Abstract
There are numerous laser and light technology instruments for cosmetic improvement of skin appearance. New technology is constantly being developed to improve cosmesis, shorten recovery and reduce risk.
Introduction
There is a myriad of technologies available to address nearly any concern that patients may have regarding their skin. Lasers and light source treatments offer non-surgical options for rejuvenation including improvement of the skin’s texture and tone. These procedures are often performed as a series of treatments in the physician’s office with little or no downtime or pain. Technology is available to reverse sun damage including age spots and redness, remove unwanted broken blood vessels, and tighten the skin to minimize the appearance of wrinkles or acne scars.
Treatments to Address Redness and Unsightly Blood Vessels
One of the most common indications for laser therapy is the reduction in the appearance of unsightly blood vessels, such as with rosacea, telangiectasias, spider veins and cherry angiomas. Less common indications include vascular malformations, such as port wine stains and hemangiomas. Fortunately, there are multiple safe and effective modalities to address these cosmetic problems. These conditions generally require a series of treatments in order to achieve the optimal results.
The pulsed dye laser (PDL) has a 585 or 595 nm wavelength and is specific for use on blood vessels. It is one of the earliest lasers used for the treatment of vascular lesions (See Figure 1). Fortuitously this laser targets the absorption peaks of oxyhemoglobin, making it very effective. 1 Due to its shorter wavelength, it delivers more energy to the superficial vessels, and often causes purpura, which may result in a longer post-operative recovery. The development of devices to cool the epidermis have allowed the PDL to safely treat structures deeper in the skin, but caution must by exercised, particularly in patients with darker skin types, including tanned patients.
The Neodymium:Yag (Nd:Yag) is a 1064 nm wavelength laser and is also very effective for the treatment of vascular lesions. The Nd:Yag is preferable to the PDL lasers due to the ability to treat deeper vessels and not result in as much purpura. Due to its longer wavelength it tends to spare the epidermis and is safer in darker skin types. The 1064 nm lasers are safe enough to use for laser sclerotherapy and the ablation of leg spider veins.
A third laser device is the intense pulsed light (IPL). It involves a series of cut-off filters which are interchangeable in order to maximize the treatment of specific lesions. This feature makes the treatment with IPL devices especially operator dependent. Although not appropriate for deeper lesions, IPL is effective for rosacea, particularly when done in serial treatment. Besides reducing erythema, IPL treatment often reduces the appearance of brown spots. The IPL devices have large heads, or spot sizes, which allows a single treatment to be completed relatively quickly.
Treatments to Address Age Spots and Pigment
Another common complaint amongst patients seeking laser therapy is facial pigmentation including melasma and age spots (solar lentigos). The target in sun spots and most pigmented lesions are melanosomes.2 There are multiple laser and light devices for the reduction of pigmented lesions, including ablative and non-ablative techniques. In this section we shall discuss the non-ablative methods.
The primary modality used for non-ablative treatment of diffuse epidermal pigmentation, is the intense pulse light (IPL) device. Again, the IPL tends to be very operator dependent, since the improvement is partially dependent upon the choice of the cut-off filter. The most commonly used filter for pigmented lesions is the 515 nm filter. The treatment results in an immediate darkening of the lesions which then slough off over the next several days. As with most laser treatments, this often requires multiple treatments.
In addition to facial rejuvenation, the IPL is also a very safe and effective modality for the treatment of sun spots on the neck/chest and the back of the hands. It is important to remember that these areas do not have as many pilosebaceous units as facial skin and are more susceptible to thermal injury. It is important that an experienced operator meticulously control the laser energy and use an appropriate cooling device.
Treatments for Skin Tightening
Numerous laser technologies exist to treat skin laxity. These lasers exert their effect by targeting water containing tissue. This causes a thermal injury in the dermis which in turn results in collagen shrinkage and remodeling. The primary dividing line amongst them is whether the result is achieved with ablation (breaking the top surface of the skin) or not. This distinction not only determines the potential downtime and risk profile, but also the extent to which the skin can be tightened.
