Plasma (Dermatology)

Precision Dermatology
In the past, treating benign lesions meant risking scars or hypopigmentation. D.A.S. Plasma technology changes the narrative. By utilizing the stability of plasma energy, you can achieve high-level disinfection, angiogenesis, and tissue regeneration.

Unmatched Safety & Control
D.A.S. devices are the only ones featuring Real Frequency Modulation.
• Customizable Injury: Adapt the thermal damage to the pathology.
• Visual Control: The plasma spark is always stable, ensuring you never touch the skin directly.
• Reduced PIH: Significantly lower risk of post-inflammatory hyperpigmentation compared to traditional cautery.

Treatable Indications
Expand your clinical offering with a single device. D.A.S. is effective for:
• Lesions: Lentigo simplex, Seborrheic keratosis, Viral warts, Fibroma, Xanthelasma, Angiomas.
• Imperfections: Scars (acne and surgical), Skin irregularities.
• Aesthetics: Rhytids reduction, Electropeel.

The Physician’s Benefit
• Layer-by-Layer Technique: Remove lesions precisely until flat.
• No Bleeding: Plasma coagulates as it works.
• Fast Turnaround: Treat multiple lesions in minutes.

Elevate your dermatological practice.

References:

1. Di Brizzi EV, Russo T, Agozzino M, et al. Plasma radiofrequency ablation for treatment of benign skin lesions: Clinical and reflectance confocal microscopy outcomes. Skin Res Technol. 2019;00:1–4
2. Wang L., Ding J.,Yang M.,Chen D., Chen B. In vivo histological evaluation of fractional ablative microplasma radio frequency technology using a roller tip: an animal study. Lasers Med Sci. 2015 Dec;30(9):2287-94
3. Kvam E., Davis, B., Mondello F., Garner A.L. Nonthermal Atmospheric Plasma Rapidly Disinfects Multidrug-Resistant Microbes by Inducing Cell Surface Damage. Antimicrob Agents Chemother. 2012 Apr; 56(4): 2028–2036
4. Wang L., J., Yang M.,Chen D., Chen B. Treatment of facial post-burn hyperpigmentation using micro-plasma radiofrequency technology. Lasers Med Sci. (2015) 30: 241