Intense pulsed light explained

Intense pulsed light (IPL) is a technology used by cosmetic and medical practitioners to perform various skin treatments for aesthetic and therapeutic purposes, including hair removal, photorejuvenation (e.g. the treatment of skin pigmentation, sun damage, and thread veins) as well as to alleviate dermatologic diseases such as acne.^{[1] [2] [3] [4]} IPL is increasingly used in optometry and ophthalmology as well, to treat evaporative dry eye disease due to meibomian gland dysfunction.^{[5] [6] [7] [8]}

The technology uses a high-powered, hand-held, computer-controlled flashgun to deliver an intense, visible, broad-spectrum pulse of light, generally in the visible spectral range of 400 to 1200 nm. Various cutoff filters are commonly used to selectively filter out shorter wavelengths, especially potentially damaging ultraviolet light. The resulting light has a spectral range that targets specific structures and chromophores (e.g. melanin in hair, or oxyhemoglobin in blood vessels) that are heated to destruction and reabsorbed by the body. IPL shares some similarities with laser treatments, in that they both use light to heat and destroy their targets. But unlike lasers that use a single wavelength (color) of light which typically matches only one chromophore and hence only treats one condition, IPL uses a broad spectrum that when used with interchangeable filters, allowing it to be used against several conditions. This can be achieved when the IPL technician selects the appropriate filter that matches a specific chromophore.^[9]

Description

Intense pulsed light is the use of intense pulses of non-coherent light over a range of wavelengths from 500 nm to 1200 nm.^[10] Xenon flashlamps produce high output bursts of broad spectrum. Cooling is used to protect the skin in contact with the device.^[11]

Regulations governing IPL vary by jurisdiction.^[12] A distinction is sometimes made between beauty-grade and medical-grade machines, mainly to get around regulations.

The first FDA approval of IPL was for telangiectasias in 1995. Use quickly spread to a variety of medical and cosmetic settings.^[13] Treatment is generally safe and effective, but complications can occur, such as hyperpigmentation.^[14] The polychromatic light can reach multiple chromophores in human skin: mainly hemoglobin, water, and melanin.^[15] This results in selective photothermolysis of blood vessels, pigmented cells, or hair follicles.

Hair removal

IPL can reduce hair growth, most effectively in darker, coarser hair.^[16] IPL is distinct from laser hair removal which uses coherent monochromatic laser light.^[17]

Protocol

Broad-spectrum light is applied to the surface of the skin, targeting melanin. This light travels through the skin until it strikes the hair shafts or hair follicle.^[18] The follicle is usually where the highest concentration of melanin is located. As the light is absorbed, the bulb and most of the hair shaft are heated, destroying the hair-producing papilla. It is also claimed that heat conversion occurs directly in the darker capillaries that bring blood to the follicle.^[19]

At any one time, not all hair follicles are 'active', and only active hair follicles can be affected by the treatment. 'Inactive' hair follicles can be treated as they become 'active' over time. For IPL treatments, an average of 8–10 treatments, 4–6 weeks apart, are required to remove most visible hair.^[19]

There is no common treatment protocol, as it depends on the equipment used and patient skin type. The area to be treated should be clean shaven and free of sunburn.^[20]

Although IPL treatments will permanently reduce the total number of body hairs, they will not result in a permanent removal of all hair.^[21]

Certain skin conditions, health irregularities, and medications can impact whether it is safe for a person to receive a light-based hair removal treatment. Photo-sensitizing medications, or damage to the skin are contraindications to treatment. According to Remington, manufacturer of an IPL device, all IPL and laser devices should only be used on light to medium skin tones, and work best on darker hair.^[22]

Efficacy

In August 1997, IPL was reported to have permanently removed terminal hair in two patients who underwent multiple treatments to their beards. In October of that year, the first IPL system developed for hair removal and resulted in 60% hair reduction after 12 weeks.^[23]

It is important to note that these studies utilized a variety of IPL devices on patients with various hair types, skin types, and targeted skin areas. Thus the results are not directly comparable.

According to the FDA, permanent hair removal means the "long-term, stable reduction in the number of hairs regrowing after a treatment regime." In other words, the number of hairs regrowing must be consistently greater than the duration of the complete growth cycle of hair follicles, which varies from four to twelve months by body location.^[24] IPL has been found to be much less effective than laser hair removal; however, many patients experience satisfaction with significant hair reduction.

