ND YAG LONG PULSE LASER

The Nd:YAG wavelength is a common wavelength used in dermatology, which is generated through the Neodymium-doped yttrium aluminium garnet crystal at a wavelength of 1064 nm in the near-infrared range of the electromagnetic spectrum. The Nd:YAG as a wavelength is uniquely positioned in terms of the absorption coefficients of the three main chromophores in the skin (water, melanin, and haemoglobin) and it is this advantage that makes the Nd:YAG laser popular as a treatment for multiple conditions that require targeting these chromophores. The effects on the skin depend partly on the pulse duration, which can range from a millisecond down to the ultrashort pulse duration in the picosecond domain.

Vascular uses

 Nd:YAG wavelength is absorbed by haemoglobin which is why this laser can be used for a number of vascular conditions in dermatology. In particular, venous lesions respond preferentially to the Nd:YAG compared to the shorter vascular wavelengths (such as the 595 and 532 nm) as they are located deeper in the skin and are rich in deoxyhaemoglobin which is well absorbed by the Nd:YAG wavelength. The combination of these two characteristics makes this wavelength the first choice for venous lesions, such as leg veins, venules on the face and thick or hypertrophic parts of haemangiomas, and port-wine stains.

Venules on the face respond well to the Nd:YAG and are safe to treat using a small spot and starting with low fluences, given the risk of atrophic scarring when a large spot size and high fluences are used. In one study comparing both the Nd:YAG laser against the pulsed dye laser (PDL) for nasal vessels, it was found that the small red telangiectasia responded better to the PDL, whereas the blue venules responded better to the Nd:YAG laser.

A study on the comparison between the Nd:YAG long-pulsed laser against the 532 nm vascular laser in leg vessels showed that the longer penetration of the Nd:YAG wavelength was superior to the 532 nm laser given the deeper uniform heating, which addressed the lower parts of the vessels since only the upper part of some vessels were in interaction with the shorter 532 nm wavelength. The parameters of the Nd:YAG in leg vessels depend on the size and depth of the leg vessels, with typically smaller vessels requiring a smaller spot size and a shorter pulse duration and larger vessels requiring a slightly larger spot size (maximum 7 mm) and a longer pulse duration. The clinical endpoint is important which is colour change, spasm or disappearance of the vessel.

Scars

The use of lasers in the treatment of scars has been transformational over the last decade since it was found that fractional lasers remodel scar tissue and improve outcomes such as pliability, colour, and thickness. Vascular lasers play an integral part in laser scar therapy beyond just simply targeting the vascular component of the erythema. The Nd:YAG laser has been used in several studies in hypertrophic and keloid scars with demonstrable changes at a molecular level in the scar tissue, such as upregulating transforming growth factor beta 3 (TGF-b3) and reduction in collagen type 1. Treatment with the Nd:YAG should take into consideration the scar colour and thickness as well as the background skin type and is typically achieved with mid-spot sizes (4–7 mm) and fluences below the purpuric threshold. The use of microsecond pulse Nd:YAG has also been reported in scars, particularly in the treatment of atrophic scars.

Warts

The Nd:YAG laser is very effective in the treatment of cutaneous warts and verrucae, and its use in this cutaneous infection has been published in several series, including among higher Fitzpatrick scale skin types in a study from Korea. One limitation of the treatment could be the relatively high pain sensation this treatment is associated with, but it has been demonstrated to clear cutaneous warts effectively, at times with as little as a single treatment session. Typical parameters would be a small spot size and a pulse duration of between 20 to 30 ms and relatively high fluences.

Acne

Acne vulgaris is a common inflammatory skin condition of the pilosebaceous unit. While there are established medical therapies in terms of topical and systemic therapy for this condition, patients with milder forms of acne are increasingly seeking laser treatment given their reluctance for medical therapy. The Nd:YAG laser has been used in acne for many years with several studies published on its efficacy in the mild to moderate forms of acne. Both the pulsed millisecond as well as the painting technique with the microsecond pulses have been used The mechanism involves thermal effects on the sebaceous glands with a degree of microvessel coagulation and the generation of heat shock proteins that recreate a bactericidal effect against the c.acnes bacteria. Combination treatment with other established acne therapies may lead to faster response and synergism in response to treatment.

Rosacea/diffuse redness

Papulopustular acne, as well as diffuse redness and vascular rosacea, have been successfully treated with the Nd:YAG laser in both the millisecond pulsed mode as well as the painting mode with the microsecond pulse. As discussed earlier, the Nd:YAG wavelength is absorbed by haemoglobin hence its efficacy in diffuse redness due to the photothermal effects leading to vessel coagulation. Particularly the short pulse duration would be more suitable for the treatment of diffuse redness since the small vessel size would have a short thermal relaxation time. In one study among patients with papulopustular rosacea, the use of long-pulsed Nd:YAG led to good clearance of the majority of patients with no complications. In practice, the Nd:YAG laser can be combined with other topical or systemic therapies for rosacea for a synergistic effect.

Onychomycosis

Fungal nail infection is a common problem worldwide, and while there are systemic treatments for this condition, the use of lasers might be an alternative for patients who are unable to or unwilling to take systemic treatment in the form of tablets. The Nd:YAG has been reported in numerous studies to be effective in onychomycosis, with typically several treatments needed at around monthly intervals. There is some variation in terms of parameters  in particular, the pulse duration but it is generally the short pulse durations in the nano and microsecond range that tend to be effective.The author prefers to use the microsecond pulse duration with a high repetition rate, with heat generation being the suggested mechanism behind its efficacy.

Hair follicle-related disorders

In addition to laser treatment of hirsutism or unwanted hair for aesthetic reasons, the Nd:YAG laser has been used in a number of follicle-related disorders with or without combination treatment with favourable outcomes. These conditions include hidradenitis suppurativa, pilonidal sinus (particularly post-surgery), dissecting cellulitis, keratosis pilaris, and pseudofolliculitis barbae.

Rejuvenation

The Nd:YAG laser as mentioned previously, is a wavelength that is absorbed by all three main skin chromophores: haemoglobin, melanin and water. The absorption by water is particularly enhanced in the short microsecond wavelength where there is little to no melanin and haemoglobin absorption and with a high repetition rate there can be a build-up of heat in the skin that may eventually with repeated treatments lead to rejuvenation with texture improvement, pore tightening and some tissue firming and rejuvenation.In some reports, the procedure uses long pulsed Nd:YAG in the millisecond range.