Acne in a 14-year-old male during puberty
|Classification and external resources|
|Patient UK||Acne vulgaris|
Acne vulgaris (or simply acne) is a chronic skin condition characterized by areas of blackheads, whiteheads, pimples, greasy skin, and possibly scarring. The resulting appearance may lead to anxiety, reduced self-esteem, and in extreme cases, depression or thoughts of suicide.
Genetics is estimated to be the cause of 80% of cases. The role of diet as a cause is unclear. Neither cleanliness nor sunlight appear to be involved. However, cigarette smoking does increase the risk of developing acne and worsens its severity. Acne mostly affects skin with a greater number of oil glands; including the face, upper part of the chest, and back. During puberty in both sexes, acne is often brought on by an increase in androgens such as testosterone.
Many treatment options are available to improve the appearance of acne including lifestyle changes, procedures, and medications. Eating fewer simple carbohydrates like sugar may help. Topical benzoyl peroxide, salicylic acid, and azelaic acid are commonly used treatments. Antibiotics and retinoids are available topically and by mouth to treat acne. Resistance, however, may develop to antibiotics. A number of birth control pills may be useful in women. Oral isotretinoin is usually reserved for severe acne due to greater potential side effects. Early and aggressive treatment is advocated by some to lessen the overall long-term impact to individuals.
Acne occurs most commonly during adolescence, affecting an estimated 80–90% of teenagers in the Western world. Lower rates are reported in some rural societies. In 2010, acne was estimated to affect 650 million people globally making it the 8th most common disease worldwide. People may also be affected before and after puberty. Though it becomes less common in adulthood than in adolescence, nearly half of people in their twenties and thirties continue to have acne. About 4% continue to have difficulties into their forties.
- 1 Classification
- 2 Signs and symptoms
- 3 Cause
- 4 Pathophysiology
- 5 Diagnosis
- 6 Management
- 7 Prognosis
- 8 Epidemiology
- 9 History
- 10 Society and culture
- 11 Research
- 12 References
- 13 External links
Acne is commonly classified by severity as mild, moderate, or severe. This type of categorization can be an important factor in determining the appropriate treatment regimen. Mild acne is classically defined as open (blackheads) and closed comedones (whiteheads) limited to the face with occasional inflammatory lesions. Acne may be considered to be of moderate severity when a higher number of inflammatory papules and pustules occur on the face compared to mild cases of acne and acne lesions also occur on the trunk of the body. Lastly, severe acne is said to occur when nodules and cysts are the characteristic facial lesions and involvement of the trunk is extensive.
Signs and symptoms
Typical features of acne include seborrhea (increased oil secretion), microcomedones, comedones, papules, pustules, nodules (large papules), and possibly scarring. The appearance of acne varies with skin color. It may result in psychological and social problems.
Some of the large nodules were previously called cysts and the term nodulocystic has been used to describe severe cases of inflammatory acne.
Acne scars are the result of inflammation within the dermal layer of skin brought on by acne and are estimated to affect 95% of people with acne vulgaris. The scar is created by an abnormal form of healing following this dermal inflammation. Scarring is most likely to occur with severe nodulocystic acne, but may occur with any form of acne vulgaris. Acne scars are classified based on whether the abnormal healing response following dermal inflammation leads to excess collagen deposition or collagen loss at the site of the acne lesion.
Atrophic acne scars are the most common type of acne scar and have lost collagen from this healing response. Atrophic scars may be further classified as ice-pick scars, boxcar scars, and rolling scars. Ice pick scars are typically described as narrow (less than 2 mm across), deep scars that extend into the dermis. Rolling scars are wider than ice pick scars (4–5 mm across) and have a wave-like pattern of depth in the skin. Boxcar scars are round or ovoid indented scars with sharp borders and vary in size from 1.5–4 mm across.
Hypertrophic scars are less common and are characterized by increased collagen content after the abnormal healing response. They are described as firm and raised from the skin. Hypertrophic scars remain within the original margins of the wound whereas keloid scars can form scar tissue outside of these borders. Keloid scars from acne usually occur in men and on the trunk of the body rather than the face.
Postinflammatory hyper pigmentation (PIH) is usually the result of nodular or cystic acne (the painful 'bumps' lying under the skin). They often leave behind an inflamed red mark after the original acne lesion has resolved. PIH occurs more often in people with darker skin color. Pigmented scar is a common but misleading term, as it suggests the color change is permanent. Often, PIH can be avoided by avoiding aggravation of the nodule or cyst. These scars can fade with time. However, untreated scars can last for months, years, or even be permanent if deeper layers of skin are affected. Daily use of SPF 15 or higher sunscreen can minimize pigmentation associated with acne.