A 2006 article in the journal Lasers in Medical Science compared IPL and both alexandrite and diode lasers. The review found no statistical difference in effectiveness, but a higher incidence of side effects with diode laser treatment. Hair reduction after six months was reported as 68.75% for alexandrite lasers, 71.71% for diode lasers, and 66.96% for IPL. Side effects were reported as 9.5% for alexandrite lasers, 28.9% for diode lasers, and 15.3% for IPL. All side effects were found to be temporary and even pigmentation changes returned to normal within six months.^[25]

A 2009 study evaluated the rate of hair removal after a second generation IPL source. Results found that patients had 75% hair reduction after four months, and up to 80% after eight months.^{[26] [27]}

Medical use

IPL was first developed for vascular conditions. It is at least as effective as pulsed dye lasers and can penetrate deeper with reduced risk of purpura and hyperpigmentation. IPL can also be used for the treatment of dry eye conditions such as meibomian gland dysfunction.^{[28] [29]} IPL can treat pigmented lesions with rapid recovery. Dyschromia can be cleared after repeated sessions. Photoaging treatment has been explored. A series of IPL can be used for facial rejuvenation, improving skin laxity and collagen production. IPL combined with facial injections can be used for dynamic rhytids. Home IPL devices have been developed.

IPL is employed in the treatment of a range of dermatological conditions including photodamage induced dyspigmentation and vascular changes, poikiloderma of Civatte, rosacea, acne vulgaris, sebaceous gland hyperplasia, broken capillaries, telangiectases, vascular lesions (small blood vessels), pigmented lesions (freckles, liver spots, birth marks), melasma, actinic keratosis, photorejuvenation, basal cell carcinoma, and Bowen's disease (squamous cell carcinoma).^[30]

See also

• Electrology

Further reading

• Husain Z, Alster TS . The role of lasers and intense pulsed light technology in dermatology . Clinical, Cosmetic and Investigational Dermatology . 9 . 29–40 . 2016 . 26893574 . 4745852 . 10.2147/CCID.S69106 . Review . free .

