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2025 英卡思亚洲年会
大会日程

Contributed Talks - Laser & EBD

会议室： Room 3 - Level 2
日期： 2025年 6月 8日星期日从 14:00 至 15:00
组织形式： 投稿演讲 > 基于对提交的演示文稿摘要的审核，学术委员会通过的投稿演讲。

主席

Wonkyu HONG 医师

皮肤科医师

韩国

本场演讲内容

小时	讲者	演讲标题	讲稿摘要	数字
14:00	Soujanya DHULIPALA 医师	Hybrid laser technology for acne scars – Is it superior over conventional therapy?	查看	147144
14:10	Andrew YOSHIHIRO WIRYA 医师	Dual wavelength dynamics: a transformative approach to skin rejuvenation	查看	147145
14:20	Hen IFRACH 医师	Treatment of post-inflammatory erythema using a combination of non-ablative laser and light-based technologies.	查看	147146
14:30	Stephen Akihiro WIRYA 医师	Refining photoaging therapy: superior efficacy and safety with combined picolaser 1064nm and thulium 1927nm laser	查看	147147
14:40	Sara MORADIAN 医师	Fractional 2790 nm Er:YSGG ablation for solar lentigines: a prospective 14‑case outcome study	查看	147148
14:50		Q&A		147149

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Soujanya DHULIPALA 医师

皮肤科医师

印度

其他作者 :

Hybrid laser technology for acne scars – Is it superior over conventional therapy?

Objectives: To analyze the outcomes of Hybrid lasers in acne scar treatment

Introduction: Acne Scars pose significant challenge for therapies. The resolution of the scar is suboptimal even with combination of therapies. Hybrid lasers is being touted as one big step in achieving better results in this direction.

Materials / method: The author analysed the outcomes in 25 persons with acne scars. Hybrid Laser Combination of FrCo2 with 1570nm laser was used for 4 to 6 sessions in each person. standardized clinical photographs before and after the treatment were assessed by 2 independent physicians. Global Scale for Acne Scar Severity was used to assess the extent of the scars before the procedure NO of session were decided based on the extent of the scars . Minimum of 4 sessions were done in each case. Scar scoring was done at 2 months after the completion of all sessions. Satisfaction scores on a scale of 10 were recorded

Results: 25 cases were included in the study. average age is 32+02. Male to female ration;9;16. At 2 months after completion of treatment scar scoring has shown improvement by 2 points .
Satisfaction scores 7+2 after the procedure at 6 months

Conclusion: The Hybrid lasers seem to deliver satisfactory results for scars over the face with minimal Downtime and complications. Besides that The results seem to last for longer period. Larger comparative studies need to be done to prove its exact superiority over conventional laser technologies.

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这项工作没有任何直接或间接的资金支持。由作者自己承担责任。

Andrew YOSHIHIRO WIRYA 医师

皮肤科医师

印度尼西亚

其他作者 : Stephen Akihiro Wirya MD, Christopher Toshihiro Wirya MD, Sudarto Oeiria MD, Ratna Oeiria MD

Dual wavelength dynamics: a transformative approach to skin rejuvenation

Objectives: The objective of this study is to evaluate the efficacy, safety, and patient satisfaction of using a dual-wavelength laser system that combines the ablative power of CO2 lasers (10,600 nm) with the deep-penetrating, non-ablative effects of 1570 nm lasers. Specifically, the study aims to determine whether this dual-wavelength approach provides superior improvements in skin texture, reduces pore size, and diminishes wrinkles, particularly in patients with Fitzpatrick skin types III–V, while minimizing downtime and adverse effects.

Introduction: Fractional CO2 lasers have long been the gold standard for skin rejuvenation due to their powerful ablative results, while non-ablative 1570 nm lasers are valued for their gentler, safer approach and minimal downtime. Combining the ablative precision of CO2 (10,600 nm) with the deep-penetrative, non-ablative effects of 1570 nm lasers, a dual-wavelength system offers a promising solution for improving skin texture, reducing pore size, and diminishing wrinkles. This study evaluates its efficacy, safety, and patient satisfaction, particularly for Fitzpatrick skin types III–V.

Materials / method: This clinical trial (October 2023–October 2024) enrolled 25 individuals aged 30+ (mean age: 43.6 ± 15.7) with mild-to-moderate facial aging (Glogau I–II). Participants underwent three dual-wavelength laser treatments at three-week intervals. CO2 laser power was set at 15–25 W with 0.6–1 ms pulses, and 1570 nm laser power at 8–12 W with 3–4 ms pulses. Outcomes were assessed via VISIA Imaging System and scoring systems such as MFWS, GAIS, and sGAIS, with pain measured by VAS. Adverse events were documented, and results were evaluated by five blinded dermatologists.

