[Full text] Management of Pediatric Chronic Spontaneous Urticaria: A Review of Cur | JAA - Dove Medical Press

Introduction

Chronic urticaria (CU) is defined as presence of pruritic wheals, angioedema or both occurring on most days of the week and persisting for at least 6 weeks.1 Recent evidence suggests that CU in children may be as frequent as in adults with point prevalence estimates of 0.5%–1.5% affecting males and females equally.2–6 Approximately 20% of CU cases have a proven physical/inducible trigger and are known as chronic inducible urticaria (CIndU),6 while in the remaining cases, hives occur spontaneously and are known as chronic spontaneous urticaria (CSU) (historically referred to as chronic idiopathic urticaria).7

The clinical manifestations of pruritus, hives and angioedema are direct consequences of mast cell degranulation and release of preformed or newly synthetized inflammatory/vasoactive mediators (e.g., histamine, platelet-activating factor, cytokines) and neuropeptides.1,2 While the exact etiopathogenesis of CSU is not yet clearly defined,8,9 the most widely accepted hypothesis is that mast cells are activated through autoimmune mechanisms, such as the binding of immunoglobulin (Ig)G antibodies directed against IgE or its high affinity receptor (FcεRI).10–14 Furthermore, adult CSU literature demonstrated that in the majority of cases, various IgE-type autoantibodies against self-proteins, such as interleukin (IL)-24 or thyroid peroxidase, may directly bind and crosslink the FcεRI, although this has not yet been demonstrated in children.12,15–17 This mechanism is referred to as auto-allergic and can possibly co-exist with IgG-mediated CSU (Figure 1).12,15–18 More recently, IgM and IgA autoantibodies against FcεRI have as well been identified in adult patients with CSU.19 Autoimmunity in CSU can be demonstrated in vivo, through autologous serum skin test (ASST), or in vitro, through basophil histamine release assay (BHRA), basophil activation test (BAT) or by the presence of autoantibodies against IgE or FcɛRI on immunoassays.1,20,21 ASST is not routinely performed due to practical challenges and in vitro tests, such as BAT, are not recommended for routine use as their clinical utility remains to be confirmed and so far, their results do not impact patients’ management.1,20,21

Figure 1 Pathogenesis of chronic spontaneous urticaria (CSU) – current concepts. Abbreviations: FcɛRI, high affinity IgE receptor; IgE, Immunoglobulin E; IgG, immunoglobulin G; IgM, immunoglobulin M; IgA, immunoglobulin A; IL-24, interleukin-24; TPO, thyroid peroxidase. Notes: The most accepted hypothesis is that mast cell degranulation is triggered by IgG antibodies against the IgE molecule or its high affinity receptor, FcɛRI in ~ 50% of cases. In additional cases, mast cell activation and degranulation may occur due to functionally active IgE-type autoantibodies (e.g., anti-IL-24 IgE, anti-TPO IgE). IgM and IgA autoantibodies against FcεRI have as well recently been identified in adult patients with CSU. Created with BioRender®.

Various guidelines directing the optimal management of CSU in the adult population were published and updated over the recent years.1,20,21 The most accepted and widely used are the EAACI/GA2LEN/EDF/WAO guidelines which are endorsed by many international societies and were last updated in 2017.1 While these guidelines include children as a special population, they unfortunately remain underutilized in clinical practice.9 The objective of this article is to review and synthesize the existing literature regarding the management of pediatric CSU.

