Anti-inflammatory and biologic drugs for atopic dermatitis: a therapeutic approach in children and adolescents

Atopic dermatitis (AD) is a chronic inflammatory disease with a heterogeneous pathogenesis correlated with dysregulation of the immune system and a prevalence of the T2-mediated immune pathway. Recent understanding of the pathogenesis of AD has allowed the development of new drugs targeting different mechanisms and cytokines that have changed the treatment approach. The aim of this review is to update knowledge on the standard of care and recent advancements in the control of skin inflammation. In light of recent guidelines, we report on the clinical efficacy of novel treatments, with special attention to situations where biologics and small molecules are involved.


Introduction
Atopic dermatitis (AD) is a chronic relapsing inflammatory skin disease associated with dysregulation of the immune system and Th2 immune responses (1).It represents the most frequent skin disease in childhood.The multidisciplinary approach includes complex pharmacological treatments, management of allergies (2)(3)(4), and behavioral and psychological problems (5).
Treatment is based on the severity of AD scores such as the Severity ScoRing of Atopic Dermatitis (SCORAD) index (6), the Investigator's Global Assessment (IGA) score (7), or the Eczema Area and Severity Index (EASI) (8).Regular use of emollients with any medication is the cornerstone of AD management.Most of the newer drugs will not be sufficient if emollients are not applied.However, they were not included in this review because our aim was to focus on the most commonly used and novel medications for pediatric AD skin inflammation in light of current recommendations and recent advances.
The introduction of new biologic drugs, such as dupilumab, has significantly transformed the therapeutic landscape for patients with AD.These biologics target specific molecules and pathways that are involved in the inflammatory process, providing a more precise and effective treatment approach for moderate-to-severe AD (Table 1).
Clinical trials have demonstrated the remarkable efficacy and safety of dupilumab, leading to its approval for the treatment of moderate to severe atopic dermatitis (AD) in children aged over 6 months of age.Other biologics, such as tralokinumab and lebrikizumab, have also been approved for use in adults and adolescents 12 years of age and older.
Ongoing investigations are exploring the potential of biologics targeting different cytokines and pathways implicated in the pathogenesis of AD.Clinical trials are specifically assessing the efficacy and safety of biologics that target IL-13 alone or in combination with other cytokines (Table 1).These novel agents offer potential additional treatment options for patients who do not respond adequately to existing therapies or who experience side effects (9).It is important to note, however, that these biologics are still in the clinical development phase and have not yet received regulatory approval.Limited pediatric trials have been conducted for these novel biologics, with nemolizumab being studied in adolescents (10).
In addition to biologics, small molecules are also being explored as treatment options for AD.In the context of childhood AD, inhibitors of phosphodiesterase-4 (PDE-4) and Janus Kinase (JAK) have been approved for use (Table 1).
The availability of biologic drugs has expanded the treatment options for patients with moderate-to-severe AD, particularly for those who have not achieved satisfactory results with conventional therapies or who have contraindications to systemic immunosuppressive agents.Biologics provide a more targeted and personalized approach, reducing symptoms, improving quality of life, and potentially preventing long-term complications associated with uncontrolled AD.
It is important to acknowledge that biologics have limitations.They can be costly, require regular administration through injection or infusion, and may have associated side effects.Longterm safety data are still being evaluated, and their use in specific patient populations, such as pregnant women and children, requires further investigation.
In this review, we aim to provide a comprehensive analysis of the clinical efficacy of new treatments for AD.

Materials and methods
We conducted a literature review using two electronic databases, MEDLINE (PubMed) and the Cochrane Library, to gather information on the use of anti-inflammatory and biological drugs for atopic dermatitis in children and adolescents.The search was conducted by filtering for articles published in the last 5 years (January 2017-March 2023).Only articles written in English were selected.Additional relevant articles known to the authors or identified in the references of the already selected articles were added.

