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Severe varicella in a child immunosuppressed with methotrexate Study conducted at the Dermatology Service, Hospital Regional da Asa Norte, Brasília, DF, Brazil.

Abstract

Varicella is a common viral infection in childhood and usually has a benign evolution. However, the evolution can be severe in immunosuppressed children. Vaccination can prevent its occurrence and especially the development of severe and/or complicated cases. Methotrexate is a systemic therapeutic option for many inflammatory diseases, and its immunosuppressive action exposes its users to a higher susceptibility to infection. The present report describes a case of severe varicella infection in a child immunosuppressed with methotrexate.

Keywords:
Immunosuppression; Methotrexate; Psoriasis; Varicella

Introduction

Varicella, or chickenpox, is a common viral infection in childhood, characterized by a vesicular eruption. In immunocompetent individuals, the symptoms are usually mild to moderate, but uncomplicated severe cases may present with more than 1,000 lesions and severe constitutional symptoms.11 Heininger U, Seward JF. Varicella. Lancet. 2006;368:1365-76. Severe complications, including central nervous system involvement, pneumonia, secondary bacterial infections, and death,22 Pannu AK, Manikandan G. Disseminated varicella infection. N Engl J Med. 2019;381:21. have been described, especially in immunocompromised patients.33 Leuvenink R, Aeschlimann F, Baer W, Berthet G, Cannizzaro E, Hofer M, et al. Clinical course and therapeutic approach to varicella zoster virus infection in children with rheumatic autoimmune diseases under immunosuppression. Pediatr Rheumatol Online J. 2016;14:34. Vaccination can prevent its occurrence and especially the development of severe and complicated conditions.44 Choi EH. Protection against severe varicella disease. J Korean Med Sci. 2019;34:93.

Psoriasis is a chronic inflammatory disease that significantly compromises the quality of life, requiring effective treatment. Up to one-third of psoriasis cases start in childhood and, although most children have moderate disease, which is well controlled with topical therapy, up to 20% of these children require systemic therapy.55 Eichenfield LF, Paller AS, Tom WL, Sugarman J, Hebert AA, Friedlander SF, et al. Pediatric psoriasis: Evolving perspectives. Pediatr Dermatol. 2018;35:170-81.

Methotrexate is a cost-effective systemic therapy option for several inflammatory diseases, available in the Brazilian Unified Health System (SUS, Sistema Único de Saúde). However, its immunosuppressive action exposes its users to increased susceptibility to infections.66 Mazereeuw-Hautier J, Uthurriague C. Utilisation du méthotrexate en dermatologie pédiatrique. Ann Dermatol Venereol. 2016;143:154-61. The pre-methotrexate assessment includes blood count, glucose measurement, liver and kidney enzymes, serology for hepatitis B and C, human immunodeficiency virus (HIV), and chest X-ray.77 Martins GA, Arruda L. Tratamento sistêmico da psoríase - Parte I: metotrexato e acitretina. An Bras Dermatol. 2004;79:263-78. This screening includes the main contraindications of the medication, such as immunodeficiency, presence of active infection, hematological, renal, and hepatic alterations.77 Martins GA, Arruda L. Tratamento sistêmico da psoríase - Parte I: metotrexato e acitretina. An Bras Dermatol. 2004;79:263-78. However, updating of the vaccination card is not part of the routine for starting methotrexate therapy.

This case report aims to draw attention to the increased susceptibility and severity of opportunistic infections in immunosuppressed children and also to alert to the need to update the vaccination card in individuals submitted to immunosuppressive therapy.

Case report

A 12-year-old female child had erythrodermic psoriasis for two years, controlled with methotrexate, 15 mg per week, which was started one year and five months before. With psoriasis under control, she was scheduled to withdraw the medication, but she returned to consultation reporting the onset of painful bulla and vesicles on the neck for five days, which after one day spread to the upper limbs, trunk, face, and oral mucosa, leading to difficulty in swallowing. The mother reported the child had had fever which was not measured.

