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AT MOAS 2017

SAN DIEGO – Multiple light-based devices can be used to treat telangiectasias, often with little or no down time.

During a presentation at the annual Masters of Aesthetics Symposium, Kristen M. Kelly, MD, listed her preferred light-based treatment options for telangiectasias as the pulsed dye laser (PDL), the 532 nm Nd:YAG laser, and the diode laser. The PDL has been around the longest and “is one of the greatest devices for treating vasculature, because it’s very specific,” she said. Purpura can result, but for cosmetic indications, pulse durations of 6 milliseconds or more work well. “Keep in mind, though, that when you’re using longer pulse durations, patients will often require more than one treatment,” she said. “Most people are okay with that, knowing that they’re going to have minimal to no down time with these procedures.”

Dr. Kelly, professor of dermatology and surgery at the University of California, Irvine, noted that erythematotelangiectatic rosacea generally responds well to light-based devices, while papulopustular/inflammatory forms of the condition are best treated with anti-inflammatory agents or antibiotics. Multiple passes or judicious pulse stacking can be used with PDL for treating telangiectases, “but always know what your endpoint is,” Dr. Kelly advised. “You generally don’t want to pulse over purpura when treating telangiectasias; that just increases the risk of adverse effects.”

Settings to consider vary, depending on the patient and the area to be treated. The desired endpoints for telangiectasia are vessel blanching or diminution, or a darker red/purple change to the vessel. “You should not see graying or whitening of the skin; that’s when you’re getting epidermal damage, so you want to watch for that,” she said. For a first pass, Dr. Kelly will often treat with a spot size of 10 mm or 12 mm with a 6-millisecond pulse duration with cryogen spray cooling set at 30 milliseconds with a 30-millisecond delay. If a second pass is required, she will often treat with a spot size of 7 mm and a 6-millisecond pulse duration and slightly higher fluence, again using cryogen spray cooling. “It is important to know your specific device to determine settings,” she said.

The frequency-doubled Nd:YAG laser features a wavelength of 532 nm but requires cautious use in patients with darker skin types or photodamaged skin. The desired endpoint is a darkening of the vessel or vessel disappearance. “Many of these devices have contact cooling, which is an excellent method of cooling, but you have to make sure you keep the contact,” she said. Other cooling options include cryogen spray and the application of cold air. “When you’re doing cold-air cooling, you want to be careful not to point it toward someone’s nose,” she said. “It sounds funny, but this is uncomfortable for the patient.”

Diode lasers with wavelengths of 800-980 nm allow the user to treat larger blood vessels, such as nasal telangiectasias. “Some devices with small spot sizes allow you to trace along the vessel, and you can see it disappear before your eyes, and when the patient leaves, they’re generally very happy,” she said.

Intense pulsed light works well in patients with both pigmentary and vascular changes, especially for poikiloderma with brown and red pigment. “Multiple treatments are required, and there is significant melanin absorption, so you don’t want to treat people with tanned skin,” she said.

Dr. Kelly emphasized the importance of being familiar with the device you use and knowing the desired tissue endpoint. Decisions depend on the patient’s skin type, their tolerance for down time and multiple treatments, and the devices at your disposal. “Patients should be aware of all options, even if you may not have a certain device in your office,” she said. “You can refer them.”

She disclosed having drugs or devices donated by Light Sciences Oncology, Solta Medical, Syneron Candela, ThermiRF, and Novartis. She is also a consultant for MundiPharma, Allergan, and Syneron Candela.

[email protected]

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AT MOAS 2017

SAN DIEGO – Multiple light-based devices can be used to treat telangiectasias, often with little or no down time.

During a presentation at the annual Masters of Aesthetics Symposium, Kristen M. Kelly, MD, listed her preferred light-based treatment options for telangiectasias as the pulsed dye laser (PDL), the 532 nm Nd:YAG laser, and the diode laser. The PDL has been around the longest and “is one of the greatest devices for treating vasculature, because it’s very specific,” she said. Purpura can result, but for cosmetic indications, pulse durations of 6 milliseconds or more work well. “Keep in mind, though, that when you’re using longer pulse durations, patients will often require more than one treatment,” she said. “Most people are okay with that, knowing that they’re going to have minimal to no down time with these procedures.”

Dr. Kelly, professor of dermatology and surgery at the University of California, Irvine, noted that erythematotelangiectatic rosacea generally responds well to light-based devices, while papulopustular/inflammatory forms of the condition are best treated with anti-inflammatory agents or antibiotics. Multiple passes or judicious pulse stacking can be used with PDL for treating telangiectases, “but always know what your endpoint is,” Dr. Kelly advised. “You generally don’t want to pulse over purpura when treating telangiectasias; that just increases the risk of adverse effects.”

Settings to consider vary, depending on the patient and the area to be treated. The desired endpoints for telangiectasia are vessel blanching or diminution, or a darker red/purple change to the vessel. “You should not see graying or whitening of the skin; that’s when you’re getting epidermal damage, so you want to watch for that,” she said. For a first pass, Dr. Kelly will often treat with a spot size of 10 mm or 12 mm with a 6-millisecond pulse duration with cryogen spray cooling set at 30 milliseconds with a 30-millisecond delay. If a second pass is required, she will often treat with a spot size of 7 mm and a 6-millisecond pulse duration and slightly higher fluence, again using cryogen spray cooling. “It is important to know your specific device to determine settings,” she said.

