Laser tattoo removal is an effective and safe way to remove unwanted tattoos.
Effective Tattoo Removal – Hamilton
Smooth Skin Health Centre Hamilton offers a safe and effective treatment for tattoo removal. We have knowledgeable staff and use only medical grade Laser equipment and highly specialized techniques for removing tattoos of all colors safely, quickly and effectively.
The Fotona QMax Q-Switched laser is the ideal tool for effectively removing complex and multi-colored tattoos. Multi-wavelength, Q-Switched laser systems with frequency-doubled KTP are uniquely able to produce very short pulses of intense light that pass harmlessly through the top layers of skin to be selectively absorbed by treatment-specific pigments.
Highest Energy for Maximum Effectiveness
Fotona’s Q-Switched laser technology generates high-energy nanosecond pulses that are efficient at removing many types of tattoos. By using larger spot sizes at very high energy, deeper-lying pigmented structures can be reached and removed, and laser treatment efficacy and efficiency in a single session are significantly enhanced.
Different Wavelengths for Multicolored Tattoos
Fotona’s Q-Switched lasers offer four wavelengths in one system – enabling treatments for virtually all commonly used pigment colors. Extremely short energy pulses cause tattoo pigments to break into smaller particles, which are then removed by the body’s own immune system. Most tattoo procedures take only a few minutes, but several treatments are typically needed to completely remove a tattoo.
Patented Technology for Safer & More Precise Treatments
Homogeneity of a laser beam profile ensures greater safety during treatments since laser energy is evenly distributed across the treated area. Epidermal damage is minimized and the risk of bleeding, tissue splatter and transient textural changes in the skin is decreased. Fotona’s advanced Q-switched laser technology relies on groundbreaking solutions such as patented OPTOflex® and Vacuum Cell Technologies to produce an almost perfectly homogeneous beam profile, resulting in safer and more effective treatments for our patients.