She had a personal history of allergic rhinitis, denied episodes of varicella, reported contact with a child with active varicella lesions, and, when evaluating the child's vaccination card, no previous vaccination for this disease was identified.

On physical examination, she showed regular general status, hypoactive, with a temperature of 39.8 °C, with numerous tense and confluent vesicles and bulla on the face, oral mucosa, neck, trunk, and upper limbs, which were more sparse in the lower limbs, where some lesions showed hematic content (Fig. 1). She had whitish plaques throughout her oral cavity.

Figure 1
At hospital admission, on the fifth day of disease evolution, with vesicles and bullae on the face and a pustule on the right lower eyelid.

With the hypothesis of varicella, she was promptly admitted to the hospital, and a biopsy was performed for histopathological confirmation. Home-administered medications were withdrawn, and therapy was started with intravenous acyclovir 10 mg/kg/day, and oral nystatin, in addition to bathing with potassium permanganate solution (1:4 liters). The anatomopathological analysis later confirmed the diagnosis of varicella.

During hospitalization, the disease evolved with the dissemination of lesions that exceeded a 1,000 count, periorbital cellulitis, and febrile neutropenia, so cefepime was prescribed (Fig. 2). Folinic acid was also started to improve the effects of methotrexate, as well as dexchlorpheniramine for pruritus. After six days of hospitalization, the fever ceased, and the lesions started to regress, and the combination of hypochlorous acid and silicone was started for better healing (Figs. 3 and 4).

Figure 2
At the seventh day of evolution, presenting a bullous eruption with an erythematous background.

Figure 3
At the seventh day of intravenous acyclovir, with a regressing bullous eruption and crusts.

Figure 4
At the seventh day of hospital admission, with a regressing bullous eruption and crusts.

After ten days of intravenous acyclovir use, the patient was discharged, with most of the skin lesions showing crusts. She was instructed to maintain methotrexate withdrawal, use cephalexin for another five days, as well as maintain the use of hypochlorous acid with silicone and baths with a potassium permanganate solution.

Despite the severity of the initial condition, she showed a good evolution, with excellent healing of the lesions (Fig. 5).

Figure 5
Sixty days after hospital discharge, with residual hypochromic spots.

Discussion

The child, who had erythrodermic psoriasis and had been using methotrexate for one year and five months without being previously vaccinated against varicella, developed a severe form of the disease. During evolution, two important complications occurred: periorbital cellulitis and febrile neutropenia. The case illustrates how infections in immunosuppressed individuals can rapidly progress to severe complications.

There are well-established recommendations regarding vaccination in children with rheumatologic diseases undergoing treatment with immunosuppressants.88 Heijstek MW, Bruin LMO, Borrow R, Klis FV, Koné-Paut I, Fasth A, et al. Vaccination in paediatric patients with auto-immune rheumatic diseases: A systemic literature review for the European League against Rheumatism evidence-based recommendations. Autoimmun Rev. 2011;11:112-22. Overall, it is recommended to maintain the national vaccination schedule updated. Data on children treated with methotrexate who received live attenuated virus vaccines are reassuring regarding the safety and immune response to the vaccine.66 Mazereeuw-Hautier J, Uthurriague C. Utilisation du méthotrexate en dermatologie pédiatrique. Ann Dermatol Venereol. 2016;143:154-61.,99 Uziel Y, Moshe V, Onozo B, Kulcsár A, Tróbert-Sipos D, Akikusa JD, et al. Live attenuated MMR/V booster vaccines in children with rheumatic diseases on immunosuppressive therapy are safe: Multicenter, retrospective data collection. Vaccine. 2020;38:2198-201. There are studies that specifically mention methotrexate and the varicella vaccine: in cases of screening to start treatment with methotrexate in a child who is not immune to varicella, it is recommended to administer the vaccine and wait two to four weeks before starting the medication.88 Heijstek MW, Bruin LMO, Borrow R, Klis FV, Koné-Paut I, Fasth A, et al. Vaccination in paediatric patients with auto-immune rheumatic diseases: A systemic literature review for the European League against Rheumatism evidence-based recommendations. Autoimmun Rev. 2011;11:112-22. However, the data in the literature are scarce regarding dermatological diseases.

