A 13-year-old boy presented with an explosive eruption of numerous, small, round, erythematous, itchy plaques on his lower back and lower limbs of 2 weeks' duration (A). Some of the lesions were scaly. His nails were normal. There was no evidence of arthritis or joint deformity. He had a sore throat a month before the onset of the rash but did not seek medical attention. He was not taking any medication and had no history of joint pain or family history of skin problems.
A 13-year-old boy presented with an explosive eruption of numerous, small, round, erythematous, itchy plaques on his lower back and lower limbs of 2 weeks' duration (A). Some of the lesions were scaly. His nails were normal. There was no evidence of arthritis or joint deformity. He had a sore throat a month before the onset of the rash but did not seek medical attention. He was not taking any medication and had no history of joint pain or family history of skin problems.
Alexander K. C. Leung, MD, and Wm. Lane M. Robson, MD, of Calgary, Alberta, diagnosed psoriasis. Childhood psoriasis is fairly common; it is diagnosed before the age of 10 years and 15 years in approximately 10% and 30% of cases, respectively.1,2 Estimates of prevalence range from 0.1% to 3%.3,4 The prevalence is greatest in northern, colder climates,4 and the disease is more severe in the colder winter months.5 Both sexes are affected equally.6
A family history of psoriasis in first-degree relatives is present in about 30% of patients with childhood-onset psoriasis.7 The concordance rate in monozygotic twins is approximately 72%, compared with 12% to 23% in dizygotic twins.8 An association exists between psoriasis and various histocompatibility antigens. The association is strongest for the HLA-Cw6 allele; the disease develops in approximately 10% of HLA-Cw6-positive patients.9 Psoriasis susceptibility loci within the major histocompatibility complexes have been mapped to several chromosomes.
Streptococcal infection may lead to psoriasis via a mechanism that activates CD4+ T cells by a superantigen.7 Guttate psoriasis is associated with group A b-hemolytic streptococcal pharyngitis and perianal dermatitis10 and has been reported to occur after Kawasaki disease.11 Staphylococcal infection and HIV infection have also been reported as possible triggers of psoriasis.7
Predisposing factors include use of certain medications, withdrawal of corticosteroids in a susceptible person, emotional stress,1 alcohol or tobacco consumption, trauma (Köbner phenomenon), hypocalcemia, xerosis, and sunburn.12
Plaque psoriasis, or psoriasis vulgaris, is the most common variant in both adults and children13,14; it is characterized by sharply demarcated erythematous plaques with adherent silvery, micaceous scales (B and C).1,15 Removal of the scales results in fine punctate bleeding, which is referred to as the Auspitz sign.4,13 Lesions are usually pruritic and symmetrically distributed. Typical sites include the knees, elbows, and lower back. Involvement of the scalp, face, intertriginous areas, and diaper area is more common in infants and children.4,7 Mucosal involvement is unusual.
Other variants include guttate psoriasis, which is most common in children, adolescents, and young adults,16 and pustular psoriasis and erythrodermic psoriasis, which are rare in childhood.7,17
Nail involvement, such as pitting of the nail, onycholysis, and discoloration, is uncommon in children.6 Seronegative inflammatory arthritis develops in about 4% to 9% of children with psoriasis.18 Psoriatic arthritis may precede, coincide with, or follow the development of the skin lesions.1
Psoriasis is a clinical diagnosis. In patients with guttate psoriasis, consider culture from an appropriate site (throat, perianal area) and measurement of serum antistreptolysin O titers.17
Advise patients to avoid triggers and exacerbating factors when possible. Optimal skin care requires constant attention to hydration and lubrication and other efforts to minimize itching. Discourage scratching to minimize the Köbner phenomenon. Moisturizers and emollients help soften the scaly, hyperkeratotic surface of the affected area and are fundamental to successful treatment. Topical medications (corticosteroids; immunomodulators, such as tacrolimus and pimecrolimus; calcipotriene; and retinoids) are generally safe and remain the first-line treatment for most patients.