The frequency-doubled Nd:YAG laser features a wavelength of 532 nm but requires cautious use in patients with darker skin types or photodamaged skin. The desired endpoint is a darkening of the vessel or vessel disappearance. “Many of these devices have contact cooling, which is an excellent method of cooling, but you have to make sure you keep the contact,” she said. Other cooling options include cryogen spray and the application of cold air. “When you’re doing cold-air cooling, you want to be careful not to point it toward someone’s nose,” she said. “It sounds funny, but this is uncomfortable for the patient.”

Diode lasers with wavelengths of 800-980 nm allow the user to treat larger blood vessels, such as nasal telangiectasias. “Some devices with small spot sizes allow you to trace along the vessel, and you can see it disappear before your eyes, and when the patient leaves, they’re generally very happy,” she said.

Intense pulsed light works well in patients with both pigmentary and vascular changes, especially for poikiloderma with brown and red pigment. “Multiple treatments are required, and there is significant melanin absorption, so you don’t want to treat people with tanned skin,” she said.

Dr. Kelly emphasized the importance of being familiar with the device you use and knowing the desired tissue endpoint. Decisions depend on the patient’s skin type, their tolerance for down time and multiple treatments, and the devices at your disposal. “Patients should be aware of all options, even if you may not have a certain device in your office,” she said. “You can refer them.”

She disclosed having drugs or devices donated by Light Sciences Oncology, Solta Medical, Syneron Candela, ThermiRF, and Novartis. She is also a consultant for MundiPharma, Allergan, and Syneron Candela.

[email protected]

AT MOAS 2017

SAN DIEGO – Multiple light-based devices can be used to treat telangiectasias, often with little or no down time.

During a presentation at the annual Masters of Aesthetics Symposium, Kristen M. Kelly, MD, listed her preferred light-based treatment options for telangiectasias as the pulsed dye laser (PDL), the 532 nm Nd:YAG laser, and the diode laser. The PDL has been around the longest and “is one of the greatest devices for treating vasculature, because it’s very specific,” she said. Purpura can result, but for cosmetic indications, pulse durations of 6 milliseconds or more work well. “Keep in mind, though, that when you’re using longer pulse durations, patients will often require more than one treatment,” she said. “Most people are okay with that, knowing that they’re going to have minimal to no down time with these procedures.”

Dr. Kelly, professor of dermatology and surgery at the University of California, Irvine, noted that erythematotelangiectatic rosacea generally responds well to light-based devices, while papulopustular/inflammatory forms of the condition are best treated with anti-inflammatory agents or antibiotics. Multiple passes or judicious pulse stacking can be used with PDL for treating telangiectases, “but always know what your endpoint is,” Dr. Kelly advised. “You generally don’t want to pulse over purpura when treating telangiectasias; that just increases the risk of adverse effects.”

Settings to consider vary, depending on the patient and the area to be treated. The desired endpoints for telangiectasia are vessel blanching or diminution, or a darker red/purple change to the vessel. “You should not see graying or whitening of the skin; that’s when you’re getting epidermal damage, so you want to watch for that,” she said. For a first pass, Dr. Kelly will often treat with a spot size of 10 mm or 12 mm with a 6-millisecond pulse duration with cryogen spray cooling set at 30 milliseconds with a 30-millisecond delay. If a second pass is required, she will often treat with a spot size of 7 mm and a 6-millisecond pulse duration and slightly higher fluence, again using cryogen spray cooling. “It is important to know your specific device to determine settings,” she said.

The frequency-doubled Nd:YAG laser features a wavelength of 532 nm but requires cautious use in patients with darker skin types or photodamaged skin. The desired endpoint is a darkening of the vessel or vessel disappearance. “Many of these devices have contact cooling, which is an excellent method of cooling, but you have to make sure you keep the contact,” she said. Other cooling options include cryogen spray and the application of cold air. “When you’re doing cold-air cooling, you want to be careful not to point it toward someone’s nose,” she said. “It sounds funny, but this is uncomfortable for the patient.”

Diode lasers with wavelengths of 800-980 nm allow the user to treat larger blood vessels, such as nasal telangiectasias. “Some devices with small spot sizes allow you to trace along the vessel, and you can see it disappear before your eyes, and when the patient leaves, they’re generally very happy,” she said.

Intense pulsed light works well in patients with both pigmentary and vascular changes, especially for poikiloderma with brown and red pigment. “Multiple treatments are required, and there is significant melanin absorption, so you don’t want to treat people with tanned skin,” she said.

Dr. Kelly emphasized the importance of being familiar with the device you use and knowing the desired tissue endpoint. Decisions depend on the patient’s skin type, their tolerance for down time and multiple treatments, and the devices at your disposal. “Patients should be aware of all options, even if you may not have a certain device in your office,” she said. “You can refer them.”

She disclosed having drugs or devices donated by Light Sciences Oncology, Solta Medical, Syneron Candela, ThermiRF, and Novartis. She is also a consultant for MundiPharma, Allergan, and Syneron Candela.

[email protected]

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