PHRC

Cart empty

Mon06262017

Last update02:35:57 PM

The Latest in Lasers

Rate this item
(0 votes)

Light based technologies have revolutionized aesthetic procedures and medicine. Lasers are at the pinnacle of these technologies because of their brightness and intensity, but significant improvements in a wide variety of cosmetic conditions are also afforded by other light sources such as IPL's (Intense Pulsed Light Systems), LED banks (Light Emitting Diodes), and other Low Level Light Therapy (LLLT) modalities. Anyone working in the field of aesthetics should have a good understanding of the basic principles behind laser and light based therapies whether or not you are actually treating clients with these devices because they impact so many conditions in so many people.

Even though you'll find a steady evolution of the lasers and delivery devices into more user-friendly and ergonomic devices, most of the latest advances in the last couple of years have come from a realization that it is combinations of "cocktails" of different modalities of treatments that are making the most remarkable improvements in skin conditions rather than one particular type of laser treatment alone. Combinations of various laser modalities with some drug therapies, skin care, and cosmeceuticals can produce results that surpass the sum of their individual parts. As only one example, skin rejuvenation in clients with sun damage and acne can be pre-treated with microdermabrasion to enhance topical drug delivery and surface optics of the skin, then followed with the application of the photosensitizing drug levulan, activated with blue light and further treated with pulsed dye or copper bromide laser yellow light, followed by a consistent regime of skin care and cosmeceuticals.
On the technology side the greatest practical advancement in lasers over the last few years has been the modularization of devices so that the user can buy one device that has several different laser or IPL modalities available from the same machine, and allows them to upgrade or change at any point in time. This is important because there is no single "best" laser or light source for all aesthetic procedures. Each laser has its own strengths even though there is some overlap in types of applications among the various laser wavelengths. You can't get just one device that will do everything so you must choose the application(s) that are most important to you. Modular devices allow you to economically expand the application base in your practice. A large practice that can justify multiple lasers could conceivably incorporate a dozen or more types of lasers and other light sources into their practice to treat all conditions.
Some units are completely modular in that the configuration can be changed on demand, and other manufacturers simply incorporate multiple wavelengths into their units as a fixed configuration. There are many choices. Examples would include the combination of 532nm and 1064nm for skin rejuvenation, pigmented lesions, hair removal, and leg veins; the 511nm and 578nm combinations for pigmented lesions, vascular lesions and skin rejuvenation; 2940nm and 10600nm combinations for superficial but hemostatic ablative skin resurfacing with deeper skin rejuvenation; combining various laser wavelengths with broadband IPL wavelengths for multiple applications; and even combining laser or IPL with radiofrequency (RF) energy to enhance the selective heating effects.
Another trend in lasers is to move toward larger spot sizes. This cuts treatment times, increases client turnover and is generally more profitable. Larger spots are also more effective. IPL's have the largest "footprint" or spot diameters – some up to 15mm x 45mm. IPL's are good for many applications but as a general rule do not have the high degree of specificity of a laser. Most lasers have hand pieces that will allow up to 10 to 18mm spots. The larger the spot that is used, the more laser energy that is required to maintain the clinically effective dose of light within that spot. That's why larger spot capability lasers generally cost more than smaller spot counterparts.
The basis of most aesthetic laser procedures such as laser hair removal, treatment of small vascular lesions (red or blue), acne, pigmented lesion removal or nonablative skin rejuvenation is the controlled induction of heat into the target tissues from the specific wavelength (color) of laser light. The heightened specificity of laser light to these targets comes from a principle known as selective photothermolysis. Certain colors of targets (dark hair follicles, red blood vessels, etc) selectively absorb certain colors of light to generate heat within that target, while adjacent non-pigmented skin does not absorb it. For instance yellow light is best absorbed by oxygenated hemoglobin in blood vessels to treat small red capillaries. Green light is highly absorbed by melanin and so it is used for pigmented lesions.
There is some overlap in applications shown in the table below and it is not all inclusive, but it gives you a simplistic look at the types and colors of various lasers and their predominate applications:

Type of Laser

Color / Wavelength

Typical Applications

CO2

Infrared 10,600nm

Ablative Skin Resurfacing

Erbium:Yag

Infrared 2,940nm

Ablative Skin Resurfacing

Diode Lasers

Variable Infrared 800-1500nm

Skin rejuvenation,
Hair Removal, veins

Neodymium:Yag

Infrared 1064nm

Hair Removal, Skin Rejuvenation, deeper leg veins

Alexandrite

Infrared 755nm

Hair Removal, veins

Ruby

Red 690nm

Hair Removal

Continuous Dye Laser

Red 630nm

Photodynamic Therapy with photosensitizing drugs

Pulsed Dye Laser

Yellow/Orange 585-605nm

Vascular lesions – port wines, telangiectasia, etc. Skin rejuvenation, Rosacea

Copper Bromide

Yellow 578nm

Green 511nm

Vascular lesions & skin rejuvenation as above

Pigmented lesions – age spots, freckles, etc.

Krypton

Yellow 577nm

Green 514nm

Vascular & pigmented lesions as above.