The predisposition for specific individuals to acne is likely explained by a genetic component, which has been supported by twin studies as well as studies that have looked at rates of acne among first degree relatives. The genetics of acne susceptibility is likely polygenic, as the disease does not follow classic Mendelian inheritance pattern. There are multiple candidates for genes which are possibly related to acne, including polymorphisms in TNF-alpha, IL-1 alpha, and CYP1A1 among others.
Hormonal activity, such as menstrual cycles and puberty, may contribute to the formation of acne. During puberty, an increase in sex hormones called androgens cause the follicular glands to grow larger and make more sebum. A similar increase in androgens occurs during pregnancy, also leading to increased sebum production.
Several hormones have been linked to acne including the androgens testosterone, dihydrotestosterone (DHT) and dehydroepiandrosterone sulfate (DHEAS), as well as insulin-like growth factor 1 (IGF-I) and growth hormone. Use of anabolic steroids may have a similar effect.
Propionibacterium acnes (P. acnes) is the anaerobic bacterium species that is widely suspected to contribute to the development of acne, but its exact role in this process is not entirely clear. There are specific sub-strains of P. acnes associated with normal skin and others with long-term acne. It is unclear whether these undesirable strains evolve on-site or are acquired, or possibly both depending on the person. These strains either have the capability of changing, perpetuating, or adapting to, the abnormal cycle of inflammation, oil production, and inadequate sloughing of acne pores. One particularly virulent strain, has been circulating in Europe for at least 87 years. Infection with the parasitic mite Demodex is associated with the development of acne. However, it is unclear if eradication of these mites improves acne.
Cigarette smoking is known to increase the risk of developing acne. Additionally, acne severity worsens as the number of cigarettes a person smokes increases. The relationship between diet and acne is unclear as there is no high-quality evidence. However, a high glycemic load diet is associated with worsening acne. There is weak evidence of a positive association between the consumption of milk and a greater rate and severity of acne. Other associations such as chocolate and salt are not supported by the evidence. Chocolate does contain a varying amount of sugar that can lead to a high glycemic load and it can be made with or without milk. There may be a relationship between acne and insulin metabolism and one trial found a relationship between acne and obesity. Vitamin B12 may trigger acneiform eruptions, or exacerbate existing acne, when taken in doses exceeding the recommended daily intake.
Acne develops as a result of blockages in the follicles. The earliest pathologic changes are the excessive deposition of the protein keratin and oily sebum in the hair follicle resulting in the formation of a plug (a microcomedo). During adrenarche, a higher level of the androgen (DHEA-S) results in the enlargement of the sebaceous glands and increases sebum production. A microcomedo may enlarge to form an open comedo (blackhead) or closed comedo. The dark color of a blackhead occurs due to oxidation of the skin pigment melanin.
Comedones result from the clogging of sebaceous glands with sebum, a naturally occurring oil, and dead skin cells. In these conditions, the naturally occurring largely commensal bacterium Propionibacterium acnes can cause inflammation within and around the follicle, leading to inflammatory lesions (papules, infected pustules, or nodules) in the dermis around the microcomedo or comedone, which results in redness and may result in scarring or hyperpigmentation. Severe acne is inflammatory, but acne can also be noninflammatory.
There are multiple scales for grading the severity of acne vulgaris, three of these being:
- Leeds acne grading technique: Counts and categorizes lesions into inflammatory and non-inflammatory (ranges from 0–10.0).
- Cook's acne grading scale: Uses photographs to grade severity from 0 to 8 (0 being the least severe and 8 being the most severe).
- Pillsbury scale: Simply classifies the severity of the acne from 1 (least severe) to 4 (most severe).
Similar conditions include rosacea, folliculitis, keratosis pilaris, perioral dermatitis, and angiofibromas among others. Age is one factor that may help a physician distinguish between these disorders. Skin disorders such as perioral dermatitis and keratosis pilaris can mimic acne but tend to occur more frequently in childhood whereas rosacea tends to occur more frequently in older adults. Facial redness triggered by heat or the consumption of alcohol or spicy food is suggestive of rosacea. The presence of comedones can also help health professionals differentiate acne from skin disorders that are similar in appearance.
Many different treatments exist for acne including benzoyl peroxide, antibiotics, retinoids, antiseborrheic medications, anti-androgen medications, hormonal treatments, salicylic acid, alpha hydroxy acid, azelaic acid, nicotinamide, and keratolytic soaps. They are believed to work in at least four different ways, including the following: normalizing skin cell shedding and sebum production into the pore to prevent blockage, killing P. acnes, anti-inflammatory effects, and hormonal manipulation.
Commonly used medical treatments include topical therapies such as retinoids, antibiotics, and benzoyl peroxide and systemic therapies including oral retinoids, antibiotics, and hormonal agents. Procedures such as light therapy and laser therapy are not considered to be first-line treatments and typically have an adjunctive role due to their high cost and limited evidence of efficacy.
