1. Diagnosis, Classification and Treatment Mark T. Jansen MD
ACNE VULGARIS
Diagnosis, Classification and Treatment
Mark T. Jansen MD

2. Disclosures “I have nothing to disclose” Mark T. Jansen MD

3. Acne Incidence and Prevalence
Most common in 15 to 42 yo range
Affecting up to 100% age 12 to 17
In US, 50 million experience acne each year
Approximately 7.7 million acne-related visits in US each year

4. Cost Yearly, 2.2 billion spent on acne care in US
1.7 billion on prescriptions
320 million on OTC products
Other costs related to office visits

5. Etiology Increased sebum production
Increased proliferation and decreased desquamation of keratinocytes
Propionibacterium acnes in follicles (anaerobic diphtheroid, normal flora)
Comedone formation / inflammation

6. Pathogenesis Adrenarche (prepubertal rise in DHEA-S)
Sebaceous gland hypertrophy
Increased sebum production
Sebum-growth medium P. acnes
Proliferation of P. acnes surface proteins-inflammation by triggering humoral and cell-mediated immune response

7. Etiology Misconceptions
“Blackheads are caused by dirt and poor hygiene”
“If you wash harder, you wouldn’t have acne”
“You have acne because you eat too much chocolate”

8. Etiology Misconceptions?
Milk – Nurses Health Study (47,000) women.
Insulin Growth Factor (IGF) - Acne
Milk high in IGF
> 3 portions of milk/week associated with ^ incidence Acne
High glycemic foods ^ IGF

9. Etiology Misconceptions?
Family History - > 3 fold risk if 1st degree family member had acne
Stress – No affect on sebum production but severity worse with ^ stress, especially males
BMI – Positive association - ^ BMI with ^ risk of acne for females only

10. Types of Lesions
Microcomedone – Precursor of the clinical lesions of acne (8 wks. to mature)
Closed comedone
Open comedone
Inflammatory papule
Inflammatory pustule
Inflammatory nodule

11. Microcomedo

12. Closed Comedone

13. Open Comedone

14. Inflammatory Papules

15. Inflammatory Pustules

16. Inflammatory Nodules and Nodulocystic Acne (cystic acne conglobata)

17. Treatment Who is the “patient”? “Buy in” by patient
Simpler regimen better than complex
Cost of therapy considerations

18. Treatment Pustules can be converted to nodules and papules quickly
Inflammation and Post-inflammatory hyperpigmentation (PIH) slower to improve
Establish realistic timetable and treatment end-point
Consider long term consequences of the disease – trivial/short term
vs. significant long term (scarring)?

19. Psychosocial “Complications” of Acne

20. Psychosocial “Complications”
Acne correlated with higher rates of:
Depression
Anxiety
Social withdrawal
Poor self esteem
Suicide ideation
Overall quality of life

21. General Guidelines Negotiate patient “buy in”
Establish realistic goals of treatment
Simplify regimens
Consider cost of therapy
Inquire about OTC products that may ^ side effects or sabotage therapy
Encourage water-based lotions, cosmetics and hair products (less comedogenic) over oil-based products

22. Treatment
Most effective treatment addresses core factors promoting disease:
Follicular hyperproliferation and abnormal desquamation
Increased sebum production
Propionibacterium acnes (P. acnes) proliferation
Inflammation

23. Pathogenesis Specific Agents
Follicular hyperproliferation and abnormal desquamation Topical Retinoids (Tretinoin, Adapalene and Tazarotene) normalize follicular hyperkeratosis and normalize desquamation which prevents formation of micorcomedo

24. Pathogenesis Specific Agents
Topical Retinoids Vitamin A derivatives bind to receptors in keratinocytes Normalize follicular keratinization Decrease cohesiveness of keratinocytes reducing follicular occlusion and microcomedo formation

25. Pathogenesis Specific Agents
Topical Retinoids Anti-inflammatory effects Bind specifically to receptors that down regulate formation of pro-inflammatory protein AP-1 and expression of toll-like receptor (TLR)-2

26. Pathogenesis Specific Agents
Topical Retinoids Accelerate resolution of acne-induced post-inflammatory hyperpigmentation (PIH) PIH more common in patients with darker complexions