Treatment Objectives

The actual strategy of CSU management is focused on complete or near-complete symptom control until the disease resolves spontaneously, with optimization of number of drugs and dosage needed to achieve control and maintain it. Disease severity and treatment responses can be assessed quickly and effectively using widely available tools such as the weekly Urticaria Activity Score (UAS-7) and the Urticaria Control Test (UCT).22,23 A UAS-7 score ≤ 6 is defined as well-controlled disease, UAS-7 score between 7 and 15 as mild disease, while severe disease is associated with UAS-7 scores ≥ 28.24 A UCT score ≥ 12 corresponds to a satisfactory disease control, while a score ≤ 11 is associated with poorly-controlled disease.23

CSU has a substantial individual and societal impact due to debilitating symptoms such as severe pruritus and secondary loss of sleep and productivity.25,26 Higher prevalence of mood and anxiety spectrum disorders have been shown in pediatric CSU patients as opposed to controls.26,27 Children with CSU were found to have severe impairment in their health-related quality of life, similar to other chronic diseases such as epilepsy and diabetes,25 and a significantly lower school performance compared to those with other allergic diseases.26 Pediatric CSU is a chronic disease that may last up to 10 years and we have recently demonstrated that CSU resolution rate in children is similar to adults, at 10 per 100-patient-years.6 Hence, there is a necessity for effective and safe symptom management over many years for children with CSU. While the disease has been suggested to resolve faster in children with autoimmune forms and basopenia,6 no treatment to date has been proven to alter the natural history of this disease.

CSU Treatment Guidelines

The 2017 EAACI/GA2LEN/EDF/WAO international guidelines recommend using the same treatment algorithm for CSU in pediatric patients as in adult patients, although it is recommended to use it with caution since many of the drugs included have not yet been adequately studied in children (Figure 2).1 As a first step for management, the guidelines recommend avoiding identifiable triggers (e.g., non-steroidal anti-inflammatory agents) and physical stimuli, which are particularly relevant in cases of comorbid CSU/CIndU. In terms of pharmacological treatment, a stepwise algorithm is recommended starting with non-sedating second-generation H1-antihistamines (sgAHs) at standard dosage as first-line therapy. If symptom control is insufficient, subsequent step-up in therapy with increasing dosage of sgAHs up to fourfold the licensed dose is recommended and may result in up to 90% of children having well-controlled symptoms.28 In cases of antihistamine (AH)-resistant CSU, the guidelines recommend adding omalizumab (a monoclonal anti-IgE antibody) to the sgAH therapy. However, the use of omalizumab is currently approved by Health Canada, the Food and Drug Administration (FDA) and other jurisdictions (e.g., United Kingdom, Europe) for children with CSU ≥ 12 years of age only, and for children with moderate to severe allergic asthma ≥ 6 years of age.29,30 Finally, if symptoms remain inadequately controlled, cyclosporine as an add-on to sgAH therapy is proposed as a potential fourth step. The international guidelines strongly discourage first-generation H1-antihistamines (fgAHs) use due to their poor selectivity for the H1 receptor and their ability to cross the blood-brain barrier. fgAHs are associated with pronounced anticholinergic effects and sedative actions on the central nervous system in patients of all ages and especially in children.31–35 Additionally, studies assessing commonly used fgAHs for treatment of pediatric CSU, such as diphenhydramine or hydroxyzine, are limited and yet, these treatment regimens remain commonly employed on the basis of their historical extensive use and extrapolation from adult studies.1,9 Other therapeutic modalities, which were not included in the stepwise treatment algorithm, but were listed as alternative treatments that may be useful on a case to case basis include: montelukast (a leukotriene receptor antagonist [LTRA]), ranitidine (an H2-antihistamine [H2-AH]), doxepin (a tricyclic antidepressant with potent antihistamine effects) and more.1

Figure 2 Pediatric CSU treatment guidelines. Abbreviation: CSU, chronic spontaneous urticaria. Notes: EAACI/GA2LEN/EDF/WAO recommend following the same treatment algorithm in children as in adults, however cautiously given insufficient high-quality data to support omalizumab in children younger than 12 years-old and cyclosporine in pediatric population of all ages. SIP/SAIP/SIDerP guidelines were specifically designed for the pediatric CSU population. Their recommendations mainly differ for patients resistant to labeled dose of sgAHs, recommending updosing of sgAHs up to fourfold in children younger than 12 years of age vs. adding omalizumab to the standard dose sgAH therapy for children older than 12-years-old.