Medications for AD management
Topical corticosteroids (TCSs) are a first-line option for AD (Table 1) (11)(12)(13)(14).TCSs with low-to-moderate potency are used in mild AD, with more potency in moderate-to-severe cases (11,12).Indeed, the majority of patients with mild-to-moderate AD are aged 0-4 years, while those with severe disease are older (Table 2) (15).Early use of adequate-potency TCSs, at the onset of the acute AD flare increases control of inflammation, regenerates the skin barrier, and reduces TCS consumption.Creams are indicated for acute or subacute lesions, ointments for chronic lesions (e.g., lichenified and xerotic lesions), and thick corneal layers (e.g., palmar/plantar regions) (16).The Fingertip Unit defines the right amount of TCS to be applied (17).The Fingertip Unit can be used to reduce parental resistance to TCSs (corticophobia).A moderate-to-highpotency TCS is applied in the acute phase, and a low-to-mediumpotency is used as maintenance.In areas with higher absorption (eyelids, genitals, face, and skin folds), low-to-moderate-potency TCSs are given.Bone mineral density in children is not decreased by TCSs (18).Proactive TCS two or three times a week prevents flare relapse (19).Corticophobia has an incidence of up to 60-73% in children with AD or their parents (20).It represent a main cause of non-adherence.Healthcare professionals should prevent cortico phobia by clearly addressing the questions and fears of parents.Adequate information is often not provided (20).Wet-wrap therapy for 2-14 days is a second-line treatment with anti-inflammatory and cooling action in patients >6 months of age (21-23).Following a 5 -15 warm bath, the skin is dried with the application of diluted (5-10%) TCSs to the skin or an internal dressing (21-23).Bandages are applied for 3-24 h, with the best results during the first week (24).Daytime dressings are not often accepted.Transiently increased cortisol levels or infections may occur.
Topical calcineurin inhibitors (TCIs) include tacrolimus (tTAC) 0.03% ointment and pimecrolimus (tPIM) 1% cream, which are both approved for AD in patients ≥2 years of age, while tTAC 0.1% is approved for those ≥16 years of age (Table 1) (25-29).TCIs quickly relieve itching and signs with sustained efficacy (30)(31)(32)(33)(34)(35)(36).tTAC treatment 2-3 times a week for up to 1 year minimizes TCS consumption and increases the number of days without acute lesions (37,38).Both tTAC formulations are more effective than low-potency TCSs and comparable to medium-potency TCSs (12, 39).Methylprednisolone 0.1% was significantly better than tTAC 0.03% in reducing EASI, pruritus, insomnia, and costs in children (40).tTAC has greater efficacy than tPIM in children (31,41).Local burning, prickling, itching, and erythema have been reported, especially in the first days.They are aggravated by sweating.To avoid stinging, TCSs are applied first, followed by tTAC 0.03% and then tTAC 0.1% if possible (12).Allergic contact dermatitis, rosacea-like granulomatous reactions, melanosis of the lips, and viral infections have been reported during TCI treatment (39).Pediatric studies showed a lack of systemic immunosuppression by TCIs over 5 years for tPIM (42) and 10 years for tTAC (36,43).In 2005, the Food and Drug Administration (FDA) issued a "Black Box warning" regarding the theoretical risk of skin cancer and/or lymphoma associated with TCIs.To date, there is no evidence to support such a risk (44-46).UV protection is still recommended because the risk of photo carcinogenicity increases

Drug Mechanism of action Non-biologic drugs
Corticosteroids Non-genomic, local vasoconstriction (topical formulation); genomic, regulatory effect at the cellular level by inhibiting the transcription of pro-inflammatory cytokines, stimulating the expression of genes encoding anti-inflammatory cytokines, and indirectly regulating transcription by blocking the other transcription factors.
Calcineurin inhibitors Inhibition of phosphatase activity of calcineurin, which leads to decreased transcription of several T2 cytokines, expression downregulation of the high-affinity receptor for immunoglobulin E (FcεRI) on Langerhans cells, suppression of T cell activation and proliferation, inhibition of the activation of sensory nerves, reduction of local S. aureus colonization and increase of microbial diversity.