Results: The results highlighted the superior potential of dual-wavelength treatment over single-wavelength systems. Patients showed significant improvements across all parameters, with wrinkles reduced by an average of 0.33 points on the MFWS (p < 0.001), and 92% reporting noticeable improvements. VISIA analysis confirmed enhanced skin texture and pore refinement (p = 0.001). High satisfaction was reflected in GAIS (2.4) and sGAIS (2.08) scores. Pain was mild (VAS 3.12), with 76% resuming activities within seven days and only 4% needing over two weeks for recovery.

Conclusion: The dual-wavelength laser system marks a breakthrough in skin rejuvenation by combining the ablative precision of CO2 with the non-ablative depth of the 1570 nm laser. This approach allows for the safe delivery of more energy, enabling superior results even in Asian skin, which has traditionally posed challenges in laser treatments. By improving wrinkles, skin texture, and pore size with minimal downtime, this system is an effective and versatile solution across diverse patient populations

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这项工作没有任何直接或间接的资金支持。由作者自己承担责任。

Hen IFRACH 医师

美容整型外科医师

意大利

其他作者 :

Treatment of post-inflammatory erythema using a combination of non-ablative laser and light-based technologies.

Objectives: To determine the efficacy of a novel combination of a wide spectrum IPL and non-ablative 1540nm laser for the treatment of Post-inflammatory Erythema.

Introduction: Post-inflammatory erythema (PIE) occurs when blood flow is disrupted during the inflammation phase causing damage to the capillaries. This disruption in blood flow may be caused by acne or by inflammatory skin conditions. This damage can lead to red or pink marks on the skin. PIE typically self resolves over time. However, to expedite improvement in appearance, EBDs can improve the appearance of PIE. This case study explores combining the coagulative effect and subsequent dermal and vascular remodeling achieved by 1540nm laser, in synergy with an IPL, to improve PIE.

Materials / method: 35 patients, ages 21-43 years, skin phototypes II-V, suffering from PIE as a result of acne were treated with a combined treatment protocol using a wide spectrum IPL (420-950nm) and 1540nm laser.
The protocol:
IPL applicator, fluence of 8 J/cm2, pulse width of 40 msec.
Immediately after, Er:Glass pixel laser at an energy range of 1000kJ-1500mJ/P. 2 passes were performed.
Patients received 3 treatments, at treatment intervals of 3-5 weeks. Patient satisfaction and clinical condition were assessed using GAIS.
Standardized photographs were taken before treatment and at the 1 month follow up.

Results: Patients demonstrated moderate to significant improvement in PIE.
Photographic assessment of affected areas saw visible cosmetic improvement in all patients.
Results were graded according to the GAIS, an average score of 4 was obtained.
All patients were satisfied with their improvement. There were no adverse events reported.

Conclusion: The combination of 1540nm non-ablative laser used in synergy with a wide band IPL has not been studied as a treatment for PIE. The synergy of non-ablative laser and light-based technologies to treat PIE resulted in moderate to significant improvement and high patient satisfaction. The coagulative columns and subsequent dermal and vascular remodelling as a result of the 1540nm laser in synergy with IPL, where oxyhemoglobin is the target chromophore, leading to photothermal damage, is thought to provide a very good solution for patients suffering from PIE as a result of acne.

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这项工作没有任何直接或间接的资金支持。由作者自己承担责任。

Stephen Akihiro WIRYA 医师

皮肤科医师

印度尼西亚

其他作者 : Wirya, Andrew; Gondowardojo, Ratna; Oeiria, Sudarto

Refining photoaging therapy: superior efficacy and safety with combined picolaser 1064nm and thulium 1927nm laser

Objectives: To unlock the full potential of combined Laser therapy for photoaging using 1064nm Picosecond Laser and 1927nm Thulium Fractional Laser in improving skin texture, wrinkles, spots, and pores, while reducing downtime and enhancing overall treatment outcomes.

Introduction: Photoaging is a major factor in skin aging, responsible for up to 80% of visible skin changes. The growing demand for effective treatments has led to the rise of Picosecond lasers, known for their promising results. However, optimal outcomes often require high fluence, increasing downtime and safety concerns. The Thulium 1927nm laser, a fractional non-ablative device, stimulates collagen and reduces melanin while preserving the epidermis, promoting faster recovery. Combining Picolaser 1064nm and Thulium 1927nm offers a more efficient and safer approach to treating photoaging.

