Rainbow Threads PDO Mono 26G / 60 mm x 100 mm (20 pcs.)
€59.50
Description
Product information
Rainbow Threads PDO Mono 26G / 60 mm x 100 mm (20 pcs.)
Minimally invasive thread lift for natural skin tightening & collagen stimulation
Rainbow Threads PDO Mono 26G are high-quality, absorbable PDO threads designed for targeted skin tightening and biostimulation. They support natural collagen regeneration and visibly improve skin firmness and structure – without the use of volumizing fillers. Ideal for modern thread lifting and rejuvenation treatments.
Effective tissue stimulation for firmer, tighter skin
Rainbow PDO Mono threads are inserted into the tissue using a minimally invasive technique, where they specifically stimulate collagen and elastin production. The result is improved skin quality, enhanced firmness, and a natural-looking tightening effect. Particularly suitable for patients seeking a gentle lifting alternative without surgical intervention.
With their fine 26G cannula, the threads allow for precise placement and controlled tissue stimulation. They are ideal for large-area treatments aimed at skin densification and firming.
Product features & technical details
- Treatment areas: Face, cheeks, jawline, neck, décolleté, perioral region, delicate skin areas
- Active ingredient concentration: 100% polydioxanone (PDO)
- Molecular weight: High-molecular, absorbable PDO material
- pH value: Biocompatible, tissue-neutral
- Mode of action: Mechanical stimulation & activation of collagen and elastin synthesis
- Duration of effect: Thread resorption after approx. 6–8 months, collagen formation continues beyond
- Treatment cycle & benefits: Individually customizable, combinable with other aesthetic procedures; minimally invasive, no volume enhancement, short downtime
Your solution for modern, minimally invasive lifting concepts
Choose Rainbow Threads PDO Mono 26G for precise, safe, and effective thread lift treatments. Order now and expand your portfolio with a proven method for natural skin tightening and tissue regeneration.
