As a leader in advanced laser technology, we proudly offer Fotona laser treatments. Our expert practitioners are trained and experienced in utilizing this cutting-edge technology to address a wide range of concerns, from skin tightening and resurfacing to hair removal and more. Experience the benefits of Fotona lasers with our medspa's precise and effective procedures.
Fotona4D® is a groundbreaking non-surgical face lifting procedure resulting in a rejuvenated, natural-looking appearance. It consists of four distinct treatments, a series of synergistic, non-invasive laser treatments of both the exterior facial and interior oral cavity, enabling full thickness contraction of collagen for persistent tightening and volumization without injectables.
Fotona TightSculpting® is a unique dual-wavelength, non-invasive laser treatment for sculpting and skin tightening on all body areas. The exclusive delivery modes are used in concert for hyperthermic adipocyte destruction and collagen remodeling with exceptional results. The procedure is a fast, safe and effective non-invasive alternative to laser lipolysis.
In contrast to injectable fillers, the LipLase™ treatment is non-invasive, and there is nothing artificial as patients develop their own collagen in their lips. With several adjusted passes the characteristics of ‘ideal lips’ can be achieved such as fullness, volume, correct balance between the upper and lower lips and a well-defined vermilion border.
SmoothEye® is a new and exciting non-ablative Fotona SMOOTH® mode treatment for tightening of the periocular region and reducing the appearance of periorbital wrinkles. SmoothEye® significantly tightens loose and aging skin of the eyelids and periocular region with little-to-no downtime and maximum patient comfort, making this a very sought after non-invasive cosmetic procedure.
After a few treatment sessions, the result is improved skin elasticity, overall structure, and volume with significant wrinkle reduction.
Laser Hair Removal
Permanent hair reduction is achieved by using an innovative system that effectively targets hair follicles with a combination of selective and homogenous photothermolysis. The success of hair reduction treatments depends largely on a patient’s skin and hair type, as well as the skills and treatment insight of the practitioner. Most patients can expect a significant reduction in unwanted hair, and any future hair growth will usually be thinner and lighter, and thus much less pronounced than before.
Laser treatments are now a routine procedure for the removal of many types of vascular lesions, including hemangiomas, telangiectasias, and angiomas. The targeted chromophore for vascular lesions is intravascular oxyhemoglobin; thus, thermal damage is largely restricted to cutaneous blood vessels. The energy from the laser is absorbed by the blood in the vein, converted into heat, and the vein walls are subsequently destroyed.
Acne scars/scars revision
For active acne, Fotona’s laser treatment reduces acne inflammation through photoselective absorption and controlled heating effects. Fotona’s high powered Nd:YAG laser safely penetrates the skin to an optimal treatment depth to thermally and selectively destroy overactive sebaceous glands. The Er:YAG laser safely and effectively provides the minimal penetration depth required for light resurfacing of acne-scarred skin, helping to improve skin texture and tone. Unlike chemical peels and dermabrasion, laser skin resurfacing allows the penetration depth to be precisely controlled. The laser gently vaporizes micron-thin layers of the acne-scarred surface to reveal healthy, undamaged skin below. Laser resurfacing is a fast, safe and simple procedure.
Benign Skin Lesions Removal
Fotona laser treatment is a highly effective form of skin tag removal without pain or unsightly scarring. This is often achieved in a single session.
The depth of beam penetration can be adjusted on an individual basis. The laser quickly touches the skin tag, strategically destroying micro-thin layers of skin at the tag’s root, without harming surrounding tissue, thereby minimising the risk of scarring.