Hormonal acne is exactly what it sounds like: breakouts that are tied to fluctuations in hormones. If your skin flares up at the same time each month, tends to occur in the same spot (chin, cheeks, jawline), and is characterized by pimples that are deep and cystic, your acne might be hormonal. Hormonal acne is usually due to a sensitivity to androgens, which are a specific type of hormone. With respect to acne, the androgen in charge is testosterone. Testosterone (and estrogen) are produced and needed by both sexes, but women are sensitive to extraneous amounts since it’s unnecessary for their typical functioning. The excess androgen has to go somewhere, and is usually purged via the skin’s androgen receptor cells which creates breakouts. While testosterone remains in the bloodstream, it increases sebum production and can make breakouts worse.
Dermatologists aren’t sure why azelaic acid is so effective at clearing up inflammation, but it’s often used as an option for sensitive skin or pregnant patients. Linkner says the ingredient is good at treating malasma, acne, and rosacea. Your dermatologist can prescribe a foam product with azelaic acid, and you can also find beauty products with very small amounts of this active ingredient.
The use of antimicrobial peptides against C. acnes is under investigation as a treatment for acne to overcoming antibiotic resistance. In 2007, the first genome sequencing of a C. acnes bacteriophage (PA6) was reported. The authors proposed applying this research toward development of bacteriophage therapy as an acne treatment in order to overcome the problems associated with long-term antibiotic therapy such as bacterial resistance. Oral and topical probiotics are also being evaluated as treatments for acne. Probiotics have been hypothesized to have therapeutic effects for those affected by acne due to their ability to decrease skin inflammation and improve skin moisture by increasing the skin's ceramide content. As of 2014, studies examining the effects of probiotics on acne in humans were limited.
The severity of acne vulgaris (Gr. ἀκµή, "point" + L. vulgaris, "common") can be classified as mild, moderate, or severe as this helps to determine an appropriate treatment regimen. There is no universally accepted scale for grading acne severity. Mild acne is classically defined by the presence of clogged skin follicles (known as comedones) limited to the face with occasional inflammatory lesions. Moderate severity acne is said to occur when a higher number of inflammatory papules and pustules occur on the face compared to mild cases of acne and are found on the trunk of the body. Severe acne is said to occur when nodules (the painful 'bumps' lying under the skin) are the characteristic facial lesions and involvement of the trunk is extensive.
Spot treatments are designed to give problem pimples a mega-dose of concentrated benzoyl peroxide — in a couple of regimens, like the Proactiv Teen Kit, the spot treatment had nearly three times the benzoyl peroxide as its all-over treatment. The logic: If benzoyl peroxide can be irritating to the skin in high concentrations, limiting its intensity to just the pimple itself could save the rest of your healthy skin.
Perioral dermatitis Granulomatous perioral dermatitis Phymatous rosacea Rhinophyma Blepharophyma Gnathophyma Metophyma Otophyma Papulopustular rosacea Lupoid rosacea Erythrotelangiectatic rosacea Glandular rosacea Gram-negative rosacea Steroid rosacea Ocular rosacea Persistent edema of rosacea Rosacea conglobata variants Periorificial dermatitis Pyoderma faciale
Acne appears to be strongly inherited with 81% of the variation in the population explained by genetics. Studies performed in affected twins and first-degree relatives further demonstrate the strongly inherited nature of acne. Acne susceptibility is likely due to the influence of multiple genes, as the disease does not follow a classic (Mendelian) inheritance pattern. Several gene candidates have been proposed including certain variations in tumor necrosis factor-alpha (TNF-alpha), IL-1 alpha, and CYP1A1 genes, among others. The 308 G/A single nucleotide polymorphism variation in the gene for TNF is associated with an increased risk for acne. Acne can be a feature of rare genetic disorders such as Apert's syndrome. Severe acne may be associated with XYY syndrome.