Pediatric Dermatology Consult

A toddler presents with patchy hair loss

A 3-year-old female is seen in the clinic with a 6-week history of hair loss. Several weeks ago the family noticed a silver dollar-sized area of hair loss, which has extended. The family has not noticed any inciting exposures or activities that triggered the event, and there was no history of pruritus, rash, or scaling. The family denies any complaints of scalp irritation or hair loss of the eyebrows or eyelashes. The mother has applied castor oil and rosemary oil to the affected site. The patient had a history of mild eczema at 6 months old. Her father and uncle have a history of male pattern hair loss starting in their teenage years. The patient and family have no history of thyroid or autoimmune disorders. The patient takes a chewable multivitamin and iron supplements. Medical history is otherwise unremarkable.
Examination findings of the scalp demonstrate a well-circumscribed alopecic patch on the vertex scalp without erythema or scale. Closer inspection of the patch with magnification or 'dermoscopy' reveals hair follicle ostia and hairs that are broader distally and narrower at their base. Nails and rest of the skin exam are unremarkable.

What's your diagnosis?

Androgenetic alopecia

Lichen planopilaris

Telogen effluvium

Trichotillomania

Alopecia areata

Given the history of sudden hair loss, with the exam revealing a well-circumscribed patch of focal alopecia without cutaneous inflammation, hairs with a narrow base and broad distal shaft, the diagnosis is alopecia areata (AA).

Alopecia areata (AA) is a nonscarring alopecia, within a set of diseases characterized by the preservation of hair follicles and therefore the potential for future hair regrowth.1 AA is believed to be caused by a breakdown of the immune-privileged nature of hair follicles, resulting in T-lymphocytes targeting the hair follicle directly, shifting follicles to early catagen or telogen phase, but sparing follicular stem cells, thereby allowing the follicle to regenerate in the future.1-3 Risk factors include family history of AA, thyroid disorders, as well as iron and vitamin D deficiency.4,5 It characteristically presents with focal, well-demarcated patches of hair loss in the scalp, typically with background skin normal to slightly pink.3,6 Exam can show “exclamation point” hairs consisting of hairs that are narrow at their base and wide at the distal end.3,7 Patients may also exhibit eyebrow and eyelash loss as well as nail changes including nail pitting and splitting.8 Diagnosis is typically made clinically but is supported by a positive hair pull test, where hairs are pulled from the periphery of an alopecic lesion; the presence of greater than 10% of hairs plucked from the scalp indicates a positive result.9,10

Dr. Michael Haft, University of California, San Diego

Dr. Michael Haft

What’s the differential diagnosis?

The differential diagnosis of AA includes other nonscarring alopecias such as trichotillomania and telogen effluvium. Other possible diagnoses include lichen planopilaris and tinea capitis.

Trichotillomania results in irregularly bordered hair loss and broken hairs of different lengths because of an internal urge to remove one’s hair, resulting in nonscarring alopecia. It can be associated with obsessive-compulsive disorder, anxiety, or other body-altering behaviors like skin picking and nail biting (characterized as body-focused repetitive behavior disorders). Treatments include reassurance and education, behavior modification, or systemic therapy including tricyclic antidepressants or SSRIs. Toddlers can engage in hair pulling behavior and trichotillomania can be difficult to differentiate from AA. However, the absence of broken hairs of varying lengths makes trichotillomania less likely in this patient.

Telogen effluvium is another form of nonscarring alopecia that presents as diffuse hair thinning across the entire scalp in response to acute psychological or physiological stress, hormonal changes, certain medications, systemic illness, or nutritional deficiency. The timing between the triggering event and hair loss can vary from weeks to months. Diagnosis requires detailed history-taking and may include evaluation for endocrinologic hair thinning (e.g. thyroid function tests) to identify reversible causes. Treatment involves directing therapy to the underlying etiology and most cases of telogen effluvium are self-limited. The presence of a well-circumscribed patch of hair loss in this patient makes AA more likely.