Non-Ablative Treatment Modalities
Radiofrequency (RF), ultrasound (US), and infrared (IR) light modalities all work by targeting dermil collagen.3 These technologies produce thermal effects in the dermis while avoiding cutaneous wounding via epidermal injury. Indications for RF/US/IR based rejuvenation include laxity of the skin on the face, neck, or body. Response to treatment is variable; improvement is often only seen after multiple treatments, and repeat treatments may be needed to maintain results. The benefits of these non-ablative technologies are: no down time, most skin surfaces can be treated such as the neck, chest, areas with stretch marks; and are completely non-invasive.
Fractional photothermolysis was first introduced in 2004.4 Fractionated lasers create microscopic columns of coagulation through the epidermis and dermis eliciting a wound healing response (See Figure 2). Compared to traditional resurfacing, where the entire surface of the skin is ablated, fractionated lasers leave untreated areas of normal skin between the columns. This not only minimizes pain during the procedure, but shortens healing time. Because the non-ablative fractionated lasers heat, but do not ablate, the skin there is little or no effect on the skin surface5. This translates to minimal down time with the effect being similar to sunburn. Indications for non-ablative fractionated lasers include mild acne scarring, mild wrinkling, and especially melasma or hypomelanosis. As with most lasers, but in contrast to traditional resurfacing, fractionated lasers are often done in series in order to achieve a progressive clinical response.
Ablative Treatment Modalities Traditional Resurfacing
Lasers long ago replaced dermabrasion. Until the advent of the fractionated lasers, traditional laser resurfacing was the gold standard. The entire surface of the skin was ablated using a water-targeting CO2 or Erbium:YAG laser. A response similar to a second degree burn was produced; such procedures often required sedation; recovery took weeks to months. Because the entire surface of the skin was affected, it was limited to individuals with fair complexions. Even in these skin types permanent relative hypo-pigmentation often developed. With the new generation of fractionated laser technology, fewer patients are choosing traditional resurfacing.6 There are still some indications for full surface ablation. For instance, traditional resurfacing is especially beneficial in treating the wrinkles around the eyes. In this area, the skin is thinner, requires less aggressive resurfacing, and elicits a superior result in one treatment that would require a series of fractionated laser treatments. Both treatment types would require the same amount of down time (about one to two weeks) due to swelling.
Fractionated Resurfacing
Ablative fractionated lasers are the newest form of laser technology. They incorporate the effectiveness of the CO2 and Erbium:YAG lasers with the benefit of fractional photothermolysis by creating fully ablative columns of microthermal injury. While producing more “down time” than their non-ablative counterparts, the cosmetic improvement is more apparent and achieved in fewer treatments. Because the surface of the skin is affected, one can expect transient pin-point bleeding (usually lasting less than 24 hours) followed by a severe sunburn type reaction for several days up to one week. Because much of the skin’s surface is left intact, however, patients are free to apply make-up or concealer after 1–2 days. For many conditions, such as moderate to severe sun damage and wrinkling, moderate to severe textural abnormalities such as rhinophyma (See Figure 3), moderate to severe acne scars, as well as traumatic or surgical scars, the ablative fractionated lasers have surpassed traditional resurfacing in efficacy while minimizing downtime, side effects, and complication risks7.
Conclusion
There are numerous laser and light technology instruments for cosmetic improvement of skin appearance. New technology is constantly being developed to improve cosmesis, shorten recovery and reduce risk.
Table 1 highlights the types of treatments described in this article, as well as their relative effectiveness in treating various lesions.
Table 1.
PDL/Nd:YAG | BBL/IPL | Non ablative non fractionated | Non ablative fractionated | Ablative non fractionated | Ablative fractionated | |
---|---|---|---|---|---|---|
Redness/vessels | +++ | ++ | − | − | − | − |
Sun/age spots | + | +++ | − | ++ | +++ | ++ |
Skin laxity | + | + | +++ | + | ++ | + |
Skin texture | + | + | + | ++ | +++ | +++ |
Downtime | − | +/− | − | +/− | +++ | ++ |
Further information on these treatments can be obtained from the American Society for Dermatologic Surgery website at www.asds.net.
Biography
Stacey Saito Tull, MD, MPH, MSMA member since 2007, and Saadia Raza, MD are Co-Directors of the Skin Surgery Center of Missouri in O’Fallon.
Contact: www.sscmissouri.com
Footnotes
Disclosure
None reported.
References
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