Asian patients with FST IV. Forty-three SN lesions received multi-wavelength laser treatments via a PDL followed by an Nd:YAG laser. The treatment was performed at 7 mm spot size at 9.5–11 J/cm2, 10 ms with PDL, followed by Nd:YAG at 40–50 J/cm2, 15 ms. The laser treatments were performed with a single pass without overlap. Complete resolution was observed in 40 lesions and an 80–90% improvement in the other three lesions after one treatment session. One patient had superficial scarring. Four patients had hyperpigmentation that resolved within 3 months. Multi-wavelength laser treatments are fast and effective interventions for SN treatment in Asian patients with minimal adverse effects when appropriate parameters are set.
Literature
1.
Wenzl JE, Burgert EO Jr (1964) The spider nevus in infancy and childhood. Pediatrics 33:227–232PubMed
2.
Finn SM, Rowland M, Lawlor F, Kinsella W, Chan L, Byrne O, O'Mahony O, Bourke B (2006) The significance of cutaneous spider naevi in children. Arch Dis Child 91:604–605CrossRefPubMedPubMedCentral
3.
Pirovino M, Linder R, Boss C, Kochli HP, Mahler F (1988) Cutaneous spider nevi in liver cirrhosis: capillary microscopical and hormonal investigations. Klin Wochenschr 66:298–302CrossRefPubMed
4.
Li CP, Lee FY, Hwang SJ, Lu RH, Lee WP, Chao Y, Wang SS, Chang FY, Whang-Peng J, Lee SD (2003) Spider angiomas in patients with liver cirrhosis: role of vascular endothelial growth factor and basic fibroblast growth factor. World J Gastroenterol 9:2832–2835CrossRefPubMedPubMedCentral
5.
Clough J, Smith PJ, Ikin N (2013) Spider naevi. Br J Hosp Med (Lond) 74:C86–C88CrossRef
6.
Robinson JK (1980) Electrodesiccation of nevi aranei (“spiders”) and senile angiomas. J Dermatol Surg Oncol 6:794–795CrossRefPubMed
7.
Erceg A, Greebe RJ, Bovenschen HJ, Seyger MM (2010) A comparative study of pulsed 532-nm potassium titanyl phosphate laser and electrocoagulation in the treatment of spider nevi. Dermatol Surg 36:630–635CrossRefPubMed
8.
Arndt KA (1982) Argon laser therapy of small cutaneous vascular lesions. Arch Dermatol 118:220–224CrossRefPubMed
9.
Brauner G, Schliftman A, Cosman B (1991) Evaluation of argon laser surgery in children under 13 years of age. Plast Reconstr Surg 87:37–43CrossRefPubMed
10.
Scheepers JH, Quaba AA (1995) Treatment of nevi aranei with the pulsed tunable dye laser at 585 nm. J Pediatr Surg 30:101–104CrossRefPubMed
11.
Polla LL, Tan OT, Garden JM, Parrish JA (1987) Tunable pulsed dye laser for the treatment of benign cutaneous vascular ectasia. Dermatologica 174:11–17CrossRefPubMed
12.
Becher GL, Cameron H, Moseley H (2014) Treatment of superficial vascular lesions with the KTP 532-nm laser: experience with 647 patients. Lasers Med Sci 29:267–271CrossRefPubMed
13.
Clark C, Cameron H, Moseley H, Ferguson J, Ibbotson SH (2004) Treatment of superficial cutaneous vascular lesions: experience with the KTP 532 nm laser. Lasers Med Sci 19:1–5CrossRefPubMed
14.
15.
Ross EV (2006) Laser versus intense pulsed light: competing technologies in dermatology. Lasers Surg Med 38:261–272CrossRefPubMed
16.
Anderson RR, Parrish JA (1983) Selective photothermolysis: precise microsurgery by selective absorption of pulsed radiation. Science 220:524–527CrossRefPubMed
17.
Roncero M, Canueto J, Blanco S, Unamuno P, Boixeda P (2009) Multiwavelength laser treatment of venous lakes. Dermatol Surg 35:1942–1946CrossRefPubMed
18.
19.
Redisch W, Pelzer RH (1949) Localized vascular dilatations of the human skin, capillary microscopy and related studies. Am Heart J 37:106–113CrossRefPubMed
20.
Rajan V, Varghese B, van Leeuwen TG, Steenbergen W (2009) Review of methodological developments in laser Doppler flowmetry. Lasers Med Sci 24:269–283CrossRefPubMed
21.
Goodman GJ, Roberts S, Bezborodoff A (2002) Studies in long-pulsed potassium tritanyl phosphate laser for the treatment of spider naevi and perialar telangiectasia. Aust J Dermatol 43:9–14CrossRef
22.
Achauer BM, Vander Kam VM, Padilla JF 3rd (1993) Clinical experience with the tunable pulsed-dye laser (585 nm) in the treatment of capillary vascular malformations. Plast Reconstr Surg 92:1233–1241 discussion 1242-1233CrossRefPubMed
23.
Yang J, Guo X, Tong X, Tao J (2017) Treatment of venous lake with multiwavelength 595 and 1064 nm lasers in Asian Fitzpatrick skin type IV patients. Photodermatol Photoimmunol Photomed 33:267–270CrossRefPubMed
24.
Alcantara-Gonzalez J, Boixeda P, Perez-Garcia B, Truchuelo-Diez MT, Gonzalez-Munoz P, Jaen-Olasolo P (2013) Venous malformations treated with dual wavelength 595 and 1064 nm laser system. J Eur Acad Dermatol Venereol 27:727–733CrossRefPubMed
Metadata
Title
Multi-wavelength laser treatments of spider nevi
Authors
Jing Yang
Xiangjie An
Yan Li
Juan Tao
Publication date
01-06-2019
Publisher
Springer London
Published in
Lasers in Medical Science / Issue 4/2019
Print ISSN: 0268-8921
Electronic ISSN: 1435-604X
DOI
https://doi.org/10.1007/s10103-018-2652-0

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