Anti-H1 antihistamines
Inverse antagonists of H1 receptors on sensory (pruritus) and cerebral (sedation) nerves Allergen-specific immunotherapy Regulation of allergic responses by activation of regulatory T (Treg) cells, which suppress Th2 cells and cytokines, basophils, eosinophils, and IgE production, Breg cells, regulatory natural killer cells, and regulatory innate lymphoid cells.IgG4 levels are increased.
Cyclosporin A The binding of cytoplasmic cyclophilins to this complex inhibits calcineurin, which in turn inhibits T cell activation and proliferation.

Methotrexate
Antimetabolite that blocks the synthesis of folate and inhibits the Janus kinase (JAK)/STAT pathway, likely inhibiting T lymphocyte function.

Azathioprine
A purine analog that is converted to the antimetabolite 6-mercaptopurine, which has immunosuppressive activity by inhibiting DNA production, thereby reducing the proliferation of T and B cells.

Mycophenolate mofetil
Inhibition of inosine monophosphate dehydrogenase, which blocks the synthesis of guanosine nucleotides and reduces the proliferation of T and B lymphocytes.
Crisaborole, Difamilast, Roflumilast Phosphodiesterase-4 inhibitors that increase cAMP levels and reduce the release of proinflammatory cytokines and chemokines from activated T cells and B cells.

Tapinarof
Aryl hydrocarbon receptor antagonist.It inhibits IL-17 production from Th17, increases the activity of cutaneous barrier genes such as filaggrin, and exerts antioxidant activity.

Asivatrep
Transient receptor potential vanilloid subfamily V member 1 (TRPV1) antagonist.Activated TRPV1 on keratinocytes, mast cells, and cutaneous sensory nerves induces the release of IL-31, which mediates itch, and molecules that suppress the Th2 pathway in AD.

Biologic drugs
Dupilumab Fully humanized monoclonal antibody to the alpha subunit of the IL-4 receptor (IL-4Rα), which blocks the formation of the IL-13 Rα 1/IL-4Rα heterodimer receptor complex with subsequent signaling of IL-4 and IL-13 for T2 activation.Neuronal IL-4Rα and Janus kinase 1 (JAK1) signaling in sensory nerves are involved in itching.IL-4Rα may be more involved in the humoral immune response with IgE production.
Tralokinumab, Lebrikizumab Anti-IL-13 monoclonal antibodies block the interaction between IL-13 and the receptor, inhibiting the formation of the IL-13Rα1/IL-4Rα complex.IL-13 recruits inflammatory cells, downregulates filaggrin expression, and regulates smooth muscle contraction and mucus production in the airways.The IL-13Rα1 receptor may be more involved in skin inflammation.

Nemolizumab
Anti-IL-31 receptor alpha chain humanized IgG2κ monoclonal antibody that inhibits pruritus mediated by sensory neurons.

Tezepelumab
Anti-thymic stromal lymphopoietin (TSLP) monoclonal antibody, inhibits Th2 cell activation and production and reduces keratinocyte differentiation in skin barrier disorders.
GBR 830 Rocatinlimab Anti-OX40 monoclonal antibody that inhibits OX40-OX40 ligand binding with reduced T cell responses and improved Treg cell function.

Omalizumab
Anti-IgE monoclonal antibody that blocks IgE binding with FcεRI.

Ustekinumab
Anti-IL-12/23p40 monoclonal antibody that blocks receptor binding of inflammatory cytokines on lymphocytes.

