Journal of Clinical and Aesthetic Dermatology

APR 2018

An evidence-based, peer-reviewed journal for practicing clinicians in the field of dermatology

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34 JCAD JOURNAL OF CLINICAL AND AESTHETIC DERMATOLOGY April 2018 • Volume 11 • Number 4 O R I G I N A L R E S E A R C H Semin Cutan Med Surg. 2012;31(2):126–132. 4. Lee HM, Haw S, Kim JK, et al. Split-face study using a 1,927-nm thulium fiber fractional laser to treat photoaging and melasma in Asian skin. Dermatol Surg. 2013;39(6):879–888. 5. Arora P, Sarkar R, Garg VK, Arya L. Lasers for treatment of melasma and post-inflammatory hyperpigmentation. J Cutan Aesthet Surg. 2012;5(2):93–103. 6. Letokhov VS. Laser biology and medicine. Nature. 1985;316(6026):325–330. 7. Hamblin MR. Introduction to experimental and clinical studies using low-level laser (light) therapy (LLLT). Lasers Surg Med. 2010;42(6):447–449. 8. Barolet D. Light-emitting diodes (LEDs) in dermatology. Semin Cutan Med Surg. 2008;27(4):227–238. 9. Weiss RA, McDaniel DH, Geronemus RG, et al. Clinical experience with light-emitting diode (LED) photomodulation. Dermatol Surg. 2005;31 (9 Pt 2):1199–1205. 10. Avci P, Gupta A, Sadasivam M, et al. Low-level laser (light) therapy (LLLT) in skin: stimulating, healing, restoring. Semin Cutan Med Surg. 2013;32(1):41–52. 11. Weiss RA, McDaniel DH, Geronemus RG, Weiss MA. Clinical trial of a novel non-thermal LED array for reversal of photoaging: clinical, histologic, and surface profilometric results. Lasers Surg Med. 2005;36(2):85–91. 12. Barolet D, Roberge CJ, Auger FA, et al. Regulation of skin collagen metabolism in vitro using a pulsed 660nm LED light source: clinical correlation with a single-blinded study. J Invest Dermatol. 2009;129(12):2751–2759. 13. aOgbechie-Godec, O. A. and N. Elbuluk (2017). "Melasma: an Up-to-Date Comprehensive Review." Dermatology and Therapy 7(3): 305-318. 14. Kang HY, Ortonne JP. What should be considered in treatment of melasma. Ann Dermatol. 2010;22(4): 373–378. 15. Kang HY, Valerio L, Bahadoran P, Ortonne JP. The role of topical retinoids in the treatment of pigmentary disorders: an evidence-based review. 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Clinical and histologic changes determine optimal treatment regimens for microdermabrasion. J Dermatolog Treat. 2002;13(4):193–200. 23. D'Mello SA, Finlay GJ, Baguley BC, Askarian-Amiri ME. Signaling pathways in melanogenesis. Int J Mol Sci. 2016;17(7). pii: E1144. 24. Kim JM, Kim NH, Tian YS, Lee AY. Light-emitting diodes at 830 and 850 nm inhibit melanin synthesis in vitro. Acta Derm Venereol. 2012;92(6):675–680. 25. Oren M, Bartek J. The sunny side of p53. Cell. 2007;128(5):826–828. 26. Barolet D, Christiaens F, Hamblin MR. Infrared and skin: friend or foe. J Photochem Photobiol B. 2016;155:78–85. 27. Agrawal T, Gupta GK2, Rai V, et al. Preconditioning with low-level laser (light) therapy: light before the storm. Dose Response. 2014;12(4):619–649. 28. Menezes S, Coulomb B, Lebreton C, Dubertret L. Non- coherent near infrared radiation protects normal human dermal fibroblasts from solar ultraviolet toxicity. J Invest Dermatol. 1998;111(4):629–633. 29. Frank S, Menezes S, Lebreton-De Coster C, et al. Infrared radiation induces the p53 signaling pathway: role in infrared prevention of ultraviolet B toxicity. Exp Dermatol. 2006;15(2):130–137. 30. Kang HY, Suzuki I, Lee DJ, et al. Transcriptional profiling shows altered expression of wnt pathway- and lipid metabolism-related genes as well as melanogenesis- related genes in melasma. J Invest Dermatol. 2011;131(8):1692–1700. 31. Martignago CC, Oliveira RF, Pires-Oliveira DA, et al. Effect of low-level laser therapy on the gene expression of collagen and vascular endothelial growth factor in a culture of fibroblast cells in mice. Lasers Med Sci. 2015;30(1):203–208. 32. Lim WB, Kim JS, Ko YJ, et al. Effects of 635nm light-emitting diode irradiation on angiogenesis in CoCl(2)-exposed HUVECs. Lasers Surg Med. 2011;43(4):344–352. 33. Mizutani K, Musya Y, Wakae K, et al. A clinical study on serum prostaglandin E2 with low-level laser therapy. Photomed Laser Surg. 2004;22(6):537–539. 34. Lim W, Choi H, Kim J, et al. Anti-inflammatory effect of 635 nm irradiations on in vitro direct/indirect irradiation model. J Oral Pathol Med. 2015;44(2):94–102. 35. Barolet D, Duplay P, Jacomy H, Auclair M. Importance of pulsing illumination parameters in low-level-light therapy. J Biomed Opt. 2010;15(4):048005. 36. Hashmi JT, Huang YY, Sharma SK, et al. Effect of pulsing in low-level light therapy. Lasers Surg Med. 2010;42(6):450–466. 37. Barolet D. Pulsed versus continuous wave low-level light therapy on osteoarticular signs and symptoms in limited scleroderma (CREST syndrome): a case report. J Biomed Opt. 2014;19(11):118001. 38. Pogue BW, Lilge L, Patterson MS, et al. Absorbed photodynamic dose from pulsed versus continuous wave light examined with tissue-simulating dosimeters. Appl Opt. 1997;36(28):7257–7269. 39. Sterenborg HJ, van Gemert MJ. Photodynamic therapy with pulsed light sources: a theoretical analysis. Phys Med Biol. 1996;41(5):835–849. 40. Ando T, Xuan W, Xu T, et al. Comparison of therapeutic effects between pulsed and continuous wave 810-nm wavelength laser irradiation for traumatic brain injury in mice. PLoS One. 2011;6(10):e26212. 41. Trimmer BA, Aprille JR, Dudzinski DM, et al. Nitric oxide and the control of firefly flashing. Science. 2001;292(5526):2486–2488. 42. Lima AA, Spínola LG, Baccan G, et al. Evaluation of corticosterone and IL-1beta, IL-6, IL-10 and TNF-alpha expression after 670-nm laser photobiomodulation in rats. Lasers Med Sci. 2014;29(2):709–715. 43. Michel F, Barolet D. A new visual analog scale to measure distinctive well-being effects of LED photobiomodulation. Presented at: SPIE BiOS; San Francisco, CA; 13–18 Feb 2016. JCAD

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