In Brazil, there are no clear recommendations on how to proceed regarding vaccination with a live attenuated virus in children with psoriasis using methotrexate,1010 saude.gov [Internet]. Ministério da Saúde. Manual de Normas e Procedimentos para Vacinação. Brasília, DF; 2014. Available from: http://bvsms.saude.gov.br/bvs/publicacoes/manual_procedimentos_vacinacao.pdf.
http://bvsms.saude.gov.br/bvs/publicacoe...
and it is not part of the routine to update the vaccination card before starting the medication. In the Brazilian context, this issue becomes even more relevant due to the history of the varicella vaccine: it was included in the national vaccination schedule of the SUS only in 2012, for children aged 15 months; therefore, there is a large contingent of the population without specific immunity against the varicella-zoster virus.

Considering the reported case and its severity, it is necessary to alert about the need to consider the vaccination status before starting treatment with methotrexate. For non-immune children who are already undergoing treatment, assessing the degree of immunocompromise and epidemiological risk can guide the decision-making.

  • Financial support
    None declared.

References

  • 1
    Heininger U, Seward JF. Varicella. Lancet. 2006;368:1365-76.
  • 2
    Pannu AK, Manikandan G. Disseminated varicella infection. N Engl J Med. 2019;381:21.
  • 3
    Leuvenink R, Aeschlimann F, Baer W, Berthet G, Cannizzaro E, Hofer M, et al. Clinical course and therapeutic approach to varicella zoster virus infection in children with rheumatic autoimmune diseases under immunosuppression. Pediatr Rheumatol Online J. 2016;14:34.
  • 4
    Choi EH. Protection against severe varicella disease. J Korean Med Sci. 2019;34:93.
  • 5
    Eichenfield LF, Paller AS, Tom WL, Sugarman J, Hebert AA, Friedlander SF, et al. Pediatric psoriasis: Evolving perspectives. Pediatr Dermatol. 2018;35:170-81.
  • 6
    Mazereeuw-Hautier J, Uthurriague C. Utilisation du méthotrexate en dermatologie pédiatrique. Ann Dermatol Venereol. 2016;143:154-61.
  • 7
    Martins GA, Arruda L. Tratamento sistêmico da psoríase - Parte I: metotrexato e acitretina. An Bras Dermatol. 2004;79:263-78.
  • 8
    Heijstek MW, Bruin LMO, Borrow R, Klis FV, Koné-Paut I, Fasth A, et al. Vaccination in paediatric patients with auto-immune rheumatic diseases: A systemic literature review for the European League against Rheumatism evidence-based recommendations. Autoimmun Rev. 2011;11:112-22.
  • 9
    Uziel Y, Moshe V, Onozo B, Kulcsár A, Tróbert-Sipos D, Akikusa JD, et al. Live attenuated MMR/V booster vaccines in children with rheumatic diseases on immunosuppressive therapy are safe: Multicenter, retrospective data collection. Vaccine. 2020;38:2198-201.
  • 10
    saude.gov [Internet]. Ministério da Saúde. Manual de Normas e Procedimentos para Vacinação. Brasília, DF; 2014. Available from: http://bvsms.saude.gov.br/bvs/publicacoes/manual_procedimentos_vacinacao.pdf
    » http://bvsms.saude.gov.br/bvs/publicacoes/manual_procedimentos_vacinacao.pdf

Publication Dates

  • Publication in this collection
    22 Apr 2022
  • Date of issue
    2022

History

  • Received
    20 July 2020
  • Accepted
    12 Oct 2020
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