Safer, Faster and More Effective
Forever Bare BBL from Sciton is an innovative technology in hair removal. Usually, hair removal devices will apply all of their energy at once in the particular area. Forever Bare BBL sends multiple lower fluence pulses at a high repetition rate. This makes the treatment safer, faster, more effective and comfortable. With the motion BBL technology, this enables an extremely even heat which treats the hair follicles and minimizes missed areas that occur with traditional hair removal devices.
Cool and Comfortable
Along with the motion BBL technology, there is a thermoelectrically cooled sapphire plate on the Forever Bare BBL handpiece. This provides uninterrupted cooling (even at maximum power) which will keep the skin cool and comfortable before, during and even after treatment.
Benefits
The Forever Bare BBL comes with a multitude of benefits:
Speed: There is a large, 15 x 45 mm spot size that is accompanied with the highest power and repetition rate which allows for very fast treatment times.
Safety: Because the energy comes in multiple bursts instead of all at once, the device will keep your skin protected. It will also gradually raise the follicle temperature to the right level for hair removal.
Flexibility: With the multiple spot size adapters, this makes it much easier to treat large areas faster and smaller areas with more precision. The smoothie adapters will soften the edges of the treatment head which will make the treatment even more comfortable when using the motion technique.
Skin Types: Forever Bare BBL can work for most skin types due to the increased temperature of the follicle to the right levels for removal all while keeping skin protected with cooling, Forever Bare BBL can effectively treat up to skin type V.
If you’re looking for professional hair removal services with guaranteed results, contact Dr. Gregory Roche today. We are a full-service cosmetic surgery office – from breast implants to botox and hair removal – we have a solution for all of your cosmetic needs.