SOLRAY is an advanced fractional IPL device with cutting-edge technology that ensures outstanding clinical results while significantly reducing the risk of adverse reactions typically associated with traditional IPL treatments.
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SOLRAY's fractional sapphire tip has 140 individual cells. This innovative design optimizes treatment efficacy and minimizes the appearance of unwanted "tiger marks," a common issue in many IPL procedures.
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In addition to its superior tip design, SOLRAY offers exceptional versatility with its 7 push-in type filters. These filters allow the device to cater to a wide range of indications, making it suitable for patients with varying skin tones and types.
Advantages
Fast treatment
Verified parameters
Rotating technology based on IPL
Stable energy supply
Coollable cooling system
Smart Mode
Solray Mode | Description |
|---|---|
SOLRAY EPI | Successfully treats light pigmentation |
SOLRAY DERMI | Effective for pigmentation and photo rejuvenation treatments |
VASCULAR | Efficient in treating hot flushes and telangiectasia |
ACNE | Targets acne effectively; frequency 1, 3, 5 Hz |
THIN HAIR | Removes thin hair effectively |
THICK HAIR | Removes thick hair effectively |
SHR | Targets armpit and leg hair removal effectively; frequency 1, 3, 5 Hz |
Deplication Mode | Description |
|---|---|
THIN HAIR | Effectively removes thin hair |
THICK HAIR | Effectively removes thick hair |
ALEX LIGHT | Effectively removes hair from the arm, calf, armpit, and leg areas |
SHR | Offers less painful treatment; frequencies 1, 3, and 5 Hz |
Application
Pigmented Lesions
Solar Lentigines
Freckles
Melasma
Hyperpigmentation (PIH)
Vascular Lesions
Telangiectasia
Flushing
Rosacea
Rejuvenation
Wrinkles
Enlarged Pores
Acne
Hair Removal
Technology
Phototherapy is a treatment method for skin diseases utilizing light rays. It operates on the principle of selective photothermolysis, where light is absorbed by a chromophore reacting to a specific wavelength, generating heat that destroys the chromophore.
Unlike lasers, which exhibit monochromatic, coherent, and collimated light, phototherapy units employ xenon lamps, providing non-monochromatic, non-coherent, and defocused light.
Controlled discharge of a wide range of wavelengths via cut-off filters enables selective photothermolysis of target chromophores like melanin, (oxy)hemoglobin, or water, without harming surrounding tissue at various skin depths.
Phototherapy, when utilizing wavelengths between 550-950nm, is particularly effective for treating vascular lesions such as venous malformations, capillary expansion, angiomas, port wine stains, and civatte poikiloderma, as it is absorbed by (oxy)hemoglobin rather than water.
Selective photothermolysis is a principle that safeguards normal skin while targeting and destroying pigment areas based on the wavelength generated and the medium involved.
140 Multi-cell Technology
Multi-cell technology utilizes a sapphire filter with a micro-sized lattice structure to effectively contain light energy within individual cells, creating a square-outline safety zone between adjacent cells. This design helps preserve intact healthy tissues within the safety zone, following a fractional concept for enhanced precision. Additionally, it ensures safe treatment for patients with tanned or dark skin.
Push-in Filters with Seven Wavebands
SOLRAY offers seven different filters to accommodate various indications. Its push-in design allows for quick and effortless filter changes without requiring a full handpiece replacement. This user-friendly feature streamlines the treatment process, enhances convenience, and reduces overall procedure time.
Safer Treatment
SOLRAY creates a square-outline safety zone between adjacent cells, following the fractional laser concept. This design generates multiple small vesicles, replicating the fractionation effect while minimizing the risk of post-inflammatory hyperpigmentation (PIH) or scarring. By preventing hyperpigmentation issues such as "tiger stripes," SOLRAY ensures safe and effective treatment, even for patients with tanned or dark skin.
After 48 hours following an excessive SOLRAY treatment, it is observed that instead of a singular blister, only numerous tiny vesicles have formed. Overdose parameters was 415 nm filter, 3.5 ms & 5 ms (delay 20ms), 12 J/cm². Note that normal doses is usually 7 to 8 J/cm² only.
Technical Specification
Models
SOLRAY