Benzoyl peroxide is a first-line treatment for mild and moderate acne due to its effectiveness and mild side-effects (mainly irritant dermatitis). It works against P. acnes, helps prevent formation of comedones, and has anti-inflammatory properties. Benzoyl peroxide normally causes dryness of the skin, slight redness, and occasional peeling when side effects occur. This topical does increase sensitivity to the sun as indicated on the package, so sunscreen use is often advised during the treatment to prevent sunburn. Benzoyl peroxide has been found to be nearly as effective as antibiotics with all concentrations being equally effective. Unlike antibiotics, benzoyl peroxide does not appear to generate bacterial resistance. Benzoyl peroxide may be paired with a topical antibiotic or retinoid such as benzoyl peroxide/clindamycin and benzoyl peroxide/adapalene, respectively.
Topical antibiotics are frequently used for mild to moderate severe acne. Oral antibiotics are indicated for moderate to severe cases of inflammatory acne and decrease acne due to their antimicrobial activity against P. acnes in conjunction with anti-inflammatory properties. They are believed to work both by decreasing the number of bacterial and as an anti-inflammatory. With increasing resistance of P. acnes worldwide, they are becoming less effective. Commonly used antibiotics, either applied topically or taken orally, include erythromycin (category B), clindamycin (category B), metronidazole (category B), and tetracyclines such as doxycycline and minocycline. Topical erythromycin and clindamycin are considered safe to use as acne treatment during pregnancy due to negligible systemic absorption. Nadifloxacin and dapsone are other topical antibiotics that may be used to treat acne in pregnant women, but have received less extensive study. It is recommended that oral antibiotics be stopped and topical retinoids be used once the disease has improved.
Salicylic acid (category C) is a topically applied beta-hydroxy acid that possesses bacteriostatic and keratolytic properties. Additionally, salicylic acid opens obstructed skin pores and promotes shedding of epithelial skin cells. However, salicylic acid is known to be less effective than retinoid therapy. Hyperpigmentation of the skin has been observed in individuals with darker skin types who use salicylic acid.
Azelaic acid has been shown to be effective for mild-to-moderate acne when applied topically at a 20% concentration. Application twice daily for six months is necessary, and treatment is as effective as topical benzoyl peroxide 5%, isotretinoin 0.05%, and erythromycin 2%. Azelaic acid is thought to be an effective acne treatment due to its antibacterial, anti-inflammatory, and antikeratinizing properties. Azelaic acid may cause skin irritation but is otherwise very safe.
In women, acne can be improved with the use of any combined oral contraceptive. The combinations that contain third or fourth generation progestins such as desogestrel, norgestimate, or drospirenone may theoretically be more beneficial. Antiandrogens such as cyproterone acetate and spironolactone have also been used successfully to treat acne. Hormonal therapies should not be used to treat during pregnancy or lactation as they have been associated with certain birth defects such as hypospadias and feminization of the male fetus.
Topical retinoids are medications that possess anti-inflammatory properties and work by normalizing the follicle cell life cycle. They are a first-line acne treatment for people with dark colored skin and are known to lead to faster improvement of post inflammatory hyperpigmentation. This class includes tretinoin (category C), adapalene (category C), and tazarotene (category X). Like isotretinoin, they are related to vitamin A, but are administered topically and generally have much milder side effects. They can, however, cause significant irritation of the skin. The retinoids appear to influence the cell life cycle in the follicle lining. This helps prevent the hyperkeratinization of these cells that can create a blockage. Retinol is a form of vitamin A that has similar, but milder effects and is used in many over-the-counter moisturizers and other topical products. Topical retinoids often cause an initial flare-up of acne and facial flushing.
Isotretinoin is very effective for severe acne as well as moderate acne refractory to other treatments. Improvement is typically seen after one to two months of use. After a single course, about 80% of people report an improvement with more than 50% reporting complete remission. About 20% of people require a second course. A number of adverse effects may occur including: dry skin, nose bleeds, muscle pains, increased liver enzymes, and increased lipid levels in the blood. If used during pregnancy, there is a high risk of abnormalities in the baby and thus women of child bearing age are required to use effective birth control. There is no clear evidence that use of oral retinoids increases the risk of psychiatric side effects such as depression and suicidality.
The aldosterone antagonist spironolactone is an effective treatment for acne in adult women, but is not approved by the United States' Food and Drug Administration for this purpose. Spironolactone is thought to be a useful acne treatment due to its ability to block the androgen receptor at higher doses. It may be used with or without an oral contraceptive.
Combination therapy using medications of different classes together, each with a different mechanism of action, has been demonstrated to be a more efficacious approach to acne treatment than monotherapy. Frequently used combinations include the following: antibiotic + benzoyl peroxide, antibiotic + topical retinoid, or topical retinoid + benzoyl peroxide.
