Skin rejuvenation through topical application of indocyanine green with diffractive optical element mode of 785 nm picosecond laser in Asian females

Abstract

AbstractBackgroundIndocyanine green (ICG) exhibits robust absorption near 800 nm.AimsTo examine the clinical effects of combining ICG with a 785 nm picosecond laser for treating photo‐aged skin.Patient/MethodsA 785 nm 600 picosecond laser was used on the facial area of 16 female patients with Fitzpatrick skin type III and IV (mean age: 58.44 ± 5.24 years) after applying 0.0125% ICG cream. A total of 3000 shots were administered in diffractive optical element mode at a pulse energy of 200 mJ and frequency of 10 Hz. Hyperpigmented lesions were treated using the Zoom handpiece set at a spot size of 3–4 mm, pulse energy of 60–120 mJ, and frequency of 3–7 Hz. Patients underwent five sessions of treatment at intervals of 1–2 weeks. Wrinkles, pores and pigmented lesions were assessed at the initial assessment and 4 weeks after the final treatment using the Modified Fitzpatrick Wrinkle Scale and 10‐point visual analog scale, respectively. Skin biopsy of the postauricular area was performed on two consenting patients.ResultsSignificant improvements in wrinkles (p = 0.02), pores (p = 0.034), and hyperpigmentation (p = 0.036) were observed, along with increased patient subjective improvement. Adverse effects were transient and well‐tolerated. Hematoxylin and eosin and Masson's trichrome staining revealed increased and thickened dermal collagen fibers. Immunohistochemical staining revealed increased expression of collagen I and III throughout the papillary and upper reticular dermis, along with diffuse increase of STRO‐1 in the dermis.ConclusionsThe combined application of a 785 nm picosecond laser and ICG yielded promising clinical outcomes for treating photo‐aged skin in Asian patients with Fitzpatrick skin type III and IV.