The SIP/SIAIP/SIDerP Italian guidelines are the first and only guidelines which delineate treatment recommendations specific to the pediatric population (Figure 2). The Italian guidelines have concordant recommendations for first-line therapy with sgAHs at standard doses. However, their recommendations differ subsequently given the fact that the efficacy and safety profiles of omalizumab and cyclosporine have not been widely studied in patients with CSU under 12 years of age.1,20 Conversely, there are several sgAHs approved for pediatric use, including but not limited to the following: cetirizine, loratadine, fexofenadine, levocetirizine, desloratadine, rupatadine and bilastine (age recommendations differ among sgAHs, see Table 1).1,20,29 The Italian guidelines, similar to the international guidelines, do not recommend use of fgAHs due to their poor side effect profile. The 2 guidelines recommend use of systemic glucocorticoids for short-term treatment only in cases of acute exacerbations of CSU, due to the high risk of adverse events (AE) with long-term use.1,20,21

Table 1 Commonly Used Second-Generation Antihistamines in Pediatric Patients

The AAAAI/ACAAI American guidelines were last updated in 2014, just as omalizumab use had been FDA-approved in adolescent and adult CSU patients and before an important proportion of the literature on omalizumab use in pediatric CSU was published. The American guidelines did not include any specific recommendations for the pediatric population. The AAAAI endorsed for the most part the EAACI/GA2LEN/EDF/WAO treatment recommendations for CSU, although in a recent response paper, the AAAAI maintained their weak recommendation for the trial and use of multiple sgAHs at the same time, H2-AHs, as well as LTRAs given their relative safety and low cost.36

Methods

This narrative literature review included studies that examined management of CSU in pediatric patients published in the last 20 years (January 2000 to April 2020). The review was conducted using the PubMed and EMBASE databases and using the following search terms: (“chronic urticaria” OR “chronic idiopathic urticaria” OR “chronic spontaneous urticaria”) AND (“infant” OR “child” OR “adolescent” OR “pediatric” OR “childhood”) AND (“treatment” OR “management” OR “therapy”). Individual therapies (e.g., fgAHs, sgAHs, omalizumab) were also searched. References of identified manuscripts were manually curated to identify additional articles. Only articles published in the English or French languages were considered. Inclusion criteria comprised studies reporting on the treatment of CSU in humans regardless of the study design. Articles not discussing CSU management, studies which did not include pediatric patients and review articles were excluded.

Discussion

Articles focusing on the treatment of CSU in pediatric patients were identified for H1-AHs, omalizumab, cyclosporine, zafirlukast, vitamin D supplementation, glucocorticoids, hydroxychloroquine and phototherapy. No articles focusing on pediatric CSU were found for other treatments such as methotrexate, dapsone, doxepin, H2-AHs, rituximab, pseudoallergen-free diet, intravenous immunoglobulin, plasmapheresis, tranexamic acid, warfarin, mycophenolate mofetil, heparin, colchicine, anti-TNF alpha, tacrolimus and autologous blood or serum.

H1-Antihistamines (H1-AH)

H1-AHs bind to the H1 receptor and prevent receptor activation by histamine.33 They are the cornerstone for relief of allergic and other hyperhistaminic conditions, such as CSU. AHs are classified as older fgAHs (e.g., including chlorpheniramine, hydroxyzine, diphenhydramine and doxepin) and more recent sgAHs (see Table 1). Because of their inherent capability to cross the blood-brain barrier and their poor selectivity for the H1 receptor, fgAHs are associated with significant adverse effects (e.g., sedation, reduced ability to perform skilled tasks/concentrate at work or school).31–35,37 Associated anticholinergic side effects are dose-dependent and several reports of acute poisoning and death are published in children.38,39 sgAHs have numerous advantages over their sedating counterparts, notably their selective effect on peripheral H1 receptors (i.e., less/no central nervous system depression), their longer half-life and their even longer cutaneous half-life.39–43

