A Novel Combination of BroadBand Light (BBL® HERO™) and Nonablative Fractionated 1,927nm (MOXI™) Laser for Addressing Solar Lentigines

By Erin Hennessey, DNP, APRN, FNP-C

Ms. Hennessey is the Owner of Blush Aesthetics in Perrysburg and Toledo, Ohio, and Assistant Professor, Nursing, Gonzaga University in Spokane, Washington.

Funding: No funding was provided for this study.

Disclosures: KH is a key opinion leader for Sciton, Inc., and receives honoraria for speaking engagements and for providing clinical education and training to customers.

J Clin Aesthet Dermatol. 2024;17(9–10 Suppl 1):S36–S39.


Abstract

Solar lentigo is a common condition that can affect people of all ages and ethnicities. The effectiveness of combining laser and light-based modalities for reducing solar lentigines was evaluated. Patients received treatment for facial solar lentigines with an advanced pulsed light device (BBL® HEROTM) followed by nonablative fractionated 1,927nm laser (MOXITM) in a single session. Nonmalignant solar lentigines were evaluated through assessment of photographs and VISIA scans taken before and after treatment. Nine patients aged 29 to 64 years were included in this report. Across all nine patients, there was a significant increase in percentile for brown spots on VISIA scans post-treatment. Follow-up time was variable; in one patient, a marked reduction in hyperpigmentation was observed almost 20 months post-treatment. The results presented in this report demonstrate that combining BBL HERO and MOXI is effective for reducing solar lentigines.

Keywords: Solar lentigines, BroadBand Light, laser


One of the most frequently encountered conditions in dermatology practice is or solar lentigines.1 It can affect all ethnicities and age ranges, and can reach a prevalence of more than 90 percent in some populations.2,3

Solar lentigines are characterized by the appearance of well-defined hyperpigmented lesions on sun-exposed skin. A number of morphological and physiological changes take place in the affected area. In the epidermis there is an accumulation of melanin in the basal layer and an increase in the number of melanocytes.4–7 As solar lentigines progress, the dermal-epidermal junction (DEJ) becomes ridged, and the ridges get longer and extend deeper into the dermis over time.8 Evidence suggests that melanin also migrates into the papillary dermis since it has been detected in dermal melanophages in patients with solar lentigines.9,10

One of the most advanced and widely used devices available for treating solar lentigines is broadband light therapy (BBL). BBL operates by delivering pulses of noncoherent, full-spectrum visible light into the skin. A novel, next-generation BBL device, BBL High Energy Rapid Output (HERO; Sciton, Inc., Palo Alto, California), delivers greater cooling and shorter pulses at four times the rate compared to other intense pulsed light devices, making this a safe and effective treatment for hyperpigmentation in a wide range of skin types.11 The emission spectrum for BBL HERO ranges from 420 to 1,400nm. When this light enters the skin, depending on the filter selected, it will get absorbed by melanin and hemoglobin and generate enough heat to damage melanin-containing cells in the epidermis and blood vessels in the dermis, while keeping surrounding cells and tissues intact.12

As BBL HERO targets melanin in the epidermis, a different modality may be more suitable for targeting melanin in the upper dermis. The nonablative fractionated MOXI (mJouleTM platform; Sciton, Inc., Palo Alto, California) 1,927nm laser is a good candidate since it is primarily absorbed by water and can penetrate into the papillary dermis.13

Both BBL HERO and MOXI have been shown to be effective at treating UV-induced hyperpigmentation as single modalities;11,14 therefore, combining them could further enhance effectiveness of the treatment. The objective of this brief report was to demonstrate effectiveness of combining BBL HERO and MOXI to reduce solar lentigines in a single treatment session.

Methods

Patient selection. Patient charts from a single medical aesthetics practice were reviewed for patients of Fitzpatrick types I to VI who received a combination of BBL HERO and MOXI therapies to target facial hyperpigmentation. Selected patients consented to share deidentified treatment data, including age, photographs, and VISIA scans, for inclusion in this report. All procedures adhered strictly to the principles outlined in the Declaration of Helsinki (2013).

Treatment. All patients received a single treatment session combining BBL HERO and MOXI. Pre-treatment preparation was not required. Each treatment began with 1 to 4 passes of BBL HERO and, depending on individual needs, some received additional spot treatments over pigmented areas (see Table 1 for settings). Upon completing the treatment, all patients received a high energy (level 3) MOXI treatment (see Table 2 for settings). Administering the pulsed light before laser is an important step since post-laser erythema is very common.