27. Pathogenesis Specific Agents
Topical Retinoids Tretinoin (Retin-A, Retin- Micro and generics) Adapalene (Differin and generics) Tazarotene (Tazorac – no generic psoriasis – pregnancy X)

28. Pathogenesis Specific Agents
Topical Retinoids Pearls of application Tretinoin (Retin-A) photo labile so night-time application preferred Only 19% stable 2 hours after UV sunlight exposure

29. Pathogenesis Specific Agents
Topical Retinoids Pearls of application Avoid tretinoin with benzoyl peroxide Oxidizes tretinoin especially with light exposure, inactivating drug

30. Pathogenesis Specific Agents
Topical Retinoids Pearls of Application Adapalene (Differin) and tretinoin gel microsphere (Retin-A Micro) more light stable Adapalene more stable in presence of benzoyl peroxide (combo Epiduo)

31. Pathogenesis Specific Agent
Agent Pro Con
Tretinoin Generic available, multiple Degraded by light and
strengths 0.01% gel, 0.025% benzoyl peroxide.
cream/gel, 0.05% cream, Avoid in pregnancy.
0.1% cream gels more irritating than
creams
Adapalene Generic available in 0.1% Some formulations trade
cream/gel. Trade name name only. Avoid in
only in 0.1% lotion, 0.3%gel pregnancy
Light stable. Less irritating.
Can be used with BP
Tazarotene Psoriasis and acne. Best No generic currently. Most
for PIH. Most effective irritating. Pregnancy
Available in 0.05% and 0.1% category X
cream or gel

32. Pathogenesis Specific Agents
Retinoid Intolerance Irritation, dryness and flaking, worse in 1st month Avoid concomitant harsh soaps, toners, astringents, alpha hydroxy acids and salicylic acids

33. Pathogenesis Specific Agents
Retinoid Intolerance Consider application every 2nd or 3rd night Avoid “typical” soaps which have a pH of 9 to 10. Use synthetic detergent cleansers with a pH of 5.5 to 7 (Cetaphil, Dove Sensitive Skin Bar)

34. Pathogenesis Specific Agents
Retinoid Intolerance For true retinoid intolerance, consider alternatives: Azelaic acid – 15% gel (Finacea) and 20% cream (Azelex). Antimicrobial, comedolytic and anti-inflammatory comparable efficacy to tretinoin 0.05% cream

35. Pathogenesis Specific Agents
Retinoid Intolerance Alternatives continued: Salicylic acid. Induces keratolysis. Available in gel and pads with 0.5% and 2% as well as multiple products (cream, cloths, foam, cleansers, patches, pads, soaps, shower gels) of 2% concentration

36. Pathogenesis Specific Agents
Sebum production and the role of Androgens DHEA-S – Testosterone – DHT (all in the sebaceous gland) DHT attaches to receptors in the sebaceous gland that upregulate sebum production

37. Pathogenesis Specific Agents
Anti-androgenic agents OCAs – Low dose combination products estrogen dominant which makes them “anti-androgenic” Drospirenone containing pills (Yazmin and Yaz) may be superior in anti-androgenic effect (potassium sparing – monitor potassium during 1st cycle)

38. Pathogenesis Specific Agents
Third generation progestins Norgestimate Desogestrel (Less androgenic) Gestodene Second generation progestins Levonorgestrel Norethindrone (More androgenic)

39. Pathogenesis Specific Agents
Progestin-only Contraceptives Androgenic Low dose (mini-pill) Medroxyprogesterone injections Levonorgestrel IUD (Mirena) Etonogestrel implant (Implanon)

40. Pathogenesis Specific Agents
Androgen Receptor Blockers Spironolactone – Blocks androgen receptors and inhibits androgen biosynthesis (off-label use) 50 to 100mg/day in two divided doses

41. Pathogenesis Specific Agents
Spironolactone (continued) Monitor for hyperkalemia and hypotension at 4 and 6 wks. Black box warning (tumorigenic in chronic toxicity animal studies) Pregnancy category C – feminization of male fetus. Strongly consider OCAs

