Port-wine stain explained

Port-wine stain
Synonyms:Nevus flammeus, Firemark

A port-wine stain (nevus flammeus) is a discoloration of the human skin caused by a vascular anomaly (a capillary malformation in the skin).[1] They are so named for their coloration, which is similar in color to port wine, a fortified red wine from Portugal.

A port-wine stain is a capillary malformation, seen at birth.[2] Port-wine stains persist throughout life.[3] The area of skin affected grows in proportion to general growth.

Port-wine stains occur most often on the face but can appear anywhere on the body, particularly on the neck, upper trunk, arms and legs.[4] Early stains are usually flat and pink in appearance. As the child matures, the color may deepen to a dark red or purplish color. In adulthood, thickening of the lesion or the development of small lumps may occur.[5]

Port-wine stains may be part of a syndrome such as Sturge–Weber syndrome or Klippel–Trénaunay–Weber syndrome.

Types

Nevus flammeus may be divided as follows:[6]

Genetics

Port-wine stains were shown to be caused by a somatic activating c.548G→A mutation in the GNAQ gene.[7] An association with RASA1 has also been described.[8]

Diagnosis

A healthcare provider can usually diagnose a port-wine stain based entirely upon the history and appearance. In unusual cases, a skin biopsy may be needed to confirm the diagnosis. Depending on the location of the birthmark and other associated symptoms, a physician may choose to order a measurement of intraocular pressure or X-ray of the skull.

An MRI of the brain may be performed (under anesthesia) on infants who have a port-wine stain in the head area in order to check for signs of Sturge–Weber syndrome.

If the port-wine stain is inside the mouth, a provider may check the insides of a newborn baby's throat with a scope to see if there are any changes (growths) other than just the color.

If the port-wine stain is around the eye or on the eyelid, a referral may be made to an optometrist or ophthalmologist for a test of the ocular pressures in that eye. If swelling occurs in the port-wine stain, it may cause vision problems, glaucoma, or blindness.

Treatment

Many treatments have been tried for port-wine stains including freezing, surgery, radiation, and tattooing; port-wine stains can also be covered with cosmetics.

Lasers may be able to destroy the capillaries without significant damage to the overlying skin. Lasers and other light sources may therefore be able to reduce the redness of port-wine stains, although there is not enough evidence to recommend one form over another.

For most people in trials of pulsed dye laser, more than 25% of the redness was reduced by laser after one to three treatments. Adverse effects were rare in these trials, although some people had changes to the color of the skin, especially Chinese people with darker skin. There can be pain, crusting, and blistering in the two weeks after treatment. The trials only followed people for six months, so long-term outcomes are not known. Up to 10 treatments may be necessary for improvement, but complete removal may not result. The use of topical rapamycin as an adjunct to pulsed dye laser may improve results.[9]

Treatment is generally given before one year of age.[10]

With older laser treatments the skin is filled with black marks, the size of a pen. This is due to the laser instrument's size; the black marks disappear within 1–3 weeks. The treated area can be sore and swollen for a couple of days. However, with newer v-beam laser treatments, there may not be any marks at all.

Prognosis

In the absence of successful treatment, hypertrophy (increased tissue mass) of the stains may cause problems later in life, such as loss of function (especially if the stain is near the eye or mouth), bleeding, and increasing disfigurement. Lesions on or near the eyelid can be associated with glaucoma. If the port-wine stain is on the face or other highly visible part of the body, its presence can also cause emotional and social problems for the affected person.

Epidemiology

Studies have recorded an incidence of about 3–5 cases per 1,000 newborn babies.[11] [12] [13]

Notes and References

  1. Faurschou. A.. Olesen, AB . Leonardi-Bee, J. . Haedersdal, M. . Lasers or light sources for treating port-wine stains.. Cochrane Database of Systematic Reviews. 9 November 2011. 11. CD007152. 22071834. 10.1002/14651858.CD007152.pub2.
  2. Web site: Primary Care Dermatology Society, UK. Port-wine stain. Clinical Guidance. Primary Care Dermatology Society, UK. 8 July 2013.
  3. Patel. AM. Chou, EL . Findeiss, L . Kelly, KM . The horizon for treating cutaneous vascular lesions.. Seminars in Cutaneous Medicine and Surgery. Jun 2012. 31. 2. 98–104. 22640429. 10.1016/j.sder.2012.02.001 . 3570568.
  4. Ryan. E. Warren, L. Birthmarks--identification and management.. Australian Family Physician. May 2012 . 41. 5. 274–277. 22558616.
  5. 19588535. 2009. Minkis. K.. Geronemus. R. G.. Hale. E. K.. Port wine stain progression: A potential consequence of delayed and inadequate treatment?. 41. 6. 423–6. 10.1002/lsm.20788. Lasers in Surgery and Medicine. 4690461.
  6. James, William; Berger, Timothy; Elston, Dirk (2005). Andrews' Diseases of the Skin: Clinical Dermatology. (10th ed.). Saunders. Page 582–3. .
  7. Shirley. Matthew D.. Tang, Hao . Gallione, Carol J. . Baugher, Joseph D. . Frelin, Laurence P. . Cohen, Bernard . North, Paula E. . Marchuk, Douglas A. . Comi, Anne M. . Pevsner, Jonathan . Anne Comi. Sturge–Weber Syndrome and Port-Wine Stains Caused by Somatic Mutation in. New England Journal of Medicine. 8 May 2013. 10.1056/NEJMoa1213507. 23656586. 368. 21. 1971–9 . 3749068.
  8. Eerola I . Capillary malformation-arteriovenous malformation, a new clinical and genetic disorder caused by RASA1 mutations . Am. J. Hum. Genet. . 73 . 6 . 1240–9 . December 2003 . 14639529 . 1180390 . 10.1086/379793 . vanc. Boon LM . Mulliken JB . 3 . Burrows . Patricia E. . Dompmartin . Anne . Watanabe . Shoji . Vanwijck . Romain . Vikkula . Miikka.
  9. Marques L, Nunez-Cordoba JM, Aguado L, et al. Topical rapamycin combined with pulsed dye laser in the treatment of capillary vascular malformations in Sturge-Weber syndrome: phase II, randomized double-blind, intraindividual placebo controlled trial. JAAD 2015.
  10. McLaughlin. MR. O'Connor, NR . Ham, P. . Newborn skin: Part II. Birthmarks.. American Family Physician. 1 January 2008 . 77. 1. 56–60. 18236823.
  11. 951136. 1976. Jacobs. A. H.. Walton. R. G.. The incidence of birthmarks in the neonate. 58. 2. 218–22. Pediatrics. 10.1542/peds.58.2.218 . 245028603 .
  12. 6679890. 1983. Alper. J. C.. Holmes. L. B.. The incidence and significance of birthmarks in a cohort of 4,641 newborns. 1. 1. 58–68. Pediatric Dermatology. 10.1111/j.1525-1470.1983.tb01093.x. 40012139 .
  13. Dr Thajudheen MD (Dr Thaj laser skin hair clinic), Kannangath Jyothy, Arul Priyadarshini, "Treatment of port-wine stains with flash lamp pumped pulsed dye laser on Indian skin: A six year study", Dr. Thaj Laser Skin-Hair Clinic, 2 April 2014