Dr. Lawrence F. Eichenfield is vice chair of the department of dermatology and professor of dermatology and pediatrics at the University of California, San Diego, and Rady Children's Hospital, San Diego

Dr. Lawrence F. Eichenfield

Lichen planopilaris (LPP) is a scarring, irreversible alopecia caused by T-lymphocytes attacking follicular hair stem cells. It is characterized by hair loss, pruritus, burning pain, scalp scaling, and multifocal scarring. Exam shows patches of alopecia with loss of follicular ostia centrally and perifollicular scale and erythema at the borders. Diagnosis is aided by biopsy of the affected scalp. Treatment of LPP requires the use of potent and superpotent topical corticosteroids and intralesional corticosteroids to decrease scalp inflammation and prevent further progression. The presence of follicular ostia and absence of perifollicular scale in this patient makes LPP highly unlikely.

Tinea capitis is a fungal infection of the scalp caused by dermatophytes including Trychophyton tonsurans and Microsporum canis. It presents with patches of alopecia with overlying scale and broken hairs and can have associated cervical and occipital lymphadenopathy. Diagnosis can involve skin scraping and KOH prep to visualize branching hyphae as well as fungal culture to identify the causative organism. Because dermatophytes in tinea capitis invade hair follicles, topical antifungals are ineffective because of their lack of penetration. Therefore, systemic antifungals including oral terbinafine and griseofulvin are considered first-line agents for treatment.

What’s the management plan?

The diagnosis of AA is usually a clinical one, though assessment of alternative diagnoses is appropriate dependent on signs and symptoms. Workup of AA can include thyroid studies because of the association with autoimmune thyroid disease, though studies suggest limited screening benefits in children.11 Given its variable and unpredictable course, management can include “watchful waiting” because of its potential for spontaneous remission.6 For limited patchy loss, active treatment with mid to superpotent topical steroids or intralesional triamcinolone acetonide in older children and adolescents is reasonable.12 Other treatment options include topical or low-dose oral minoxidil and immunotherapy with diphenylcyclopropenone or squaric acid (inducing an allergic contact dermatitis).12 Management of therapies for more extensive AA is evolving, with ongoing studies of oral JAK-inhibitors and biologic agents.12,13

Our patient was started on topical fluocinonide 0.05% solution and achieved good disease control and hair regrowth over the course of 3 months.

Dr. Eichenfield is vice chair of the department of dermatology and professor of dermatology and pediatrics at the University of California, San Diego, and Rady Children’s Hospital, San Diego. Dr. Haft is an inflammatory skin disease fellow in the division of pediatric and adolescent dermatology at the university and Rady Children’s Hospital. They had no disclosures.

References

1. Bernardez C et al. Actas Dermosifiliogr. 2015;106(3):158-67.

2. Rajabi F et al. Br J Dermatol. 2018;179(5):1033-48.

3. Strazzulla LC et al. J Am Acad Dermatol. 2018;78(1):1-12.

4. Lee S et al. J Am Acad Dermatol. 2019;80(2):466-77 e16.

5. MacLean KJ and Tidman MJ. Practitioner. 2013;257(1764):29-32, 3.

6. Pratt CH et al. Nat Rev Dis Primers. 2017;3:17011.

7. Gilhar A et al. N Engl J Med. 2012;366(16):1515-25.

8. Wyrwich KW et al. Am J Clin Dermatol. 2020;21(5):725-32.

9. Spano F and Donovan JC. Can Fam Physician. 2015;61(9):751-5.

10. Mounsey AL and Reed SW. Am Fam Physician. 2009;80(4):356-62.

11. Hordinsky MK. J Investig Dermatol Symp Proc. 2015;17(2):44-6.

12. Strazzulla LC et al. J Am Acad Dermatol. 2018;78(1):15-24.

13. Zhou C et al. Clin Rev Allergy Immunol. 2021;61(3):403-23.

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