Consider phototherapy--alone or in combination with other topical remedies--in older children with refractory disease or whose lesions are too widespread for topical treatment.6,15 Side effects include sunburn, aging of the skin, and increased risk of skin cancer.13,19
Because of its associated toxicity, systemic treatment is usually reserved for severe and generalized forms of psoriasis that are resistant to other therapies.9,20 Combination systemic therapy (with methotrexate, acitretin, or cyclosporine) can achieve additive or synergistic efficacy and reduce the dosage and risk of adverse events.21
For this patient, application of moisturizer was recommended and an immunomodulator was prescribed.
REFERENCES:
1. Leman J, Burden D. Psoriasis in children: a guide to its diagnosis and management.
Paediatr Drugs.
2001;3:673-680.
2. Paller MS. Psoriasis. In: Rudolph CD, Rudolph AM, Hostetter MK, et al, eds.
Rudolph's Pediatrics.
New York: McGraw-Hill; 2003:1180-1181.
3. Farber EM, Nall L. Childhood psoriasis.
Cutis.
1999;64:309-314.
4. Linden KG, Weinstein GD. Psoriasis: current perspectives with an emphasis on treatment.
Am J Med.
1999;107:595-605.
5. Gibson LE, Perry HO. Papulosquamous eruptions and exfoliative dermatitis. In: Moschella SL, Hurley HJ, eds.
Dermatology.
3rd ed. Philadelphia: WB Saunders; 1992:607-622.
6. Hogan PA. Papulosquamous disease. In: Schachner LA, Hansen RC, Happle R, et al, eds.
Pediatric Dermatology.
Edinburgh: Mosby; 2003:643-681.
7. Rogers M. Childhood psoriasis.
Curr Opin Pediatr.
2002;14:404-409.
8. Duffy DL, Spelman LS, Martin NG. Psoriasis in Australian twins.
J Am Acad Dermatol.
1993;29:428-434.
9. Darmstadt GC, Sidbury R. Psoriasis. In: Behrman RE, Kliegman RM, Jenson HB, eds.
Nelson Textbook of Pediatrics.
Philadelphia: WB Saunders; 2004:2195-2196.
10. Patrizi A, Costa AM, Fiorillo L, Neri I. Perianal streptococcal dermatitis associated with guttate psoriasis and/or balanoposthitis: a study of five cases.
Pediatr Dermatol.
1994;11:168-171.
11. Garty B, Mosseri R, Finkelstein Y. Guttate psoriasis following Kawasaki disease.
Pediatr Dermatol.
2001;18:507-508.
12. van de Kerkhof PC. Psoriasis. In: Bolognia JL, Jorizzo JL, Rapini RP, eds.
Dermatology.
Edinburgh: Mosby; 2003:125-149.
13. Drew GS. Psoriasis.
Prim Care.
2000;27:385-406.
14. Mendonca CO, Burden AD. Current concepts in psoriasis and its treatment.
Pharmacol Ther
. 2003;99:133-147.
15. Lebwohl M. Psoriasis.
Lancet.
2003;361:1197-1204.
16. Honig PJ. Guttate psoriasis associated with perianal streptococcal disease.
J Pediatr.
1988;113:1037-1039.
17. Cassandra M, Conte E, Cortez B. Childhood pustular psoriasis elicited by the streptococcal antigen: a case report and review of the literature.
Pediatr Dermatol.
2003;20:506-510.
18. Zachariae H. Prevalence of joint disease in patients with psoriasis: implications for therapy.
Am J Clin Dermatol.
2003;4:441-447.
19. Cowen P. Management of psoriasis.
Aust Fam Physician.
2001;30:1033-1037.
20
. Whittam LR, McGibbon DH. The management of psoriasis.
Int J Clin Pract.
1998;52:487-491.
21. Lebwohl M. Combining the new biologic agents with our current psoriasis armamentarium.
J Am Acad Dermatol.
2003;49:S118-S124.
Recognize & Refer: Hemangiomas in pediatrics
July 17th 2019Contemporary Pediatrics sits down exclusively with Sheila Fallon Friedlander, MD, a professor dermatology and pediatrics, to discuss the one key condition for which she believes community pediatricians should be especially aware-hemangiomas.