The most advanced hair removal technology
HB Laser Skin Clinics offers the latest technology. A cost-effective long term solution to solve your hair removal worries. With over 27 years experience in the industry, you can rest assured that your safety is our priority.
Introducing the Milesman Compact Blend
Finding the one perfect laser is impossible as patients have marked differences in their skin colour, hair colour, hair thickness and hair depth.
Milesman, a world-class innovator of dermatologic lasers is proud to announce the new Milesman Compact Blend - the first 4 wavelength laser on the market. And now, HB Laser Skin Clinics is proud to offer this technology to our clients.
Based on clinical evidence, a hair removal diode laser of 810nm is considered as the universal standard for hair removal for most skin types. It is also the most commonly used wavelength in the crowded hair removal market.
The downside is that light colour or fine hair may be resistant to the treatment due to scarcity of melanin in the hair shaft.
Treatment of dark skin type patients can also be difficult due to skin melanin absorption.
The blend is the compromise between these two ranges which has better penetration depth and much higher absorption of melanin, providing the best result to treat a wider range of skin and hair types.
How does the Blend work?
Being the only 4 wavelength laser, the blend has a better penetration depth, and can treat a wider range of the hair types and skin colours.
The 4 wavelengths work as follows:
NO MORE electrolysis, waxing, shaving, IPL, VPL or painful laser that only treats dark coarse hair.
An Efficient and Painless Treatment
Thanks to the absence of a "hot spot", we are able to deliver high energy and eliminate patient discomfort as well as almost all of the usual side effects.
The new VCSEL technology distributes the energy homogeneously along the spot, eliminating the "hot spot" or "tack effect" that is a common feature in most previous technologies.
⇣ Drag elements to your Custom Footer Container ⇣