Risankizumab Anti-IL-23p19 monoclonal antibody
Secukinumab Anti-IL-17A monoclonal antibody blocks receptor binding on keratinocytes and the inflammatory response.
with long-term use of cyclosporine, a calcineurin inhibitor (47).
Experts conclude that tPIM is a safe and effective "steroid-sparing" treatment (39) and that TCIs should no longer be avoided in suggested for mild AD and tTAC for moderate-to-severe AD and long-term treatment.
Oral corticosteroids (Table 1) are a rescue therapy for flares or severe disease (methylprednisolone 1 mg/kg/day for 1-2 weeks).Continuous treatment leads to suppression of the hypothalamicpituitary-adrenal axis, immunosuppression, hypertension, weight gain, osteoporosis, and growth failure in children (49,50).Tapering is not required for use for less than 3 weeks; otherwise, the drug should be tapered in approximately 1 month (12, 51).
Anti-H1 antihistamines play a controversial role in AD, as itching is not usually linked to histamine.The evidence supporting oral anti-H1 in AD is unclear (52).However, they are included in AD guidelines (51, 53).Sedating first-generation anti-H1s is suggested when itching affects sleep (Table 1) (50, 54, 55).In 2015, the European Medicines Agency (EMA) issued a safety warning on first-generation anti-H1s in children under 2 years of age due to a low risk of QT prolongation and torsades de pointes.A Cochrane review (56) of 25 trials, comprising eight on children, showed no consistent efficacy of second-generation anti-H1s as an "add-on" therapy to topical treatment.Cetirizine and loratadine were not superior to placebo (57).The most common adverse events are sedation (even with non-sedating antihistamines) and cholinergic symptoms (58).First-generation anti-H1s may induce daytime somnolence, impairing school performance and driving (57, 59, 60).Topical antihistamines (e.g., diphenhydramine) are not recommended because of the risk of absorption with systemic toxicity and allergic contact dermatitis (61,62).
Allergen-specific immunotherapy exerts an antiinflammatory action since it inhibits the response to sensitizing allergens (Table 1).Trials in children with aeroallergen allergies have generally reported its efficacy.However, it should be prescribed to selected children with symptoms following exposure to the relevant allergen (53).Large, controlled studies are warranted for routine use (63, 64).

Immunosuppressive agents
Cyclosporin A (CsA), a member of the calcineurin inhibitor family (65, 66) (Table 1), is approved by the EMA for severe AD in adults and, in some countries, in patients >16 years of age.However, it is widely used in children (67,68).When other therapies are unavailable or contraindicated, CsA is a first-line option with rapid action and a low incidence of side effects (69).European guidelines endorse CsA with a SCORAD index >50 or persistent AD (62).A dose of 2.5-5 mg/kg/day in two doses is recommended for children and adults (53).In adults (70), higher doses (5 mg/kg per day) achieve a quicker response.CsA and dupilumab proved to be more effective than methotrexate (MTX) and azathioprine (AZA) in terms of severity scores at week 16 (71).AD was significantly more reduced by CsA than by dupilumab at 1 month (72), with no difference between treatments after 4 months (73).CsA is more effective than prednisolone, UVA, and UVB (53).In children aged 2 to 16 years with severe AD, 5 mg/kg/day of CsA was effective either continuously for up to 12 months or in intermittent 12-week courses (74).Consequently, personalized dosing is an option (75).Treatment should not exceed 2 years of continuous regimen (62).Infections, nephrotoxicity, hypertension, tremor, hypertrichosis, headache, gingival hyperplasia, skin cancer, and lymphoma may develop.Nephrotoxicity is more likely when the dose is >5 mg/kg/day.Blood counts and hepatic and renal parameters, in addition to blood pressure, should be monitored (e.g., at baseline, every 4 weeks, and then every 3 months) (62, 70).
A paucity of data shows moderate efficacy and safety of MTX in children and adults (53,77,78).MTX and CsA similarly reduced SCORAD in children (79).In adults, CsA and dupilumab showed greater efficacy than MTX (71).Hepatic toxicity, pancytopenia, teratogenicity, and idiopathic pulmonary fibrosis are rare adverse events (80).Blood counts and renal and liver profiles should be monitored (81).The type III procollagen peptide should be checked if available.Folic acid supplementation (5 mg twice weekly) is useful (53,82,83).The response to MTX is slow (8-12 weeks) and is maintained over time.The dose is 0.2-0.5 mg/kg/week (maximum 25 mg/week) for 10-16 weeks in children.It is tapered by 2.5-5 mg/week to the lowest effective dose (39).
Azathioprine is less effective than CsA but comparable to MTX (71).The WHO stated that the side effects of AZA outweigh its benefits (86).Improvements occur within 2-3 months with an indeterminate duration (87, 88).Serum thiopurine S-methyltransferase activity allows for safer use of AZA in children (88,89).When this is unavailable, half the standard dose (2-3 mg/kg/day) for 4-6 weeks is followed by a full dose (53,70,84).AZA has hepatotoxicity, myelotoxicity, and carcinogenicity.Blood counts and liver and kidney function must be checked twice monthly for 2 months, then monthly for 4 months, and then every 2 months with an increasing dose (53,70).
Case reports and open-label studies have reported the benefits of MMF in children and adults with severe AD (90).Improvements occurred within 6-7 weeks.MMF was safer than AZA.Blood counts and renal and liver profiles should be monitored (53).The dose in children is 30-50 mg/kg/day in two doses (91).