H1-Antihistamines at Licensed Dosage

Only 1 study compared the efficacy and safety of an sgAH (cetirizine 5 mg daily) to an fgAH (oxatomide 25 mg daily) in children aged 2 to 6 years.44 Children treated with cetirizine achieved better control of their itch by day 14 (p<0.001). In addition, more patients in the cetirizine group achieved complete symptom control (46% vs. 28%). However, AE reporting was suboptimal with only a brief mention concerning lack of changes in hematochemical and urinary values, as well as report of 1 patient in the oxatomide group experiencing an allergic reaction.44

Several studies assessed treatment with sgAHs at standard dosage in pediatric patients. One double-blind randomized controlled trial (RCT) comparing treatment with desloratadine and rupatadine at standard doses for age and weight demonstrated superiority of these sgAHs against placebo in children aged 2 to 11 years.45 Similar efficacy of both treatments was observed with, 61% and 54% of patients achieving remission in the rupatadine and desloratadine groups respectively, defined as ≥ 50% decrease in the UAS-7 score. Two double-blind RCTs, including a total of 416 patients 12 years of age or older (including 21 patients aged < 18 years), demonstrated efficacy of desloratadine 5 mg daily against placebo.46,47 Using a 4-point pruritus scale, the 2 studies demonstrated an improvement in pruritus from baseline for desloratadine compared to placebo of 58.4% vs. 40.4%46 and 74% vs. 48.7%47 (p=0.004 and p<0.001 respectively). A double-blind RCT including 225 patients 12 years of age or older assessed treatment with fexofenadine 180 mg daily and reported a decrease of 1.04 points for the fexofenadine group compared to a decrease of 0.57 point for the placebo group on a 4-point pruritus scale (p<0.001).48 The 4 mentioned RCTs assessing efficacy of sgAHs at standard doses had adequate reporting on AEs with an AE rate that was similar in both the experimental and placebo treatment groups.45–48 Two studies assessing the safety of levocetirizine hydrochloride at standard doses in infants aged 6 to 11 months and in children 2 to 11-years-old with allergic rhinitis or CSU showed similar safety profile of levocetirizine hydrochloride compared to placebo.49 An RCT assessing the safety of bilastine 10 mg daily in 509 patients 2 to 11 years of age diagnosed with allergic rhinoconjunctivitis or CU showed no significant differences in AE profile of bilastine compared to placebo.50 However, bilastine use remains off-label in children <12 years of age.

H1-Antihistamines at Higher Than Licensed Dosage

Of the studies assessing updosing of sgAHs for pediatric CSU management, 2 double-blind RCTs including 605 patients 12 to 65 years of age demonstrated that rupatadine at regular dose (10 mg daily) was of comparable efficacy with rupatadine at twice the standard dose (20 mg daily).51,52 Another RCT including 418 patients 12 to 70 years of age compared fexofenadine against placebo at doses ranging from 20 to 240 mg twice a day, corresponding to up to fourfold the standard dose in adolescent and adult patients.53 The improvement of urticaria symptoms with increasing fexofenadine dose up to 60 mg twice daily followed a linear trend, at which point efficacy plateaued. Using a 4-point pruritus scale, reductions in pruritus severity from baseline were 38%, 54%, 43%, and 57% in the 20, 60, 120, and 240 mg twice a day fexofenadine dose groups respectively and of 19% in the placebo group at 4-weeks.53 All 3 RCTs had adequate reporting on AEs. One study reported the rupatadine 20 mg group had a slightly increased incidence of AE compared to standard dosage (rupatadine 10 mg), most commonly headache and somnolence.52 In another RCT, similar safety profiles were found for both rupatadine 10 mg and 20 mg.51 The study which compared fexofenadine at different doses from 20 to 240 mg twice a day against placebo reported similar safety profiles in all treatment groups.53

