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Laser powered by the 1470nm diode device along with recent innovations brings the cutting edge technology to Tumescent Liposuction, including targeted fat removal with minimal bleeding and bruising with less physician exertion and a faster recovery in patients.
The Laser system consists of a 1470nm wavelength device, which specifically targets fat-water absorption with the combined capability of infiltration and suction. The device has an integrated cannula and fiber interface for simultaneous lasing and suction.
AR Photoniccs device is most beneficial in the treatment for efficient fat-emulsification and removal of fatty tissues.
The unique radial and bare emitting fiber of the device helps in wider and even-heat emission distribution, with precise temperature control capabilities. The results are improved skin tightening, reduced procedure time, high-fat viability for successful grafting and superior clinical results.
The wavelength of 1470 nm is the optimal for laser lipolysis as it precisely targets water in the soft tissues. The AR Photoniccs 1470 nm proves to be significantly useful in fat removal with minimum tissue damage because of a higher absorption rate of water and fat as compared to other competing devices.
The advantages of using the AR Photoniccs 1470 nm are as follows:
The Ar Photonccs brings together the radial and bare fibre technology into the device. This device uses the laser emission technology to achieve significant success in liposuction and skin grafting treatments. The laser emission technology is a low power density approach in the liposuction that comes with many benefits such as: o Minimal risk of burns o Even distribution of energy throughout the treatment o Quicker removal of fat cells o Larger tissue coverage allowing for the lesser duration of the procedure
The use of radial fibres allows for safe, homogenous and efficient skin tightening by the end of the procedure.
The Liposuction cannula included in the AR Photoniccs kit helps break up the fatty tissue for easy suction and removal. In areas with dense and fibrous adipose tissue, small and precise oscillations allow surgeons to target specific areas safely without damaging the surrounding tissue.
Combined with simultaneous lasing and suction, the liposuction cannula allows the surgeons to remove fat quickly and easily with lesser manual force. As a result, there is less bruising and shorter recovery time, thus making it a more comfortable experience with both the surgeons and the patients.
| Type | Description |
|---|---|
| Laser Type | Diode, Semiconductor |
| Wavelength | 1470nm |
| Max Power | 15 watts |
| Aiming Beam | 635nm, <5mW |
| Operation Mode | Continuous or Pulsed |
| Pulsed Time | 0.05ms ~ 1000ms |
| Beam Delivery | SMA905 connector |
| Optic Fiber Compatible | 200µm to 1000µm core, NA=0.22~0.48 |
| Beam Emission Initiation | Footswitch |
| Controller | Microprocessor |
| Display | 10.1" IPS Touch Panel (Medical Approved) |
| Cooling | Internal air and thermoelectric cooling |
| Power Supply (Laser) | DC 24V/8.33A (from separate AC) |
| Power Supply (AC Adapter) | Single phase 100~240V AC, 50-60Hz, Max 90W |
| Power Supply Output | DC 24V/8.33A Medical Approved |
| Laser Dimensions | 27cm x 11cm x 19cm (L × W × H) |
| Laser Weight | 2.75kg |
| Laser Case Dimensions | 56cm x 35cm x 23cm |
| Total Weight with Case | 9kg |
| Operating Environment | +10°C to +24°C, 30% to 60% RH |
| Class of Medical Device | IIB |
| Laser Safety Class | Class 4 |
| Electrical Safety Class | Class I Type B |
| Housing Protection Degree | IP20B |
| Footswitch Protection Degree | IPX6 |