Biologics
Atopic dermatitis is considered a type 2 (T2) disease due to the upregulation of cytokines produced by Th2 lymphocytes and T2 innate lymphoid cells (92).A role for IL-17 and IL-22 is conceivable.Even if the molecular pathophysiology is not totally understood, progress has opened the way to monoclonal antibodies targeting T2 cytokines in moderate-to-severe AD not controlled by TCSs.To date, dupilumab, tralokinumab, and lebrikizumab are marketed for adults and adolescents >12 years of age; dupilumab has been approved by the U.S. Food and Drug Administration and the European Commission for children aged >6 months of age.
Tralokinumab and lebrikizumab (Table 1) (96, 97, 110) are both approved by the European Medicines Agency (EMA) for moderate-to-severe AD in adolescents aged 12-17 years and adults.No laboratory tests are required for monitoring.
Tralokinumab.Three phase III studies have documented the efficacy and safety of tralokinumab in adults (111,112).In a phase IIb trial in adults, the frequency of IGA (0, 1) responses was higher with increasing doses (45 < 150 < 300 mg subcutaneously twice monthly) (113,114).Approval in adolescents is based on a 52-week phase III study (115,116).The most common adverse events were upper respiratory tract infections and conjunctivitis, which developed in 7.5% of patients (113, 117).Reduction of both conjunctival goblet cells and mucin production may provoke conjunctivitis associated with IL-13 antagonists (118).
Lebrikizumab showed in two phase II studies in adults a significant improvement in EASI-50 at weeks 12 and 16 (111,119).In two 16-week phase III trials enrolling adolescents and adults (120), IGA (0, 1) and EASI-75 were reached more frequently by patients in the lebrikizumab group than in the placebo group.Efficacy and safety continued after lebrikizumab withdrawal through week 52 (121).A phase III trial (122) found that TCSs did not improve the efficacy of lebrikizumab.Conjunctivitis is a common adverse event.

Novel biologics
Several anti-T2 cytokine biologics that inhibit interleukins other than IL-4 and IL-13 (Table 1) are in clinical development ( 9), but have not yet been licensed (53).Moreover, there are no pediatric trials on these novel biologics available, except for one on nemolizumab in adolescents (10).
Nemolizumab (123-125) (Table 1) has been used in adults with uncontrolled moderate-to-severe AD, has shown to improve pruritus, the primary outcome, sleep score, and EASI in both phase I (126) and II trials (127,128), with efficacy up to 64 weeks (128).A dose of 30 mg subcutaneously was more effective than 10 and 90 mg every 4 weeks (127).Pruritus relief was noticeable by day 2, and sleep disturbances by day 3 (129).In a phase III trial (10), in patients aged 13 years or older, nemolizumab 60 mg/4 weeks was more effective in improving primary outcome, VAS pruritus score, and EASI and DLQI than placebo.Tolerance was good.

Small molecules
Small molecules are chemical compounds generally <0.5 kDa that require more frequent dosing and have more off-target effects when administered systemically compared to biologics.To date, phosphodiesterase-4 (PDE-4) and Janus Kinase (JAK) inhibitors have been approved for use in pediatric AD.

