Advances in the Treatment of Keloids
May 2011 | Volume 10 | Issue 5 | Original Article | 468 | Copyright © May 2011
Martha H. Viera MD, Caroline V. Caperton MD MSPH, Brian Berman MD PhD
Department of Dermatology and Cutaneous Surgery, University of Miami Miller School of Medicine, Miami FL
Occurring with higher proportions in skin of color, keloid formation is seen in individuals of all races, with the lowest incidence in albinos.
Interestingly, prevalence of keloids is correlated to skin pigmentation, with dark-skinned individuals suffering disproportionately.
Many factors are taken into consideration when deciding which modalities to use in the treatment of keloids, including size, anatomical
site, cause, symptoms, duration of treatment and not least importantly, pigmentation of the patient. In patients with skin of darker color it is necessary to communicate the effects these treatments may have on epidermal pigmentation to the patient. Of course, the best treatment for keloids remains prevention. Physicians should be alert to delays in wound healing, persistent erythema, or pruritus as impending symptoms of possible keloid formation and make all reasonable attempts to reduce inflammation and tension on the skin with appropriate methods.
J Drugs Dermatol. 2011;10(5):468-480.
Keloids are a type of scar that appears firm, rubbery and nodular over an area of previous surgery, trauma, burn, acne or skin abrasion. Typically manifesting on locations where excessive tension exists during wound closure, keloids are scars that heal with an abundance of type III collagen. Over time, the scar matures and type I collagen predominates. Hypertrophic scars (HTS) are red and elevated scars characterized by prolonged chronic inflammation and excessive collagen deposition. The difference between keloids and hypertrophic scars is that while HTS can mature and improve over time, keloids rarely improve over a natural course. HTS do not extend beyond the boundaries of the original site, while keloids frequently expand beyond the original borders, extending "cheloid" clawlike projections across the skin. These keloids are often erythematous, pruritic and painful,
with shiny layers of thinned epidermis stretching over the adjacent skin. Although keloids may occur anywhere, they are most commonly located on the sternum, ears, trunk, back and extremities (Figure 1). They occur less frequently on the palms or soles.
Histologically, keloids appear as fibrotic collections of excessive
thick collagen bundles, elastin, fibronectin and proteoglycans
along with atypical fibroblasts. The fibroblasts in keloids have increased prolyl hydroxylase activity, which is involved in collagen synthesis, at levels much higher than that of normal skin or HTS.1 In normal scars, collagen forms regular cross-links, whereas in keloids the collagen is arranged irregularly, forming nodules in the dermis.
Epidemiologically, keloids occur more frequently in persons 10-30 years of age, with slight increase in frequency in females, presumably
due to their higher frequency of ear piercing (Figure 2). Occurring with higher proportions in skin of color, keloid formation
is seen in individuals of all races, with the lowest incidence
in albinos. Interestingly, prevalence of keloids is correlated to skin pigmentation, with dark-skinned individuals suffering disproportionately. There is a reported incidence of 4.5-16 percent
in African-American and Hispanic populations.2,3
A specific type of keloid often affecting young African-American males is Acne Keloidalis Nuchae (AKN), a scarring alopecia in the occipital scalp and neck region caused by chronic inflammation
of hair follicles.4 This condition is caused by repeated irritation and inward curling of coarse hairs into the epidermis, causing a foreign body granuloma and possibly autoimmune reaction,
with an increase in mast cells. AKN may become secondarily infected with bacteria or yeast. This form of folliculitis
often causes coalescing papules and fibrotic nodules. Of note, AKN tends to be more responsive to excision therapy, with complete
removal of affected hair follicles.5 It may also be treated with topical steroids, immune modulators, lasers, cryotherapy, or anti-inflammatory doses of doxycycline.
Genetics of Keloids
A strong genetic predisposition to the formation of keloids is suggested by the increased prevalence in dark-skinned races, increased concordance among identical twins and increased familial clustering.6 While the mode of inheritance is not definitively
known, several theories have been proposed, including autosomal recessive,7 autosomal dominant with incomplete penetrance8 and variable expression. In a familial study, 14 pedigrees with keloids spanning 3-5 generations were ob-