Omalizumab

Omalizumab, a humanized anti-IgE antibody, is approved by Health Canada, the FDA and other jurisdictions for the treatment of AH-resistant CSU in patients ≥12-years-old.29,30,54 Omalizumab binds to the IgE molecule, and within 24 hours, inhibits binding to FcɛRI on mast cells and basophils.54 It reduces the level of free serum IgE by 96% within 3 days and decreases FcɛRI expression on basophils by 73% after 7 days.55 Furthermore, additional mechanism of action of omalizumab in CSU may involve normalizing basopenia and restoring basophil activation/histamine release (changes frequently observed in active disease).56 In adolescents and adults, it is typically administered as a single injection of 150 or 300 mg subcutaneously every 4 weeks. Most commonly reported side effects include injection-site reactions, viral infections, upper respiratory tract infections, sinusitis and headaches.54 Contraindications include known hypersensitivity or anaphylaxis to any component of the formulation.54 Omalizumab use in children younger than 12 years remains off-label for CSU despite emerging data suggesting safety and efficacy in this population.57,58

Of the 16 studies reporting on treatment with omalizumab, 3 were double-blind phase 3 RCTs which included adolescent and adult patients with a total of 977 AH-resistant CSU patients with an age range of 12 to 75 years, including 39 patients younger than 18 years of age.59–61 In all 3 studies, subcutaneous injections were given every 4 weeks and results showed that omalizumab 300 mg injections were effective in reducing CSU symptoms against placebo with a range of 51.9% to 66% of patients achieving UAS≤6 at week 12 (p<0.001).59–61 It was reported that omalizumab at a dosage of 150 mg was sufficient to provide a significant reduction in symptoms, although less effectively than the 300 mg dose.60,61 Omalizumab at a dosage of 75 mg has a similar efficacy compared to the 150 mg group61 in 1 study.28 Relapse rates were described in all 3 RCTs with symptom scores reaching values similar to those in the placebo groups after treatment discontinuation, although not returning completely to baseline values. The most common AEs reported were headache and injection-site reactions.59–61

The 14 other studies assessing treatment with omalizumab were case series, case reports and our own pediatric registry including a total of 76 AH-resistant CU pediatric patients (75 CSU patients and 1 otherwise non-specified CU patient) aged 4 to 17 years.28,55,57,58,62–71 The most common treatment regimen was omalizumab 300 mg subcutaneous injections every 4 weeks. Significant improvement of symptoms was reported in 66 out of 76 patients whereas complete remission was seen in 44 patients. Clinical improvement was usually seen within 2 months. No unexpected AEs occurred.

Cyclosporine

Cyclosporine is an immunomodulating drug which inhibits the activity of calcineurin, leading to impairment of production of IL-2, IL-3, IL-4, TNF-α and other inflammatory cytokines and thereby, inhibiting activated T lymphocytes.72 IL-4 is involved in the generation of IgE and thus, cyclosporine may inhibit the IgE-mediated release of histamine from mast cell degranulation.73 Several in vitro and in vivo studies demonstrated reduction in histamine release with cyclosporine.74,75 Cyclosporine is known to have potential nephrotoxic effects and can cause hypertension.76 Its use in adult patients with various dermatologic conditions, such as psoriasis, atopic dermatitis or CSU, was demonstrated to have dose-dependent incidence of AEs with high risk of nephrotoxicity with doses of cyclosporine >5 mg/kg/day.77,78 Absolute and/or relative contraindications to cyclosporine use include: hypersensitivity reactions, concurrent malignancy (except non-melanoma skin cancer), uncontrolled hypertension, kidney disease, uncontrolled infection, pregnancy/lactation and more.76 Its use remains off-label in treatment of CSU.

Three studies assessed treatment with cyclosporine in pediatric CSU patients including a retrospective chart review, a case series and a case report with a total of 24 AH-resistant CSU patients aged 9 to 18 years.79–81 The most common treatment regimen was cyclosporine at an initial dose of 3 mg/kg/day with slow adjustments depending on response to therapy (23 out of 24 patients) with a total duration of treatment ranging from 10 weeks to 17 months.79–81 Complete control of urticaria symptoms was reported in all 24 patients with a range of 2 days to 3 months. Additionally, it was reported that more than half of the patients experienced complete control within 2 weeks.79,81 Time to relapse after discontinuation of the treatment was reported in 9 out of the 24 patients with a range of 1 week to 37 months.79,81 All reported relapses were responsive to repeated treatment with cyclosporine. Cyclosporine serum concentration was monitored and kept below 200 ng/mL in 23 out of 24 patients. All 3 studies described no significant AEs with no change in creatinine or blood pressure.