42. Pathogenesis Specific Agents
Antimicrobials Reduce Colonization of P. acnes Topical antimicrobials Oral antimicrobials (antibiotics)

43. Pathogenesis Specific Agents
Topical Antimicrobials Benzoyl peroxide (antimicrobial and comedolytic) Clindamycin Erythromycin Sulfacetamide Dapsone

44. Pathogenesis Specific Agents
Benzoyl peroxide Available in US in both Rx and OTC in 2.5% up to 10% gels, lotions, bars, pads, masks and liquid cleansers Applied BID Higher concentration not necessarily better. Higher concentrations more irritating and all may bleach hair/clothing

45. Pathogenesis Specific Agents
Clindamycin 1% concentrations in gel, solution, lotion, foam and pledgets Not effective as monotherapy. Use in combination with either retinoids or benzoyl peroxide to increase efficacy and reduce bacterial resistance.

46. Pathogenesis Specific Agents
Clindamycin Generic widely available in all forms Topical may be irritating. Prolonged use may predispose to fungal or bacterial superinfections including C. difficile. Warn to notify if patient develops diarrhea or bloody stool. Less likely than with oral form Pregnancy risk B

47. Pathogenesis Specific Agents
Erythromycin 2% concentrations in gel and solution formulations Avoid monotherapy. Consider combination with retinoid or benzoyl peroxide to increase efficacy and decrease bacterial resistance

48. Pathogenesis Specific Agents
Erythromycin Generic widely available in all forms May be irritating. Minimal systemic absorption. Potential for GI side effect minimal. Pregnancy risk B

49. Pathogenesis Specific Agents
Sulfacetamide Typically combined with 5% sulfur Not usually 1st line therapy Avoid in patients with allergy to sulfa or sulfonamide

50. Pathogenesis Specific Agents
Sulfacetamide Widely available as 10% gel, liquid, suspension, cream, lotion and pads Pregnancy risk C. Consider avoiding in potentially fertile females

51. Pathogenesis Specific Agents
Dapsone Topical 5% dapsone gel is newest topical antimicrobial that also has anti-inflammatory activity Unlike oral dapsone, no practical concern for use in individuals with G6PD deficiency. No associated hemolytic anemia or met- hemoglobinemia issues

52. Pathogenesis Specific Agents
Dapsone Not a sulfa. Not contraindicated in sulfa allergic patients Applied BID. No generic. May discolor skin/hair yellow-orange when used with benzoyl peroxide

53. Pathogenesis Specific Agents
Combination Topical Therapy Combination topical therapy shown to be more effective than monotherapy Evidence-based confirmation of superior efficacy of topical retinoids in combination with topical clindamycin, erythromycin or benzoyl peroxide

54. Pathogenesis Specific Agents
Combination Topical Therapy Two fixed antimicrobial / retinoid combinations available in US Clindamycin 1.2% / tretinoin 0.025% gel (Ziana, Veltin) Benzoyl peroxide 2.5% / adapalene 0.1% (Epiduo)

55. Pathogenesis Specific Agents
Combination Topical Therapy Resistance to topical antibiotics now widespread No resistance of P. acnes to benzoyl peroxide yet Combining topical antibiotics with benzoyl peroxide decreases development of resistance and improves treatment efficacy

56. Pathogenesis Specific Agents
Combination Topical Therapy Topical benzoyl peroxide / antibiotic combinations in US: BP 5% / clindamycin 1% gel (Benzaclin, Duac) BP 5% / erythromycin 3% gel (Benzamycin) BP 2.5% / clindamycin 1.2% gel (Acanya)

57. Pathogenesis Specific Agents
Topical Therapy Azelic acid – antimicrobial, comedolytic and anti-inflammatory properties 20% cream (Azelex), 15% gel (Finacea - approved in US for rosacea only) applied BID Equally efficacious to tretinoin 0.05% cream, BP 5% gel or 2% erythromycin

58. Pathogenesis Specific Agents
Oral Antibiotics Indicated for moderate to severe inflammatory acne May be used for patients with milder acne of the trunk where application of topicals are more problematic