Post-treatment care. Immediately following treatment, all patients were provided with a healing kit that included a barrier cream (Avène Cicalfate+; Pierre Fabre USA, Inc., Parsippany, New Jersey), moisturizer (Avène Thermal Spring Water; Pierre Fabre USA, Inc., Parsippany, New Jersey), and cleanser (Alastin® Gentle Cleanser; Galderma, Dallas, Texas). Patients were asked to apply all contents of the kit daily for the first two weeks following treatment. A sun protection factor (SPF) 30 sunscreen was also provided. Patients were advised to apply sunscreen whenever outdoors in order to minimize sun exposure and prevent any further hyperpigmentation.

Results

A total of nine patients with facial hyperpigmentation, with a mean (standard deviation) age of 44.1 (11.1) years, received one treatment session combining BBL HERO and MOXI. Patient characteristics, including baseline VISIA percentiles for brown spots, are shown in Table 3. Photos and VISIA scans were taken between two weeks and 20 months after the treatment session.

Photos of the right side of the face taken before and after a single treatment (Figures 1–4) show a marked reduction in pigmentation in patients between the ages of 29 and 64 years at different follow-up times. In one patient (Figure 4), improvement in pigmentation was maintained for almost 20 months. Figure 5 shows photos (Columns A and B) and VISIA scans (Columns C and D) of the front of the face from two patients, aged 29 and 39 years, taken before and after a single treatment. In both cases, there was a noticeable reduction in pigmentation in the post-treatment images, compared to before treatment. Baseline and post-treatment percentiles, as well as the change in percentile from baseline, are shown in Table 4. Across all patients, there was a nonsignificant increase in percentile from baseline (p=0.11, Wilcoxon rank test, α= 0.05). No adverse events were reported in this sample of patients.

One patient, whose follow-up was approximately 19 months after treatment, did not show any improvement in brown spots. Occasionally, patients who do not adhere to the practice of wearing sunscreen will redevelop hyperpigmentation over time; however, we did not determine whether or not the unimproved patient adhered to the study’s recommended sunscreen protocol. Therefore, a subanalysis of the patients (n=8) who demonstrated an increase in percentile, or a reduction in pigment, was performed. In this subgroup, post-treatment percentile was significantly greater than baseline (p=0.03, Wilcoxon rank test, α=0.05; Figure 6).

Conclusion

These findings show that a combination of BBL HERO and MOXI can effectively reduce UV-induced hyperpigmentation after just one treatment. While MOXI can significantly improve brown spots as a single treatment modality,14 the magnitude of the improvement is far greater when MOXI is combined with BBL HERO, as shown in this study; this is likely because the two modalities target different components of hyperpigmented lesions. Most of the light emitted by BBL HERO through the 515nm filter is absorbed by melanin in the epidermis,12 while MOXI’s nonablative fractionated microchannels penetrate into the superficial dermis where it can generate enough heat to damage dermal melanophages.13

Both MOXI and BBL HERO are safe and effective treatment for all skin types.11,14 However, patient selection plays an important role with any laser or light-based therapy.15 It is therefore important to identify which patients could benefit most from a MOXI and BBL combination treatment. Other factors, such as the type of hyperpigmentation and overlapping skin conditions, would also need to be considered.16   

Limitations. This study was not without limitations. The sample size was very small, and the follow-up time was variable. While we did not find any significant correlation between follow-up time and the amount of improvement in pigment, there may have been some recurrence of hyperpigmentation due to sun exposure, as patients might not have been adherent to regular application of sunscreen following the procedure.

Despite the limitations in this study, the results suggest that combination of BBL HERO and MOXI is an effective option for treating UV-induced hyperpigmentation.

