https://doi.org/10.4081/ltj.2023.317

Endolesional ablation of xanthelasma using microfiber optic laser delivery

Vol. 30 No. 2 (2023)
Submitted: 28 May 2023
Accepted: 23 August 2023
Published: 12 October 2023
Xanthelasma, laser, microfiber, adipose, palpebrae, periorbital
Abstract Views: 2235
PDF: 77
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Authors

Ernest A. Azzopardi
info@skinsurgeon.eu
Department of Surgery, Division of Interventional Sciences, University College London, London, United Kingdom; Skinsurgeon@ELms Clinic, Triq il Pirinej, Malta; Consultant Surgeon in Private Practice, The London Welbeck Hospital, Marylebone, London; Department of Anatomy, Faculty of Medicine and Surgery, University of Malta Medical School, Malta.
Sarah Refalo Azzopardi
Department of Ophthalmology, Mater Dei Hospital, United Kingdom.
Matteo Tretti Clementoni
Laserplast Srl Stp, Milan, United Kingdom.
Dean Edward Boyce
Welsh Centre for Plastic Surgery, Morriston Hospital, Abertawe, Wales, United Kingdom.
Hazim Sadideen
Welsh Centre for Plastic Surgery, Morriston Hospital, Abertawe, Wales, United Kingdom.
Ash Mosahebi
Department of Surgery, Division of Interventional Sciences, University College London, London, United Kingdom.

Xanthelasma palpebrarum is the most common type of cutaneous xanthoma and is often a cause of psychological distress and aesthetic dissatisfaction. The extent, depth, or background skin type, intolerance to downtime, or cost, may restrict the treatment options, or contribute to a recurrence rate of up to 60%. 1470 nm microfiber laser is a recent clinical innovation that allows highly targeted delivery of Laser to deeper tissues through fibers as small as 150 μm in diameter, targeting fat and/or water chromophores. We report a retrospective data series on five patients (10 eyelids) treated with intralesional microfiber laser, where other treatment methods were inappropriate, contraindicated, or declined. Single-use tip firing microfibers (150-300 μm), were introduced into lesions under tactile and visible indicator light guidance (1-2 W; 250-500 Hz, LEED 1-2 Jcm–2, 1470 nm ). Results were followed up with before/after photography. The pain was measured using a prevalidated 1-10 Likert scale. Patients were followed up by remote consultation up to one year post-treatment. Xanthelasma size was (7 mm ± 4 mm, mean ±SD). The average time to complete resolution was 12±2.4 weeks ( All patients were normolipidemic pre-treatment. Sessions needed were 1.2±0.4 (mean ±SD). Maximum discomfort on a 1-10 Likert scale was 3±1/10 (mean ±SD), at eight weeks’ follow-up. No recurrences were reported up to 1 year’s follow-up. No patients had visible scarring. Most importantly, all patients reported minimal downtime and could continue normally with activities of daily life. 1470 nm microfiber laser is a promising method for the management of palpebral xanthelasma: within this case series was safe and effective in experienced hands. Further, larger studies are in hand to assess follow-up long-term outcomes and patient satisfaction.

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How to Cite

Azzopardi, E. A., Refalo Azzopardi, S., Tretti Clementoni, M., Boyce, D. E., Sadideen, H., & Mosahebi, A. (2023). Endolesional ablation of xanthelasma using microfiber optic laser delivery. Laser Therapy, 30(2). https://doi.org/10.4081/ltj.2023.317
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