Plenty of lasers are marketed for lipolysis. How should you choose the right lazer? Here is an innovative thought… let’s use scientific research. All of the lipo lasers on the market will work, but the issue is not merely effectiveness – it is also safety and speed. boss laser
Presently there are only so many things a laser can do to inside the tissue. It is usually absorbed, mirrored, diffused and refracted… that is about it. What you are looking for is an equilibrium. Therefore often companies will show how their laser is the best absorption or has the most significant Fluence and so on. While that is sometimes helpful, what we are actually after is clinical utility, safety and efficacy. A laser with too great absorption in fat will bring about an extremely hot laser idea and no real amount of heat. We are not trying to ablate the fat, we are seeking to melt the fat. Thus a laser with a mid-range of fat ingestion and a mid- range of fat diffusion will give the most significant quantity of heat. If the laser has enough ability we can then control the heat within that volume and find the major volume at the right heat to the actual best job. Of the several wavelengths on the market, the major volume is with 1064 followed by 980 and 920. The 1320 and 1440 are smaller yet. The tiny volume of the 1440 nm results in powerful heat for the reason that region. Some have suggested this is an advantage. This is certainly plainly not the circumstance. What this means is that with each move of the laser cannula you will heat a larger volume of fats to the clinically appropriate temperature (about 65O C). Because of this, fewer passes and faster techniques result with Nd: YAG at 1064 nm.
Distinct lasers will vary ingestion in several tissues. You never want a laser that has high absorption in your skin because if you will work near to the under surface of the skin, you may see problems of over-heating the skin that can cause burns. Inside the complete article with chart, you will see two illustrations that represent the effect of laser energy when pointed to the skin. The left area of the graph is skin surface. The you to at least one. 5 mark is the under side of skin. What you will see is that the 1440 laser shows significant surges at the depth. This can be a temperature spike. You will recognize that the temperature is an event of the position of the laser energy to the skins under surface. When working near the undersurface of the skin, it is reasonably easy to push the cannula up against the underside of the skin area and fire the laser beam at “point blank” and 0 degrees creating a whole lot of heat into the skin. This can cause side effects. With Nd: YAG or 1064 we do not see these spikes. This results in fewer side effects and an improved safety profile.
In addition, you will need to choose a laser with variable pillow pulsing (VSP). There are several reason for this. Is as I always say… an individual want an one trick horse. With VSP your lipolysis laser can have QCW – that is Quazi Continuous Wave. It had been show to coagulate blood better that Continuous Wave, ensuing in fewer bruises and faster recovery. In addition, because V means Adjustable you can select much longer pulse widths. That allows for other treatments such a transcutaneous skin tensing (as in FRAC3), vascular work (such as index veins) and hair removing. In addition, a similar wavelength, for the same reasons, is great at endovascular veinous therapies.
The 1064 nm Nd: YAG lasers are definitely the most broadly used lasers for lipolysis, with the longest specialized medical record of safety and efficacy. The clinical correction of minimal discomfort, exceptional long-term success and brief recovery are attributed to the 1064nm Nd: YAG’s ability to optimally aim for laser energy into oily tissue, thereby limiting unwanted mechanical and thermal results in the nearby tissues.