Neonatal erythroderma: diagnostic and therapeutic challenges

Proposal for a 6-step-approach for differential diagnosis of neonatal erythroderma

The broad differential diagnosis of neonatal erythroderma often poses a diagnostic challenge. Mortality of neonatal erythroderma is high due to complications of the erythroderma itself and the occasionally severe and life-threatening underlying disease. Early correct recognition of the underlying cause leads to better treatment and prognosis. Currently, neonatal erythroderma is approached by a case by case basis. The purpose of this scoping review was to develop a diagnostic approach in neonatal erythroderma. After a systematic literature search in Embase (January 1990 - May 2020, 74 cases of neonatal erythroderma were identified, and 50+ diagnoses could be extracted. Main causes were the ichthyoses (40%) and primary immunodeficiencies (35%). Congenital erythroderma was present in 64% (47/74) of the cases, predominantly with congenital ichthyosis (11/11; 100%), Netherton syndrome (12/14, 86%), and Omenn syndrome (11/23, 48%). Time until diagnosis ranged from 102 days to 116 days for cases of non-congenital erythroderma and congenital erythroderma respectively. Among the 74 identified cases a total of 17 patients (23%) died within a mean of 158 days and were related to Omenn syndrome (35%), graft versus host disease (67%), and Netherton syndrome (18%). Disease history and physical examination are summarized in this paper. Age of onset and a collodion membrane can help to narrow the differential diagnoses. Investigations of blood, histology, hair analysis, genetic analysis and clinical imaging are summarized and discussed. A standard blood investigation is proposed and the need for skin biopsies with Lympho-Epithelial Kazal-Type related Inhibitor-staining is highlighted. Overall, this review shows that diagnostic procedures narrow the differential diagnosis in neonatal erythroderma. A 6-step flowchart for the diagnostic approach for neonatal erythroderma during the first month of life is proposed. The approach was made with the support of expert leaders from international multidisciplinary collaborations in the European Reference Network Skin-subthematic group Ichthyosis.

Erythroderma (exfoliative dermatitis). Part 1: underlying causes, clinical presentation and pathogenesis

Erythroderma (exfoliative dermatitis), first described by Von Hebra in 1868, manifests as a cutaneous inflammatory state, with associated skin barrier and metabolic dysfunctions. The annual incidence of erythroderma is estimated to be 1-2 per 100 000 population in Europe with a male preponderance. Erythroderma may present at birth, or may develop acutely or insidiously (due to progression of an underlying primary pathology, including malignancy). Although there is a broad range of diseases that associate with erythroderma, the vast majority of cases result from pre-existing and chronic dermatoses. In the first part of this two-part concise review, we explore the underlying causes, clinical presentation, pathogenesis and investigation of erythroderma, and suggest potential treatment targets for erythroderma with unknown causes.

Guidance for assessment of erythroderma in neonates and infants for the pediatric immunologist

Neonatal and infantile erythroderma (NIE) represents the common clinical phenotype of heterogeneous diseases ranging from benign and transient skin conditions to fatal multiorgan disorders. NIE regularly demands a comprehensive diagnostic workup in a multiprofessional setting, especially if newborns and young infants with the disease develop a failure to thrive and concomitant infectious, neurologic, or metabolic complications. By obtaining a detailed medical history and performing a thorough clinical examination, targeted diagnostic steps can be scheduled for most affected children. If NIE occurs in the early neonatal period, lesional skin biopsy and histology are often indicated. Likewise, if monogenic skin or immunologic diseases are suspected, genetic testing with customized panels of potentially underlying genes is mandatory. Of note, if acute symptoms such as severe infections, metabolic acidosis, or seizures occur, rapid microbiologic and metabolic investigations are warranted to rule out immunodeficiency and inborn errors of metabolism.

Hyper-IgE in the allergy clinic--when is it primary immunodeficiency?

The 2017 International Union of Immunological Societies (IUIS) classification recognizes 3 hyper-IgE syndromes (HIES), including the prototypic Job's syndrome (autosomal dominant STAT3-loss of function) and autosomal recessive PGM3 and SPINK5 syndromes. Early diagnosis of PID can direct life-saving or transformational interventions; however, it remains challenging owing to the rarity of these conditions. This can result in diagnostic delay and worsen prognosis. Within increasing access to "clinical-exome" testing, clinicians need to be aware of the implication and rationale for genetic testing, including the benefits and limitations of current therapies. Extreme elevation of serum IgE has been associated with a growing number of PID syndromes including the novel CARD11 and ZNF341 deficiencies. Variable elevations in IgE are associated with defects in innate, humoral, cellular and combined immunodeficiency syndromes. Barrier compromise can closely phenocopy these conditions. The aim of this article was to update readers on recent developments at this important interface between allergy and immunodeficiency, highlighting key clinical scenarios which should draw attention to possible immunodeficiency associated with extreme elevation of IgE, and outline initial laboratory assessment and management.

A clinical and statistical survey of cutaneous changes in the first 120 hours of life

Background:

The spectrum of dermatological manifestations during neonatal period varies from transient self-limiting conditions to serious dermatoses; the latter, fortunately few, are disproportionately stressful to the parents, who due to lack of specialized pediatric dermatology clinics frequently get tossed between a dermatologist and a pediatrician.

Objectives:

This study was formulated to record cutaneous changes over the first five postnatal days of life and to statistically correlate those changes occurring in ≥ 11 neonates with three (parity, associated illnesses, and mode of delivery) maternal and three (sex, birth weight, and gestational age) neonatal factors.

Methods:

This descriptive, cross-sectional study at a tertiary care hospital entailed recording detailed dermatological examination of 300 neonates having some (physiological and/or pathological) cutaneous changes and their statistical evaluation using the Chi-square test and significance (P < 0.05) as above.

Results:

Superficial cutaneous desquamation (SCD), Mongolian spots (MS), and erythema toxicum neonatorum (ETN) were the first three common changes among a total of 15 conditions observed overall; these three, as also milia and icterus, revealed statistical significance with both maternal as well as neonatal factors. Lanugo and napkin dermatitis (ND) were statistically significant with respect to two neonatal factors and cradle cap (CC), a single maternal factor. Gestational age was of statistical significance regarding five cutaneous changes, associated maternal illness during pregnancy regarding four, birth weight as well as parity regarding three each, and sex of the neonate as well as mode of delivery regarding two each.

Conclusion:

Despite observing a statistically significant correlation of eight cutaneous changes with three maternal and/or three neonatal factors, more extensive studies in neonatal dermatology are required for validation of these unique statistical correlations.