Materials / method: Twenty Asian participants with Fitzpatrick skin types III–V underwent three sessions of combined 1064nm Picosecond laser and 1927nm Thulium fractional laser treatments at 4-week intervals. The Picosecond laser was applied using a two-step method with zoom and fractional handpieces, followed by the Thulium laser with a roller handpiece. Both treatments targeted the entire face. Standardized photographs were taken before the first session and 4 weeks after the final session.

Results: Improvements were observed across all key photoaging features, including skin texture, wrinkles, spots, and pores. These changes were confirmed using VISIA imaging, comparing follow-up measurements taken 4 weeks after the final treatment with baseline assessments.

Conclusion: The combined use of 1064nm Picosecond Laser and 1927nm Thulium Fractional Laser effectively improved photoaging-related concerns, including skin texture, wrinkles, spots, and pores. This protocol demonstrated enhanced efficacy while reducing downtime, offering a safe and efficient treatment option for managing photoaging in Asians.

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这项工作没有任何直接或间接的资金支持。由作者自己承担责任。

Sara MORADIAN 医师

医师

伊朗

其他作者 : Ahmad Nazari MD

Fractional 2790 nm Er:YSGG ablation for solar lentigines: a prospective 14‑case outcome study

Objectives: To rigorously evaluate the clinical efficacy, complication rates, & patient satisfaction of a single‑session ablative Er:YSGG laser (2790 nm) approach—employing either full‑field or fractional scanning settings—in 14 adult females with solar lentigines. We investigated optimal fluence (1.5–3.5 J/cm² for confluent treatment) or microbeam energy (60–150 mJ per fractional spot) and coverage densities (5–12%) to balance maximal pigment clearance against the risk of post‑inflammatory hyperpigmentation. Secondary endpoints included quantitative dermoscopic assessments, melanin index changes.

Introduction: Solar lentigines result from chronic ultraviolet exposure and can be effectively treated by Erbium:YSGG lasers operating at 2790 nm, either in a confluent ablation mode for superficial epidermal lesions or a fractional microbeam mode generating deeper columns of ablation and coagulation. Previous studies suggest that correct parameter calibration yields high lesion clearance with minimal scarring or pigmentary complications. This prospective cohort analysis examines single‑session laser protocols, focusing on individualized parameter adjustment based on skin types II–IV, lesion depth

Materials / method: Fourteen female patients (ages 45–68) were treated with a 2790 nm Er:YSGG system. Those with predominantly superficial lentigines (Fitzpatrick II–III) received confluent ablation (2.5–3.5 J/cm², pulse width 0.4–0.6 ms, ~10–20% scanner overlap). Individuals with darker or more sensitive skin (III–IV) underwent fractional ablation, typically 80–120 mJ per microbeam at 5–10% coverage density. Digital dermoscopic images, melanin index scores, and standardized photographs were obtained pre‑treatment and at weeks 1, 4, 8, and 12. Adverse events were documented by standardized questionnaires

Results: Twelve weeks post‑treatment, mean lentigo clearance reached 76.4% (p < 0.001), supported by a 31.9% reduction in melanin index. Two patients (14%) experienced transient post‑inflammatory hyperpigmentation, resolving by week 8. Mild erythema and edema subsided by day 5–7, especially in fractional mode cases, which typically had slightly longer downtime yet fewer hyperpigmentation concerns among higher‑risk skin types. Subjective satisfaction averaged 8.7 ± 0.6/10, correlating strongly (r = 0.82) with objective lentigo reduction. No permanent scarring or persistent pigmentary changes occurred.

Conclusion: Single‑session 2790 nm Er:YSGG laser therapy—in either confluent or fractional scanning mode—effectively diminished solar lentigines across Fitzpatrick II–IV skin types. Parameter selection (fluences, microbeam energy, densities) was pivotal in achieving robust pigment clearance while mitigating post‑inflammatory hyperpigmentation. Quantitative measures confirm a high safety margin and excellent patient satisfaction, endorsing this mid‑infrared platform as a valuable front‑line treatment for solar lentigines. Further larger‑scale trials could refine optimal protocols for diverse phototypes.

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2025 英卡思亚洲年会 大会日程

Contributed Talks - Laser & EBD

主席

本场演讲内容

推荐会议

2025 英卡思亚洲年会
大会日程

本场演讲内容