Aerolase Neo Elite
650-microsecond 1064 nm Nd:YAG for acne, redness, and tone correction with low downtime
이 치료에 대해
Aerolase Neo Elite is a US-developed 1064 nm Nd:YAG platform using 650-microsecond pulses. It is used for acne, folliculitis, rosacea-associated erythema, post-inflammatory pigmentation, melasma support, and mild rejuvenation, and has gained traction especially as a low-downtime option that can be used across skin tones.
Compared with gentler long-pulsed Nd:YAG warming protocols, it delivers higher peak power to target inflammatory lesions, vessels, sebum-related pathways, and pigment while still benefiting from the relatively melanin-sparing properties of 1064 nm. It should be positioned as a management tool, often combined with topicals, systemic therapy, or other devices.
작용 기전
The 650-microsecond 1064 nm pulse penetrates deeply and creates selective thermal and photo-mechanical effects in hemoglobin-rich vessels, inflammatory targets, sebum-related pathways, and perifollicular tissue. In acne, studies report reductions in porphyrin burden, sebum output, and inflammatory lesions. In vascular redness, vessel contraction and thermal injury can reduce erythema and telangiectasia. Because 1064 nm has relatively low melanin absorption, the platform is often used across Fitzpatrick I-VI skin types.
적응증
기대 효과
In acne, a sham-controlled RCT reported 26% IGA improvement versus 7% with sham, 42% reduction in inflammatory lesions, and 18% lower sebum output. A 225-patient retrospective study reported a median of 3 treatments to clearance, with 48% reaching clearance and a median 6-month IGA of 1.0 (almost clear). For rosacea-associated redness or pigmentation, improvement is typically gradual over serial sessions and often combined with medical therapy.
임상 근거
위험 및 부작용
Transient redness, dryness, warmth, mild swelling, temporary acne flare, and rarely pigment alteration or superficial burns may occur. In rosacea or melasma, overly aggressive heat can worsen symptoms, so low downtime does not eliminate the need for careful parameter selection.