59. Pathogenesis Specific Agents
Oral Antibiotics Inhibit growth of P. acnes in pilosebaceous unit Tetracycline class have anti-inflammatory properties too Systemic antibiotics tend more rapid clinical improvement than topicals but carry risk of more side effects (candidiasis, GI distress, significant allergic or toxic reaction)

60. Pathogenesis Specific Agents
Oral Antibiotics Prescribe for a limited course of 3 to 6 months to reduce risk of antibiotic resistance Consider discontinuation as acne improves No consensus as stopping systemic drug abruptly or in tapering fashion

61. Pathogenesis Specific Agents
Oral Antibiotics Tetracyclines (doxycycline, minocycline) Macrolides (erythromycin, azithromycin) Trimethoprim-sulfamethoxazole Clindamycin

62. Pathogenesis Specific Agents
Oral Antibiotics Emerging resistance of P. acnes 20% in % in 1996 Most common with erythromycin Least common with minocycline

63. Pathogenesis Specific Agents
Oral Antibiotics Reducing emergence of resistance: Use only when necessary. Limit treatment to < 6 mos. Stop if no additional improvement noted Give choice a minimum of 6 to 8 weeks (length of time-microcomedone to mature clinical lesion)

64. Pathogenesis Specific Agents
Oral antibiotics Reducing resistance continued: Change after 6 to 8 weeks if no response Partial response – continue 1st choice and reassess in 6 to 8 more weeks

65. Pathogenesis Specific Agents
Oral Antibiotics Reducing resistance continued: If stopped antibiotic needs to be restarted and was effective, resume same drug as long as works Avoid combination therapy with oral and topical antibiotics that have different mechanism of action Prescribe topical BP at start of oral antibiotic therapy

66. Pathogenesis Specific Agents
Oral Antibiotics Reducing resistance continued: Consider topical retinoid at initiation of oral antibiotic. Decreases resistance and more efficacious Consider topical retinoids for long term maintenance to decrease oral antibiotic use and sustain improvement

67. Pathogenesis Specific Agents
Oral Antibiotics Macrolides – Erythromycin, azithromycin Resistance now common GI side effects Consider only in patients where tetracyclines are contraindicated

68. Pathogenesis Specific Agents
Oral Antibiotics Tetracyclines – Hard to get tetracycline. Inactivated by food Doxycycline / minocycline not affected by food. Have anti-inflammatory effects. Minocycline has less resistance than doxycycline but generally higher cost

69. Pathogenesis Specific Agents
Oral Antibiotics Tetracyclines continued: Avoid < 9 yo and women who are or may become pregnant – teeth GI distress Esophagitis Pseudotumor cerebri, vertigo (minocycline) Photosensitivity, skin or liver discoloration

70. Pathogenesis Specific Agents
Oral Antibiotics Subantimicrobial doxycycline Maintains anti-inflammatory activity without antibacterial effect Maintains improvement in inflammatory acne without inducing resistance. 20mg BID

71. Pathogenesis Specific Agents
Oral Antibiotics Alternative oral antibiotics Trimethoprim – sulfamethoxazole Effective in more severe, recalcitrant acne but with associated risk of photosensitivity, bone marrow suppression and Stevens-Johnson syndrome

72. Pathogenesis Specific Agents
Oral Antibiotics Clindamycin – Risk of pseudomembranous colitis (C. diff ) Cephalexin – Little evidence. Hydrophilic so doesn’t penetrate pilosebaceous unit well. May promote MRSA

73. Pathogenesis Specific Agents
Isotretinoin Reserved for severe, recalcitrant nodulo-cystic acne Restricted prescribing (iPLEDGE) Severe teratogenic effects

74. Treatment Algorithm for females Maintenance ©2013 UpToDate® 1st choice
Alternatives
for females
Maintenance

76. Summary Negotiate patient “buy in” Simplify treatment regimens
Cost conscious
Evidence based
Remember pregnancy potentials
Good “stewardship” of oral antibiotics
Psychological considerations

77. Summary
Target areas of pathophysiology Follicular hyperproliferation, abnormal desquamation Increased sebum production P. acnes proliferation Inflammation