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Photo Biotech Laser Hair Removal 800HRP Portable System uses the most effective distinctive long pulse-width 808nm laser that can penetrate to hair follicle and results in the unmatched light absorption by the melanin. PBT 800HRP laser energy is unsurpassed in absorption of the laser. The Latter then heats the hair shaft and hair follicle and disables the hair follicle and oxygen organization of the hair follicle. The advance cooling technology, cools and protects the skin resulting in a relatively painless and comfortable permanent hair removal experience. *Results may slightly vary.
DEPTH OF PENETRATION
The only laser with unique and dedicated technology for pain reduction, enhanced efficacy, safety.
The 800 HRP SOLO is a versatile platform with optimal wavelength 800 nm diode hair removal system.
The Photo Biotech 800 HRP SOLO enables permanent hair reduction from all areas of the body. Its advanced technology reduces pain while increasing efficacy, enabling fast and comfortable treatments for patients and practitioners.
- Arctic Frost Tip -4ºC
- 10 x 20 mm spot size
- Fluence up to 100 J/cm2
- Arctic Chill continuous contact cooling
- Pulse widths up to 400 ms
- Treatment Effective on all skin types (I-VI) hair colors, as well as tanned skin and pseudofolliculitis barbae
- Successful treatment of pseudofolliculitis barbae (PFB), leg veins and benign pigmented lesions
- Uses Acrtic Chill dual technology cooling hand piece with a 10 x 20mm square sapphire tip that actively cools before, during and after treatment pulses to minimize patient discomfort and enable the use of higher treatment fluences
- Minimal operating cost of ownership because diode technology is a highly stable, highly efficient laser source, ensuring dependable operation even in the most demanding clinical setting with no equipment downtime
- Mobile, compact and lightweight design
- User-friendly quick start controls
- Non Invasive, No Down Time, Rapid treatment sessions
HRP 800 SOLO
What Areas Can be Treated?
Problematic and excessive hair growth are seen more commonly in many ethnic populations, including South American, African, Asian- Pacific, Middle Eastern, Mediterranean and African-American subjects. Pseudofolliculitis barbae (PFB), “beard bumps” and ingrown hair is a common disorder in African-American, African-Caribbean and African subjects with tightly curled or coiled facial hair. In PFB, curved hairs emerge from curved follicles at an acute angle and penetrate the nearby skin causing a reaction that is characterized by papules, pustules or small nodules at the point of re-entry.
An 808 nm diode laser with contact cooling and very long pulse widths provides for effective, long-term hair reduction of medium to coarse pigmented hair, even in some darker-skin subjects. Very long pulse widths allow for all skin types to tolerate substantially higher fluences, and thus darker skin types can be safely and effectively treated. Additionally, preliminary results demonstrate that very long pulse widths do not significantly decrease the efficacy for medium to coarse hair reduction for any given fluence. Combined with aggressive contact skin cooling which reduces epidermal damage. It is important to note, however, that such cooling must occur not just prior (pre-cooling), but throughout the entire laser pulse, to maximize protection of the epidermis. This type of concurrent (parallel) cooling is effectively implemented by contacting the skin with a chilled sapphire tip transparent to laser light. The combination of longer pulse widths and the unique contact cooling system reduces skin damage and allows for higher fluences to be safely used on darker skin.
THE SKIN ETHNIC COLOR TYPE (ECT)
ECT classifies patients for descriptive purposes based on their skin color and ethnicity. This new classification scale is believed to be significantly more useful in determining appropriate parameters for laser hair removal.
The effectiveness of laser hair reduction depends on many variables, including the subject’s skin type. Laser hair reduction is typically more effective in lighter-skin people with dark hair than in darker-skin people because higher fluences can be safely used. The challenge associated with laser treatment for darker-skin subjects is to avoid surface skin (epidermal and upper dermal) injury due to absorption of light in the pigmented epidermis, while still causing selective destruction of the underlying pigmented hair follicles.
Treatment (laser epilation) operates on the principle of selective photothermolysis. This process combines selective absorption of light energy by the melanin in hair follicles with suitable fluences (energies per unit area) and pulse durations that are equal to or less than the thermal relaxation time (TRT) of targeted follicles in human skin (10-100 ms). However, additional studies indicate that the ideal pulse duration for medium to coarse hair reduction might be longer than the TRT of the hair follicle. Because the chromophore (melanin in the hair shaft and matrix cells) occupies a much smaller volume compared to the follicle, thermal diffusion is necessary for follicle destruction. Therefore, a much longer pulse duration appears to be required to achieve optimal results. Heat is conducted from the shaft and melanized portion of the bulb to surrounding structures according to the laws of thermal diffusion.
BEFORE AND AFTER *Results may slightly vary.
|Light Source||Diode laser|
|Pulse width||10-400ms adjustable|
|Quattro Cooling System||Thermal electric cooling + water cooling+ Air cooling + sapphire contact cooling|
|LCD screen||8.0 inch 24 color multi color touch screen|
|Power requirement||AC220V±10% 50Hz, AC110V±10% 60Hz|
|Laser water temperature||30°C|