BACKGROUND: Various trials have been conducted on the management of male pattern hair loss (MPHL). A variety of laser and light sources have been used for the treatment of MPHL. OBJECTIVE: To understand the effects of a 1,550-nm fractional erbium-glass laser on the hair cycle in an alopecia mouse model and to study the clinical effects of the same laser used as treatment for MPHL. MATERIALS AND METHODS: Irradiation was applied to the shaved skin of C3H/HeN mice using various energy and density settings and varied irradiation intervals. In a clinical pilot study involving human subjects, 20 participants were treated over five sessions at 2-week intervals. A fractional photothermolysis laser was used at the energy of 5 mJ and a total density of 300 spots/cm(2). RESULTS: In the animal study, the hair stimulation effects were dependent upon the energy level, density, and irradiation interval. The anagen conversion of hair and the increase in Wnt 5a, β-catenin signals were observed. In the human pilot study, incremental improvements in hair density and growth rate were observed. CONCLUSIONS: This pilot study showed that a 1,550-nm fractional erbium-glass laser might induce hair growth, but more intensive studies are required to clarify the clinical applications of this treatment.
BACKGROUND: Various trials have been conducted on the management of male pattern hair loss (MPHL). A variety of laser and light sources have been used for the treatment of MPHL. OBJECTIVE: To understand the effects of a 1,550-nm fractional erbium-glass laser on the hair cycle in an alopecia mouse model and to study the clinical effects of the same laser used as treatment for MPHL. MATERIALS AND METHODS: Irradiation was applied to the shaved skin of C3H/HeN mice using various energy and density settings and varied irradiation intervals. In a clinical pilot study involving human subjects, 20 participants were treated over five sessions at 2-week intervals. A fractional photothermolysis laser was used at the energy of 5 mJ and a total density of 300 spots/cm(2). RESULTS: In the animal study, the hair stimulation effects were dependent upon the energy level, density, and irradiation interval. The anagen conversion of hair and the increase in Wnt 5a, β-catenin signals were observed. In the human pilot study, incremental improvements in hair density and growth rate were observed. CONCLUSIONS: This pilot study showed that a 1,550-nm fractional erbium-glass laser might induce hair growth, but more intensive studies are required to clarify the clinical applications of this treatment.
Authors: Marina Perper; Adam S Aldahan; Rachel A Fayne; Christopher P Emerson; Keyvan Nouri Journal: Lasers Med Sci Date: 2017-08-16 Impact factor: 3.161
Authors: Tongyu Cao Wikramanayake; Alexandra C Villasante; Lucia M Mauro; Keyvan Nouri; Lawrence A Schachner; Carmen I Perez; Joaquin J Jimenez Journal: Lasers Med Sci Date: 2012-06-14 Impact factor: 3.161
Authors: Sung Bin Cho; Boncheol Leo Goo; Zhenlong Zheng; Kwang Ho Yoo; Jin-Soo Kang; Heesu Kim Journal: Lasers Med Sci Date: 2018-01-16 Impact factor: 3.161