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Denouement and Discussion: Congenital Cutaneous Candidiasis
Histological examination showed a subcorneal pustule filled with neutrophils and a superficial inflammatory infiltrate in the dermis. A direct potassium hydroxide test, as well as a periodic acid–Schiff stain on the biopsy specimen, showed spores and pseudohyphae. Growth of Candida albicans was observed in a Sabouraud culture. Findings of the Gram stain and bacteria culture were negative. Treatment with a topical antifungal (nystatin) was initiated, which caused the skin lesions to disappear in 7 days. After 3 months of follow-up, the patient remained asymptomatic without treatment and the ungual dystrophy resolved.
Mucocutaneous Candida infections are often observed in newborn infants because up to 20% to 25% of pregnant women have vulvovaginitis caused by this yeast.1 However, few published case reports can be found in the literature on congenital cutaneous candidiasis. It is not known whether such a scarcity of reports reflects underdiagnosis or underreporting of this condition.2
Congenital cutaneous candidiasis seems to result from chorioamnionitis acquired by an ascendant route through the intact fetal membrane from the maternal vagina.1,3,4 Skin lesions are present from birth or appear during the first few hours of life; they consist of a maculopapular eruption that evolves to include vesicles and pustules. Occurrence of palmoplantar vesicles and pustules, which evolve to desquamation, is often described. Occasionally, ungual dystrophy appears as a delayed manifestation of the disease,2,5 as in our patient. Most of the patients show only cutaneous involvement; however, some patients may develop systemic disease with nonspecific signs of sepsis, hepatomegaly, sepsis, or death.6 If systemic involvement is suspected, thorax irradiation, ophthalmologic examination, and blood, urine, and cerebral spinal fluid cultures are required. Blood culture results may be negative even when systemic involvement actually occurs. Hematogenous dissemination is not frequent but it can occur among premature neonates and infants with risk factors. Prematurity is generally accepted as a factor predisposing to disseminated disease.2,6,7 Furthermore, some authors have proposed that in infants with congenital candidiasis, disseminated infection or increased risk of disseminated infection should be suspected in the setting of respiratory distress or other laboratory or clinical signs of sepsis; birth weight lower than 1500 g; treatment with broad-spectrum antibiotics; extensive instrumentation-invasive procedures; positive systemic culture results; and evidence of an altered immune response.6-9
Differential diagnosis must be done as with other neonatal pustulovesicular conditions.3 The diagnosis is confirmed by identification of C albicans on a direct potassium hydroxide test or positive findings of a culture in Sabouraud medium from a cutaneous pustule. If a diagnosis is still unclear, a biopsy with a periodic acid–Schiff stain could be performed.
Treatment of candidiasis in the neonate requires an effective antifungal agent and, if possible, elimination of all risk factors for ongoing candidemia. In most term infants with congenital cutaneous candidiasis, the disease is limited to the skin, umbilical cord, and placenta.10 In these patients, topical antifungal agents are indicated (nystatin or azole formulations), although spontaneous resolution has also been described.2,6 Amphotericin B (0.5-1 mg/kg/d) is the recommended antifungal agent for the treatment of candidemia and any form of invasive candidiasis in the neonate,6-9,11,12 although lipid-associated amphotericin B preparations (3-5 mg/kg/d) are preferred in those cases with invasive candidiasis and severe preexisting renal insufficiency. Fluconazole (6-12 mg/kg/d) can be used as alternative therapy to amphotericin B, if the Candida species is identified and the susceptibility is shown.7,10,11 Flucytosine (50-100 mg/kg/d) is used in combination with amphotericin B for central nervous system infection.7,9,11 There are no controlled clinical trials to provide the optimal length of therapy. The topical antifungal agent must be used until the lesions resolve, and the systemic therapy must be used a minimum of 21 to 28 days.7,10,11
Correspondence: Buenaventura Hernandez-Machin, MD, Hospital Universitario Insular de Gran Canaria, Avd Marítima del Sur s/n, Las Palmas de Gran Canaria 35016, Spain (firstname.lastname@example.org).
Accepted for Publication: November 16, 2006.
Author Contributions:Study concept and design: Hernandez-Machin and Hernando. Acquisition of data: Hernandez-Machin and Hernando. Analysis and interpretation of data: Hernandez-Machin, Vargas, and Hernando. Drafting of the manuscript: Hernandez-Machin. Critical revision of the manuscript for important intellectual content: Hernandez-Machin, Reyes, and Hernando. Administrative, technical, and material support: Vargas and Hernando. Study supervision: Hernandez-Machin, Reyes, and Hernando.
Financial Disclosure: None reported.
Picture of the Month—Diagnosis. Arch Pediatr Adolesc Med. 2007;161(9):908. doi:10.1001/archpedi.161.9.908
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