KTP
(Potassium Titanyl Phosphate)

Green 532 nm

Small vascular lesions. Pigmented lesions as above

Diode Laser

Green 532nm

Same as the green above

It should be noted here that this lists the technical names of the lasers – what they actually are. Manufacturers however have predominantly resorted to using strictly marketing names for lasers in lieu of the actual name. This can make it confusing to keep track and there are far too many names to even attempt to list here, but some examples would include "Smoothglide", "Gentlelase", "Fractal", "Profile", "LightSheer" or many others. Please remember that these are only marketing names and the user should know what the underlying lasers or light sources are.
A general principle is that the longer the wavelength of the light (i.e. infrared outputs from diode or Nd:Yag lasers) the deeper the penetration and heating into the skin. Deeper veins require longer wavelengths. Dark skin becomes very problematic because its melanin absorbs a broad range of wavelengths and the risk of burning the skin becomes very high. Shorter wavelengths are the worst. Longer wavelengths such as the Nd:Yag laser at 1064nm coupled with longer pulse widths of energy delivery and external skin cooling are commonly used to prevent burns and achieve good cosmetic results. Utilizing the shorter wavelength 755nm Alexandrite laser for hair removal in a dark skinned (or even sun tanned) client would most likely result in blistering of the skin because of the high degree of absorption by the melanin, even though that wavelength might be perfect for a skin type III Caucasian. Herein lies one of the ethical dilemmas in running a successful aesthetic laser practice. Unless you can afford to incorporate many modalities into your practice, you can't treat everyone and you must have a good working knowledge of where the limits of practical use are for each wavelength and modality you do have. There are times when it is most prudent to simply tell a client that your equipment is not appropriate for their condition and skin type, and then refer them elsewhere. Discretion is the better part of valor for a knowledgeable laser operator.
Control over laser pulse widths provides an additional variable for both effective treatments and to ensure safety in darker skin. The pulse of laser light must be delivered in a short enough period of time so that the resulting heat cannot escape from the targeted tissue before it is thermally destroyed. This time is known as the thermal relaxation time of tissues. If your laser pulse is long enough at a given dose of light, then the structure (i.e. capillary blood vessel, hair follicle, freckle) begins to dissipate that heat and survives. Delivering the same therapeutic dose in a pulse shorter than this time essentially overwhelms the structure with the heat and it dies. Short pulse widths are effective clinically but they result in increased client discomfort and can create skin burns, especially on dark skin. Longer pulse widths are not as effective but are "safer" on darker skin. Previously a 100-millisecond pulse was considered a very long pulse on most aesthetic lasers, but some units are now allowing pulse widths of 400-500 milliseconds. Ordinarily that would decrease the effectiveness of the treatment but the dosage of the light is significantly increased to compensate for this long pulse time. A method of external cooling of the skin becomes critical at these high dosages.
Adjunctive external skin cooling is essential with all of these laser and IPL modalities. The art of effective aesthetic laser application is a fine balancing act of creating just enough heat to damage the target without excessive heating of the skin, which creates burns. Wavelength selection and pulse width control are the first tools in this balancing act, and external cooling provides the final control. Cooling devices can be separate stand-alone devices or incorporated into the laser hand pieces themselves. Four different approaches can be taken which include application of chilled gels to the skin, use of contact cooling devices (chilled sapphire plates to treat through, copper plates to pre & post chill), a cold air chiller that blows ice cold air onto the client's skin, or cryogen sprays that are incorporated into the handpiece and computer controlled with the laser pulse. Remember that it is a balancing act. If you excessively chill the skin to a deep enough level you will protect against inadvertent burns, but you'll also reduce or eliminate the effectiveness of the treatment. In other words you'll spare the target along with the skin.
Nonablative skin rejuvenation is the most generic of all these light-based treatments and involves a very slight heating deep within the dermis just enough to create a minor inflammatory response. The subsequent healing process enhances the underlying collagen and fills out the skin. It is a process that takes many treatments over time but has virtually no down time for the client because at most they just turn a little red. With such generalized deep heating it's no wonder there are so many modalities that will work: IPL's, yellow light, infrared light and even Radio Frequency induced heating. These are all noninvasive and are primarily performed by nonphysicians where allowed by law.
Ablative skin resurfacing produces the most dramatic improvements but has the highest downtime for the client because of recovery from the "controlled burn". It's the healing process that creates new skin. Because of the invasiveness of these procedures physicians always perform them. CO2 and Er:Yag lasers are primarily used, and a new procedure called Fractional Ablation significantly reduces client downtime while retaining the dramatic improvements.
There are other modalities we don't have time to discuss here, but one of the most potentially widespread applications over the long term is the use of Low Level Light Therapy to induce various rejuvenative metabolic processes without the initial insult of inflammation. Using small low power light sources of different types including lasers, terminology such as photomodulation, biostimulation and "soft" or "cold" lasers have all been used to describe the therapy. It is emerging as a major therapeutic modality in the healing arts community, and may eventually see widespread home use.

Remember that manufacturers will supply treatment protocols that give you a starting point for laser settings. Since everyone reacts a bit differently you should do some test shots and wait to see the skin reaction, and then adjust accordingly. Learning the basics of aesthetic laser procedures is not difficult but does require the effort to learn some basic energy, tissue interaction, and safety concepts.

Gregory T. Absten BSc, MBA is the Executive Director of Professional Medical Education Assn and the Laser Training Institute. Absten sits on the Board of Directors for the American Society for Laser Medicine and Surgery, and for the World Association of Laser Applications. He is Chairman of the National Council on Laser Excellences, which provides non-physician laser certifications. With more than 26 years experience in the medical laser field he is internationally published on a wide variety of laser topics and has served as an advisor to many laser organizations and groups. For more information you may contact Absten at This email address is being protected from spambots. You need JavaScript enabled to view it. , or visit www.lasertraining.org to download free material or browse through virtually all of the laser manufacturer's websites and products.

Read 1675 times Last modified on Friday, 08 March 2013 17:31
Login to post comments

facebook-community Like PHRConline @ Facebook.com Join Our Community

horizontal

Alexandria-Pro