Notes and References

1. Kumaresan. M. Srinivas. C R. Efficacy of IPL in treatment of acne vulgaris : Comparison of single- and burst-pulse mode in IPL. 2010-01-01. Indian Journal of Dermatology. 55. 4. 370–372. 10.4103/0019-5154.74550. 0019-5154. 3051300. 21430893. free.
2. Wat. Heidi. Wu. Douglas C.. Rao. Jaggi. Goldman. Mitchel P.. 2014-04-01. Application of intense pulsed light in the treatment of dermatologic disease: a systematic review. Dermatologic Surgery . 40. 4. 359–377. 10.1111/dsu.12424. 1524-4725. 24495252. 205081994.
3. Piccolo. D.. Di Marcantonio. D.. Crisman. G.. Cannarozzo. G.. Sannino. M.. Chiricozzi. A.. Chimenti. S.. 2014-01-01. Unconventional use of intense pulsed light. BioMed Research International. 2014. 618206. 10.1155/2014/618206. 2314-6141. 4167959. 25276803. free.
4. Belenky. Inna. Tagger. Cruzy. Bingham. Andrea. 2015-11-01. Intense Pulsed Light Pulse Configuration Manipulation Can Resolve the Classic Conflict Between Safety and Efficacy. Journal of Drugs in Dermatology. 14. 11. 1255–1260. 1545-9616. 26580874.
5. Toyos. Rolando. McGill. William. Briscoe. Dustin. 2015-01-01. Intense pulsed light treatment for dry eye disease due to meibomian gland dysfunction; a 3-year retrospective study. Photomedicine and Laser Surgery. 33. 1. 41–46. 10.1089/pho.2014.3819. 1557-8550. 4298157. 25594770.
6. Vegunta. Sravanthi. Patel. Dharmendra. Shen. Joanne F.. 2016-03-01. Combination Therapy of Intense Pulsed Light Therapy and Meibomian Gland Expression (IPL/MGX) Can Improve Dry Eye Symptoms and Meibomian Gland Function in Patients With Refractory Dry Eye: A Retrospective Analysis. Cornea. 35. 3. 318–322. 10.1097/ICO.0000000000000735. 1536-4798. 26785301. 24896902.
7. Vora. Gargi K.. Gupta. Preeya K.. 2015-07-01. Intense pulsed light therapy for the treatment of evaporative dry eye disease. Current Opinion in Ophthalmology. 26. 4. 314–318. 10.1097/ICU.0000000000000166. 1531-7021. 26058031. 39053597.
8. Craig. Jennifer P.. Chen. Yen-Heng. Turnbull. Philip R. K.. 2015-03-01. Prospective trial of intense pulsed light for the treatment of meibomian gland dysfunction. Investigative Ophthalmology & Visual Science. 56. 3. 1965–1970. 10.1167/iovs.14-15764. 1552-5783. 25678687.
9. Gold . Michael H. . Lasers and light sources for the removal of unwanted hair . Clinics in Dermatology . September–October 2007 . 25 . 5 . 443–453 . 10.1016/j.clindermatol.2007.05.017 . 17870522.
10. Web site: Intense Pulsed Light Systems. https://web.archive.org/web/20101127221735/http://palomarmedical.com/uploadDocs/Intense-Pulsed-Light-Systems.pdf. dead. 27 November 2010. HMP Communications. 2 August 2012.
11. Book: Lahiri, Koushik. Textbook of Lasers in Dermatology. 2016-07-30. JP Medical Ltd. 978-93-85999-62-8. en.
12. Web site: Laser Information . Florida Department of Health . 2 August 2012 . dead . https://web.archive.org/web/20121104061415/http://www.doh.state.fl.us/mqa/medical/me_laser.html . November 4, 2012 .
13. Goldberg. David J.. June 2012. Current Trends in Intense Pulsed Light. The Journal of Clinical and Aesthetic Dermatology. 5. 6. 45–53. 1941-2789. 3390232. 22768357.
14. Current Trends in Intense Pulsed Light. Jun 2012. Clin Aesthet Dermatol..
15. Tseng. Sheng-Hao. Bargo. Paulo. Durkin. Anthony. Kollias. Nikiforos. 2009-08-17. Chromophore concentrations, absorption and scattering properties of human skin in-vivo. Optics Express. 17. 17. 14599–14617. 10.1364/oe.17.014599. 1094-4087. 2754563. 19687939. 2009OExpr..1714599T.
16. News: Campbell. Leigh. The Difference Between Laser And IPL For Permanent Hair Removal. 2016-01-07. Huffington Post. 2020-03-17. en-AU.
17. News: Young. Katy. Does IPL hair removal really work?. 2018-04-11. The Telegraph. 2020-03-17. en-GB. 0307-1235.
18. Husain. Zain. Alster. Tina S. 2016-02-04. The role of lasers and intense pulsed light technology in dermatology. Clinical, Cosmetic and Investigational Dermatology. 9. 29–40. 10.2147/CCID.S69106. 1178-7015. 4745852. 26893574 . free .
19. Book: Lahiri, Koushik. Textbook of Lasers in Dermatology. 2016-07-30. JP Medical Ltd. 978-93-85999-62-8. 55. en.
20. Book: Lahiri, Koushik. Textbook of Lasers in Dermatology. 2016-07-30. JP Medical Ltd. 978-93-85999-62-8. en.
21. Klein. A.. Steinert, S. . Photoepilation with a diode laser vs. intense pulsed light (IPL): a randomized, intra-patient left-to-right trial. British Journal of Dermatology. 168. 6. 1 December 2012. 1287–93. 10.1111/bjd.12182. 23278132. Baeumler. W. . Landthaler. M.. Babilas. P.. 8889666.
22. Web site: Trends & Tips - Remington. uk.remington-europe.com.
23. Gold. Michael H.. Long-term epilation using the EpiLight broad band, intense pulsed light Hair Removal System. Dermatologic Surgery. October 1997. 23. 10. 909–913. 10.1111/j.1524-4725.1997.tb00746.x. 9357500. Bell. Michael W.. Foster. Teresa D.. Street. Sherri. 25398697.
24. Web site: Laser Facts . FDA . 23 September 2014 . dead . https://web.archive.org/web/20140912203435/https://www.fda.gov/Radiation-EmittingProducts/ResourcesforYouRadiationEmittingProducts/ucm252761.htm . September 12, 2014 .
25. Toosi. Parviz. A comparison study of the efficacy and side effects of different light sources in hair removal. Lasers in Medical Science. April 2006. 21. 1. 1–4. 10.1007/s10103-006-0373-2. 16583183. Sadighha. Afshin. Sharifian. Ali. Razavi. Gita Meshkat. 10093379.
26. Smith. S.R.. Y. Tse. S.K. Adsit. etal. 1998. Long-term results of hair photo-epilation. Lasers Surg Med. 43.
27. Troilus. A.. Troilus C. September 1999. Hair removal with a second generation broad spectrum intense pulsed light source—a long term follow-up. J Cutan Laser Ther. 1. 3. 173–178. 10.1080/14628839950516832. 11360414.
28. Web site: Managing Blepharitis:Tried-and-True and New Approaches . Annie Stuart . July 2012 . EyeNet . February 22, 2015 . dead . https://web.archive.org/web/20150305165437/http://www.aao.org/publications/eyenet/201207/upload/July-2012-Clinical-Update-Cornea.pdf . March 5, 2015 .
29. Web site: Pushing Surgical Boundaries, Professional Development, and Popular Opinion . Aldave . Anthony J. . Afshari . Natalie . Colby . Kathryn . 10 November 2012 . The American Academy of Ophthalmology . February 22, 2015 . dead . https://web.archive.org/web/20130123230629/http://www.aao.org/pdf/AAOSub_Cornea_2012_Syllabus.pdf . January 23, 2013 .
30. Application of intense pulsed light in the treatment of dermatologic disease: a systematic review.. Apr 2014. Dermatol. Surg.. 10.1111/dsu.12424. 24495252 . 40 . 4. 359–77. Wat. Heidi. Wu. Douglas C.. Rao. Jaggi. Goldman. Mitchel P.. 205081994.