PDE-4 inhibitors (Table 1)
Crisaborole ointment (2% twice a day) (148) has been approved for mild-to-moderate AD by regulatory agencies in patients 3 months of age and older.It is not marketed in the European Union.Crisaborole was effective in two phase III trials (149-151).Investigator's Static Global Assessment (ISGA) success in children aged 2-17 years with mild-to-moderate AD was achieved more frequently by crisaborole than with placebo (152).Crisaborole improves sleep disruptions (153).Crisaborole was safe, with local pain for 1-2 days being the most common adverse event.
In an open-label phase IV study in infants aged 3 to < 24 months with mild-to-moderate AD, crisaborole achieved moderate ISGA success, from 20% of patients at day 8 to 30.2% at week 4, with good tolerability (154).
Difamilast is approved in some countries for AD in children >2 years of age and adults (155).In a 4-week phase III study in children aged 2-14 years with mild-to-moderate AD (156), difamilast ointment 0.3%, 1% twice daily, achieved IGA (0, 1) in 44.6 and 47.1%, respectively, with significant differences between both difamilast and placebo groups (18.1%).A phase III trial in infants aged >3 months to 2 years is ongoing.
Roflumilast cream was successful in a phase II trial in mild-tomoderate AD patients aged >12 years (157).Preliminary data from phase III trials of roflumilast cream 0.15% in adults and children aged ≥6 years are promising.A phase III trial in children aged 2-5 years is ongoing.

Topical JAK inhibitors
Ruxolitinib cream 1.5% (Table 1) is an FDA-approved selective JAK1 and JAK2 inhibitor (158) with warnings for short-term use in mild-to-moderate AD with up to 20% BSA-resistance to topical agents in adults and adolescents >12 years of age.Less than 60 g/week or 100 g/2 weeks are permitted.It is not recommended with biologics, JAK inhibitors, or immunosuppressants.Two phase III trials (159) in subjects aged ≥12 years with mild-to-moderate AD showed that ruxolitinib significantly reduced itching within 12 h and skin thickening (159).Ruxolitinib cream 1.5% and 0.75% (160) twice daily for 8 weeks significantly achieved IGA (0, 1) and reduced pruritus (p < 0.0001).Adverse events were nasopharyngitis, burning, and pruritus at the application site, but Frontiers in Medicine 05 frontiersin.orgnot systemic.Plasma concentrations (161) were higher at >40% BSA, but below levels of bone marrow suppression.A phase I study in children aged 2-17 years (162) showed that one patient developed neutropenia and discontinued ruxolitinib.A phase III trial in children aged ≥2 years to < 12 years is ongoing.Overall, topical ruxolitinib is useful before systemic therapy and for proactive therapy.Trials on safety are needed.Tofacitinib Oral Tofacitinib, which targets JAK1, JAK2, and JAK3 (163), has been approved for several inflammatory diseases.A phase 2a study showed that tofacitinib 2% ointment significantly improved pruritus and signs in adults with mild-tomoderate AD (164).
Oral JAK inhibitors (Table 1) Upadacitinib, abrocitinib, and baricitinib mainly inhibit JAK1, JAK1, and JAK1-JAK, respectively.They are approved for adolescents >12 years of age and adults with moderateto-severe AD when drugs, including biologics, are unhelpful or contraindicated.In Europe, only adults can receive abrocitinib.Oral JAK inhibitors have been associated with cancer, major cardiovascular problems, serious infections, venous thromboembolism, and mortality (165).The EMA (166) recommended its use only when alternatives are not available in patients >65 years of age, at risk for cardiovascular disease or cancer, smokers, and with caution in patients with other risk factors for blood clots in the lungs and venous thromboembolism.Doses are reduced when possible.Patients (53) are screened for HIV, viral hepatitis B and C, and tuberculosis and receive a chest radiograph at baseline.Blood count, renal, liver, and lipid profiles, in addition to creatinine phosphokinase, are checked at baseline, at week 4, and then every 3 months.
Upadacitinib.Three 16-week phase III trials showed significant efficacy of oral upadacitinib 15 mg and 30 mg in adults and adolescents with moderate-to-severe AD (167,168).One patient interrupted upadacitinib 30 mg due to anemia, two due to neutropenia, and one due to moderate acne (167,168).One patient discontinued upadacitinib 15 mg due to acne (167).In a 16week phase III trial in adults with moderate-to-severe AD (169), upadacitinib achieved a significantly greater reduction in pruritus NRS than dupilumab.Serious infections were more common in the upadacitinib group, while conjunctivitis was more common in the dupilumab group.There was one death in the upadacitinib group due to influenza-related pneumonia.
Abrocitinib.In two 12-week phase III trials in patients >12 years and older (170, 171), abrocitinib (200 mg or 100 mg) achieved significantly greater proportions of IGA (0, 1) and EASI-75 responses.In a 40-week phase III trial (172), patients >12 years of age responding to abrocitinib had less frequent flares of AD with abrocitinib 200 mg or 100 mg than with the placebo.In a 12-week phase III trial (173) in adolescents, abrocitinib 200 mg or 100 mg significantly reached IGA (0, 1) and EASI-75.Nausea, upper respiratory tract infections, acne, reduced platelet count, and headaches were reported (171,172).In a 12-week phase III study (174), abrocitinib 100 or 200 mg and dupilumab significantly reached IGA (0, 1) and EASI-75 compared to placebo, and abrocitinib demonstrated rapid efficacy (175).However, a comparison between abrocitinib and dupilumab is lacking, and definitive conclusions cannot be drawn.A phase III study (176) showed that EASI-90 was achieved in significantly more patients with abrocitinib than with dupilumab at weeks 4 and 16.At week 2, pruritus was reduced in the abrocitinib group compared to the dupilumab group (p < 0.0001).Nausea, headaches, acne, or folliculitis were more common with abrocitinib than with dupilumab.Conjunctivitis occurred less frequently with abrocitinib than with dupilumab.