Comedo extraction may temporarily help those with comedones that do not improve with standard treatment. A procedure for immediate relief is the injection of corticosteroids into the inflamed acne comedone. There is no evidence that microdermabrasion is effective.
Light therapy is a method that involves delivering intense pulses of light to the area with acne sometimes following the application of a sensitizing substance (such as aminolevulinic acid). This process is thought to kill bacteria and decrease the size and activity of the glands that produce sebum. As of 2012, evidence for light therapy and lasers is insufficient to recommend routine use. Light therapy is expensive, and while it appears to provide short-term benefit, there is a lack of long-term outcome data or data in those with severe acne.
Dermabrasion is an effective therapeutic procedure for reducing the appearance of superficial atrophic scars of the boxcar and rolling varieties. Ice pick scars do not respond well to treatment with dermabrasion due to their depth. However, the procedure is painful and has many potential side effects such as skin sensitivity to sunlight, redness, and decreased pigmentation of the skin. The procedure has fallen out of favor with the introduction of laser resurfacing.
Laser resurfacing can be used to reduce the scars left behind by acne. Ablative fractional photothermolysis laser resurfacing was found to be more effective for reducing acne scar appearance than non-ablative fractional photothermolysis, but was associated with higher rates of postinflammatory hyperpigmentation (usually about 1 month duration), facial redness (usually for 3–14 days), and pain during the procedure.
Chemical peels can also be used to reduce the appearance of acne scars. Mild chemical peels include those using glycolic acid, lactic acid, salicylic acid, Jessner's solution, or a lower concentration (20%) of trichloroacetic acid. These peels only affect the epidermal layer of the skin and can be useful in the treatment of superficial acne scars as well as skin pigmentation changes from inflammatory acne. Higher concentrations of trichloroacetic acid (30-40%) are considered to be medium strength peels and affect skin as deep as the papillary dermis. Formulations of trichloroacetic acid concentrated to 50% or more are considered to be deep chemical peels. Medium and deep strength chemical peels are more effective for deeper atrophic scars, but are more likely to cause side effects such as skin pigmentation changes, infection, or milia.
Numerous natural products have been investigated for treating people with acne. A topical application of tea tree oil has been suggested. Evidence is insufficient to support their use.
Acne usually improves around the age of 20 but may persist into adulthood. Permanent physical scarring may occur. There is good evidence to support the idea that acne has a negative psychological impact and worsens mood, lowers self-esteem, and is associated with a higher risk of anxiety, depression, and suicidal thoughts.
Globally acne affects approximately 650 million people, or about 9.4% of the population, as of 2010. It affects almost 90% of people in Western societies during their teenage years and may persist into adulthood. Acne after the age of 25 affects 54% of women and 40% of men. Acne vulgaris has a lifetime prevalence of 85%. About 20% have moderate or severe cases. It is slightly more common in females than males (9.8% versus 9.0%). In those over 40 years old, 1% of males and 5% of females still have problems.
Acne affects 40 to 50 million people in the United States (16%) and approximately 3 to 5 million in Australia (23%). In the United States, acne tends to be more severe in Caucasians than people of African descent.
- Ancient Egypt, Ancient Greece and Ancient Rome: Sulfur was used to treat acne.
- 1920s: Benzoyl peroxide was used as a medication to treat acne.
- 1970s: Tretinoin (original Trade Name Retin A) was found to be an effective treatment for acne. This preceded the development of oral isotretinoin (sold as Accutane and Roaccutane) in 1980. Also, antibiotics such as minocycline are used as treatments for acne.
- 1980s: Accutane is introduced in the United States, and later found to be a teratogen, highly likely to cause birth defects if taken during pregnancy. In the United States, more than 2,000 women became pregnant while taking the drug between 1982 and 2003, with most pregnancies ending in abortion or miscarriage. About 160 babies with birth defects were born.
Society and culture
The social and economic costs of treating acne vulgaris are substantial. In the United States, acne vulgaris is responsible for more than 5 million doctor visits and costs over $2.5 billion each year in direct costs. Similarly, acne vulgaris is responsible for 3.5 million doctor visits each year in the United Kingdom.
Misperceptions about acne's causative and aggravating factors are common and those affected by acne are often blamed for their condition. Such blame can worsen the affected person's sense of self-esteem. Acne vulgaris and its resultant scars have been associated with significant social difficulties that can last into adulthood.
A vaccine against inflammatory acne has been tested successfully in mice, but has not yet been proven to be effective in humans.
In 2007, the first genome sequencing of a P. acnes bacteriophage (PA6) occurred which should greatly enhance the development of a potential bacteriophage therapy to treat acne and, therefore, overcome the significant problems associated with long-term antibiotic therapy and bacterial resistance.
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