Oral Glucocorticoids

It is generally accepted that oral glucocorticoids are effective to reduce disease severity and/or duration of acute urticaria and CSU due to their nonspecific broad spectrum anti-inflammatory properties.82 While the international guidelines support the short-term (~10 days) use of systemic glucocorticoids for acute CSU exacerbations, they strongly discourage using this class of medication for long-term management of CSU due to their inevitable serious side effects and the availability of safer treatment alternatives.1 Despite the guidelines, systemic glucocorticoids remain significantly overprescribed in both adult and pediatric patients while safe and effective sgAHs are underutilized.9,83 One European study showed that glucocorticoids were used in up to 30% of pediatric CSU patients.84 Well-designed studies assessing the safety and the efficacity of short-term glucocorticoids in pediatric CSU patients are lacking, although their use is justified by extrapolation from adult studies and their common use in other pediatric allergic diseases.82,84–87 Long-term and repeated short-term cycles of oral/systemic glucocorticoids should be strictly avoided in adults and especially in children due to their significant adverse effects (e.g., adrenal suppression, iatrogenic Cushing’s syndrome, growth impairment, etc.).1,88–90

Other Treatments

LTRAs block cysteinyl leukotrienes which are potent pro-inflammatory mediators and are mainly used to treat patients suffering from asthma and allergic rhinitis.91–93 The rationale for its use in CSU is supported by few in vivo and in vitro studies which have demonstrated that leukotrienes participate in inflammatory reactions of the skin including wheal formation.91–93 There is only low-quality and contradicting evidence for its efficacy as an add-on to AH therapy in adult CSU patients.94–96 Multiple studies have demonstrated reassuring safety profile of LTRAs, particularly montelukast, including in pediatric populations.97,98 The only contraindication to their use is hypersensitivity to any ingredient included in their formulation (montelukast and zafirlukast) and hepatic failure (zafirlukast).99,100 Their use remains off-label in CSU management. One double-blind RCT including 95 CSU patients over 12 years of age compared combination treatment with cetirizine 10 mg and zafirlukast 20 mg twice daily to cetirizine 10 mg monotherapy for a treatment duration of 3 weeks.93 All patients included in the study had suboptimal control with AHs. Combination therapy with zafirlukast led to a modest increase in efficacy of urticaria control, with an approximately 10% additional improvement in patient and physician-reported visual analogue scales compared to cetirizine monotherapy (p<0.05). Subgroup analysis demonstrated that only subjects with ASST positive results exhibited a significant improvement with combination therapy. No significant AEs were reported in either treatment groups.

Hydroxychloroquine is an antimalarial agent indicated for the treatment of malaria, systemic/discoid lupus erythematosus and rheumatoid arthritis, and which is used off-label in many other inflammatory conditions.101–105 It is thought to exert immunomodulatory properties by modulating antigen presentation, inhibiting DNA synthesis and normalizing interleukin profile.106 While hydroxychloroquine is generally considered very safe, possible side effects include ocular, neuromuscular, liver and hematologic toxicities.107,108 To decrease the risk of permanent retinal damage, the American Academy of Ophthalmology recommends limiting the daily dosage to a maximum of 5mg/kg (real weight) with baseline fundus examination, followed by annual follow up examination after 1–5 years of use depending on risk factors.109 While 1 small single-blind RCT including 48 adult patients with AH-resistant CSU demonstrated a superiority of hydroxychloroquine 400 mg daily over placebo in improving quality of life and reducing urticaria severity score at 12 weeks,110 data in pediatric CSU is largely lacking. So far, only 1 case report was identified, describing successful treatment of a 9-month-old infant with AH-resistant disease with hydroxychloroquine doses up to 6mg/kg/day.111 Additional studies are warranted prior to recommending hydroxychloroquine in AH-resistant CSU in children.

