The EternityTSR Q-Switched Ruby Laser has plenty of power to remove resistant inks, so you never need to question the capabilities of your technology. This powerhouse system boasts an unequaled 1200 mJ pulse energy – making it the most powerful Q-switched ruby tattoo removal laser on the market.
Zero Consumable Costs
Dye handpieces go beyond being ineffective for treating tattoos – they’re also costly to practices. Unlike lasers, dye handpieces are “consumable” filters which means they wear out quickly with consistent use. It typically costs about $5,000 to replace a single dye handpiece.
As tattoos trends are shifting toward brighter, more colorful designs and the use of blue and green inks rises, practices relying on dye handpieces to treat resistant colors will continue to be reminded of their expense. For tattoos with significant portions of blue or green inks, it may be cost prohibitive to use dye handpieces at all.
The EternityTSR Q-Switched Ruby Laser contains no consumables, so the effective cost of providing treatments is virtually nothing – allowing practices to keep expenses low and to profit more.
Alternative “combination” systems with handpiece filters, fiber beam deliveries, or single optic sets cannot consistently deliver the power necessary to treat resistant colors.
Impregnated dye handpieces fail after a few hundred thousand pulses – and are typically very expensive to replace.
Lasers with fiber-based energy transfers, while fine for lower-energy applications such as hair removal, cannot handle the high energy required for tattoo removal. As a result, the fibers break after repeated use, causing reduced efficacy and costly repairs.
Systems that use a single articulated arm to transmit beams from both Nd:YAG and ruby lasers often suffer from burned, overused optics – and the resulting maintenance costs.
The EternityTSR is a powerful, dependable Q-Switched Ruby Laser that performs one function perfectly – instead of many functions poorly. Practitioners using the Eternity rave about reliable treatment efficacy and minimal maintenance costs.