Efficacy and Safety of Hair Removal with a Long-Pulsed Diode Laser Depending on the Spot Size: A Randomized, Evaluators-Blinded, Left-Right Study

Background The efficacy of the long-pulsed diode laser (LPDL) in hair removal is determined with various physical parameters. Recently, LPDLs with a larger spot size are commercially available; however, the independent effect of spot size on hair removal has not been studied. Objective This study aimed to compare the efficacy of the LPDL in hair removal depending on the spot size. Methods A randomized, evaluators-blind, intrapatient comparison (left vs. right) trial was designed. Ten healthy Korean women received three hair removal treatment sessions on both armpits with the 805-nm LPDL and followed for 3 months. A 10×10 mm handpiece (D1) or a 10×30 mm handpiece (D3) was randomly assigned to the right or left axilla. The fluence, pulse duration, and epidermal cooling temperature were identical for both armpits. Hair clearance was quantified with high-resolution photos taken at each visit. Postprocedural pain was quantified on a visual analogue scale. Adverse events were evaluated by physical examination and the patients' self-report. Results The mean hair clearance at 3 months after three treatment sessions was 38.7% and 50.1% on the armpits treated with D1 and D3, respectively (p=0.028). Procedural pain was significantly greater in the side treated with D3 (p=0.009). Serious adverse events were not observed. Conclusion Given that the pulse duration, fluence, and epidermal cooling were identical, the 805-nm LPDL at the three times larger spot size showed an efficacy improvement of 29.5% in axillary hair removal without serious adverse events.

[1]  E. Graber,et al.  Laser Hair Removal: A Review , 2013, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[2]  M. Landthaler,et al.  Photoepilation with a diode laser vs. intense pulsed light: a randomized, intrapatient left‐to‐right trial , 2013, The British journal of dermatology.

[3]  Won-Soo Lee,et al.  Quality of Life Assessment in Male Patients with Androgenetic Alopecia: Result of a Prospective, Multicenter Study , 2012, Annals of dermatology.

[4]  O. Ibrahimi,et al.  Long‐Term Clinical Evaluation of a 800‐nm Long‐Pulsed Diode Laser with a Large Spot Size and Vacuum‐Assisted Suction for Hair Removal , 2012, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[5]  M. Gold,et al.  Safety and efficacy of low-fluence, high-repetition rate versus high-fluence, low-repetition rate 810-nm diode laser for permanent hair removal – A split-face comparison study , 2011, Journal of cosmetic and laser therapy : official publication of the European Society for Laser Dermatology.

[6]  M. Trelles,et al.  Six-month follow-up multicenter prospective study of 368 patients, phototypes III to V, on epilation efficacy using an 810-nm diode laser at low fluence , 2011, Lasers in Medical Science.

[7]  T. Ilknur,et al.  Effects of the 810-nm diode laser on hair and on the biophysical properties of skin , 2010, Journal of cosmetic and laser therapy : official publication of the European Society for Laser Dermatology.

[8]  W. Hall,et al.  Selective Photothermolysis : Precise Microsurgery by Selective Absorption of Pulsed Radiation , 2005 .

[9]  K. Nouri,et al.  Comparing 18‐ Versus 12‐mm Spot Size in Hair Removal Using a Gentlease 755‐nm Alexandrite Laser , 2004, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[10]  I. Galadari Comparative evaluation of different hair removal lasers in skin types IV, V, and VI , 2003, International journal of dermatology.

[11]  D. Goldberg,et al.  Evaluation of a New Super‐Long‐Pulsed 810 nm Diode Laser for the Removal of Unwanted Hair: The Concept of Thermal Damage Time , 2002, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[12]  M. Landthaler,et al.  The Effect of Different Spot Sizes on the Efficacy of Hair Removal Using a Long‐Pulsed Diode Laser , 2002, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[13]  G. Altshuler,et al.  Extended theory of selective photothermolysis , 2001, Lasers in surgery and medicine.

[14]  H. Chan,et al.  An In Vivo Study Comparing the Efficacy and Complications of Diode Laser and Long‐Pulsed Nd:YAG Laser in Hair Removal in Chinese Patients , 2001, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[15]  T. Alster,et al.  Comparison of Long‐Pulsed Diode and Long‐Pulsed Alexandrite Lasers for Hair Removal: A Long‐Term Clinical and Histologic Study , 2001, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[16]  E. Ross,et al.  Hair Reduction Using a Scanning 800 nm Diode Laser , 2001, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[17]  R. Anderson,et al.  Hair removal with an 800-nm pulsed diode laser. , 2000, Journal of the American Academy of Dermatology.

[18]  S. Eremia,et al.  Topical Anesthesia for Laser Hair Removal: Comparison of Spot Sizes and 755 nm versus 800 nm Wavelengths , 2000, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[19]  M. Grossman,et al.  Prospective Study of Hair Reduction by Diode Laser (800 nm) with Long‐Term Follow‐Up , 2000, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[20]  Z Ladin,et al.  Theoretical considerations in laser hair removal. , 1999, Dermatologic clinics.

[21]  C. Littler Hair removal using an Nd:YAG laser system. , 1999, Dermatologic clinics.

[22]  R. Anderson,et al.  Damage to hair follicles by normal-mode ruby laser pulses. , 1996, Journal of the American Academy of Dermatology.