Aryl hydrocarbon antagonists
Tapinarof (Table 1) is approved for plaque psoriasis.Tapinarof cream 1% twice daily has shown promise in adults with AD, with folliculitis being the most common adverse event (179-181).Phase III trials are currently underway in both adult and pediatric populations.

Transient receptor potential vanilloid subfamily V member 1 (TRPV1) antagonist
Asivatrep.In an 8-week phase III study (182) in patients aged >12 years with mild-to-moderate AD, the primary outcome IGA (0, 1) was achieved by 36.0% in the asivatrep cream 1.0% group and 12.8% in the vehicle group (P < 0.001).There was a significant reduction in EASI-75, EASI-100, and VAS pruritus in the active group compared to the placebo group.Safety was good.

Conclusion
Standard therapy for AD consists of daily emollients, allergen avoidance, education, and TCSs.In some clinical situations, TCIs and oral corticosteroids are useful.Proactive treatments with TCSs or TCIs and psychological consultations may be considered.Anti-H1 antihistamines have a poor effect on itching.New antiinflammatory drugs have paved the way for a precision medicine strategy, but only a few are approved by regulatory agencies for use in children.In recalcitrant cases, topical PHE-4 inhibitors, both for flares and proactively, are limited by efficacy, cost, and a lack of global marketing.Ruxolitinib, a topical JAK inhibitor, has been approved and successfully used for severe pruritus in young children in some countries.In severe cases, biologics are the first option since immunosuppressive drugs can have modest results and need to be monitored for adverse events.Among the biologics, dupilumab is licensed for children aged 6 months and older, while tralokinumab and lebrikizumab are approved for adolescents >12 years of age.Oral JAK inhibitors such as upadacitinib and abrocitinib have been approved in adolescents when other

TABLE 1
Mechanisms of action of drugs used in AD.

TABLE 2
Patient characteristics from a swedish study modified from Ortsater et al. (15).
children >3 months of age (48).Overall, TCIs are a second-line option or an alternative first option for long-term treatment in areas with elevated TCS absorption and atrophy (12, 39).tPIM is , including biologics, have failed or are contraindicated.The main disadvantages of oral JAK inhibitors are increased cost and laboratory monitoring due to serious adverse events.So, when biologics are not successful, unavailable, or cost-prohibitive, immunosuppressive agents can be considered.CsA seems to have a better clinical profile in children, although it is only approved for patients >16 years of age. drugs