A prospective case-control study including 58 patients (14 years of age or older) assessing vitamin D supplementation (at 300 000 IU/month)112 and a case report of a 14-year-old patient who was treated with vitamin D (at 50,000 IU weekly for five doses then 2000 IU daily)113 demonstrated that vitamin D supplementation may be beneficial in the reduction of CSU symptoms in patients with demonstrated vitamin D deficiency. However, given that the case-control study was not randomized there is a potential for confounding and findings are thus not conclusive. A comparative study including 24 patients >14 years of age compared the efficacy of 2 phototherapy regimens (psoralen and ultraviolet A [PUVA] vs. narrowband ultraviolet B [NB UVB]). Results showed similar reduction in CSU symptoms with no significant difference in outcome in both treatment groups.114 A systematic review which included multiple small studies, including 2 studies on pediatric patients, demonstrated that allergen-specific immunotherapy may be beneficial in the treatment of CSU in patients with IgE-mediated allergy.115 Finally, while children were excluded from recently published RCT employing ligelizumab (a newer generation anti-IgE monoclonal antibody) for controlling moderate to severe AH-resistant CSU, 4 active clinical trials including adolescent patients are ongoing.116

Conclusion

Our review exemplifies that the medical literature strongly supports extension of EAACI/GA2LEN/EDF/WAO treatment guidelines to the pediatric population (Table 2). However, we also highlight several knowledge gaps regarding treatment options for pediatric patients under 12 years of age with refractory CSU, such as increasing doses of AHs, or initiating omalizumab. Moreover, there is scarce evidence regarding the efficacy and safety profiles of cyclosporine and LTRAs in pediatric patients of all ages.

The use of sgAHs as a first-line treatment for CSU in children has been explored and validated by several studies, including large and well-designed RCTs, which have demonstrated both efficacy in symptoms reduction and control, as well as an excellent safety profile at standard dosing.44–53 There are few studies which compared and contrasted the efficacy and safety of different sgAHs; thus, there is not one specific sgAH that is preferably recommended.1,20,21 The response to AHs in children with CSU has not yet been extensively studied, but our own data recently indicated that up to 90% of children can be adequately and safely controlled with sgAH at licensed or increased dosage.28 While fgAHs remain commonly used in pediatric CU (CSU and CIndU), there is a lack of evidence to support their efficacy/safety in the pediatric population and because of their potential to cross brain-blood-barrier, clinicians should refrain from using them unless sgAHs are unavailable.

In cases of disease refractory to AHs, omalizumab has been shown to effectively and safely reduce symptoms in children aged 12 years and older through large RCTs.59–61 Although these are promising results, the small number of adolescent patients included in the studies (combined total of 39 patients) is an inherent limitation. Omalizumab's efficacy and safety in children with CSU under 12 years of age has been reported only in case series and case reports.55,57,58,62,65–71 Hence, larger studies are required in order to confirm the safety and efficacy of omalizumab in children younger than 12 years.

Studies assessing treatment with cyclosporine in children aged 9 years and older and adolescents with CSU included small retrospective studies and case reports with low levels of evidence.79–81 In these studies, cyclosporine at an initial dose of 3 to 4 mg/kg/day, with slow adjustments depending on patient response, was reported to be safe and effective in reducing CSU symptoms and achieving remission in the vast majority of patients.77,78 117 Additionally, the need for regular laboratory monitoring of cyclosporine-related complications can represent a significant limitation to its use in children.118,119 While no RCTs specifically assessed efficacy of neither cyclosporine nor omalizumab in children, because omalizumab has been used for asthma for many years in children >6 years of age,120 we believe that cyclosporine use in children should be considered only when management with omalizumab fails. There is insufficient evidence for other treatment modalities including LTRAs.

Published On: Mon, 08 Mar 2021 21:00:49 GMT