References

  1. Plensdorf S, Livieratos M, Dada N. Pigmentation disorders: diagnosis and management. Am Fam Physician. 2017;96(12):797–804.
  2. Ortonne JP. Pigmentary changes of the ageing skin. Br J Dermatol. 1990;122 Suppl 35:21–28.
  3. Tsai J, Chien AL. Photoprotection for skin of color. Am J Clin Dermatol. 2022;23(2):195–205.
  4. Hakozaki T, Jarrold B, Zhao W, et al. Morphological and transcriptional evaluation of multiple facial cutaneous hyperpigmented spots. Skin Health Dis. 2022;2(2):e96.
  5. Choi W, Yin L, Smuda C, et al. Molecular and histological characterization of age spots. Exp Dermatol. 2017;26(3):242-248.
  6. Lee WJ, Jo SY, Lee MH, et al. The effect of MCP-1/CCR2 on the proliferation and senescence of epidermal constituent cells in solar lentigo. Int J Mol Sci. 2016;17(6):948.
  7. Noblesse E, Nizard C, Cario-André M, et al. Skin ultrastructure in senile lentigo. Skin Pharmacol Physiol. 2006;19(2):95–100.
  8. Cario-Andre M, Lepreux S, Pain C, et al. Perilesional vs. lesional skin changes in senile lentigo. J Cutan Pathol. 2004;31(6):441–447.
  9. Watanabe T, Tahira M, Morino S, et al. Novel morphological study of solar lentigines by immunohistochemical and electron microscopic evaluation. J Dermatol. 2013;40(7):528–532.
  10. Barysch MJ, Braun RP, Kolm I, et al. Keratinocytic malfunction as a trigger for the development of solar lentigines. Dermatopathology (Basel). 2019;6(1):1–11.
  11. Bitter P, Jr. , Gold M, Pozner J. New BBL HERO offers unprecedented results for the face and body. Prime. 2021;11(2):13–15.
  12. Alhallak K, Abdulhafid A, Tomi S, Omran D. Skin, light, and their interactions. In: The Ultimate Guide for Laser and IPL in the Aesthetic Field. Springer, Cham; 2023:1–38.
  13. Kwon IH, Bae Y, Yeo UC, et al. Histologic analyses on the response of the skin to 1,927-nm fractional thulium fiber laser treatment. J Cosmet Laser Ther. 2018;20(1):12–16.
  14. Vingan NR, Panton JA, Barillas J, et al. Investigating the efficacy of a fractionated 1927nm laser for diffuse dyspigmentation and actinic changes. Lasers Surg Med. 2023;55(4):344–358.
  15. Alexis AF. Lasers and light-based therapies in ethnic skin: treatment options and recommendations for Fitzpatrick skin types V and VI. Br J Dermatol. 2013;169 Suppl 3:91–97.
  16. Passeron T, Genedy R, Salah L, et al. Laser treatment of hyperpigmented lesions: position statement of the European Society of Laser in Dermatology. J Eur Acad Dermatol Venereol. 2019;33(6):987–1005.

Share:

Recent Articles:

Letters to the Editor: October 2024
Diagnostic Delay of Psoriatic Arthritis of More Than Six Months Contributes to Poor Patient-Reported Outcome Measures in Depression, Social Ability, and Disease Impact: A Cross-sectional Study
Disparities in Basal Cell Carcinoma: A Comparative Analysis of Hispanic and Non-Hispanic White Individuals
Vibration Anesthesia During Invasive Procedures: A Meta-analysis
Efficacy and Safety of Microencapsulated Benzoyl Peroxide Cream, 5%, in Papulopustular Rosacea in Elderly Patients: Post-hoc Analysis of Results from Two Randomized, Phase III, Vehicle-controlled Trials
The Therapeutic Role of Genistein in Perimenopausal and Postmenopausal Women
Diagnosis of Vascular Anomalies in Patients with Skin of Color
Improvement in Patient-reported Symptoms and Satisfaction with Tildrakizumab in a Real-world Study in Patients with Moderate-to-severe Plaque Psoriasis
Carboxytherapy versus its Combination with Fractional CO2 Laser for the Treatment of Striae Distensae: An Objective, Right-to-left, Comparative Study
October 2024 Editorial Message from Clinical Editor-in-Chief James Q. Del Rosso, DO, FAAD, FAOCD
1 2 3 158

Categories:

Recent Articles:

Letters to the Editor: October 2024
Diagnostic Delay of Psoriatic Arthritis of More Than Six Months Contributes to Poor Patient-Reported Outcome Measures in Depression, Social Ability, and Disease Impact: A Cross-sectional Study
Disparities in Basal Cell Carcinoma: A Comparative Analysis of Hispanic and Non-Hispanic White Individuals
Vibration Anesthesia During Invasive Procedures: A Meta-analysis
Efficacy and Safety of Microencapsulated Benzoyl Peroxide Cream, 5%, in Papulopustular Rosacea in Elderly Patients: Post-hoc Analysis of Results from Two Randomized, Phase III, Vehicle-controlled Trials
The Therapeutic Role of Genistein in Perimenopausal and Postmenopausal Women
Diagnosis of Vascular Anomalies in Patients with Skin of Color
Improvement in Patient-reported Symptoms and Satisfaction with Tildrakizumab in a Real-world Study in Patients with Moderate-to-severe Plaque Psoriasis
Carboxytherapy versus its Combination with Fractional CO2 Laser for the Treatment of Striae Distensae: An Objective, Right-to-left, Comparative Study
October 2024 Editorial Message from Clinical Editor-in-Chief James Q. Del Rosso, DO, FAAD, FAOCD
1 2 3 158

Tags: