BIODERMA Congress Reports ESPD 2023

Speaker: Kinsler Veronica MD, Professor of Paediatric Dermatology and Dermatogenetics

Report written by Dr. Suzana Ožanić-Bulić

1. What drives the melanoma risk in children with CMN?

• CMN are most commonly caused by mosaic mutations affecting NRAS or BRAF
• Primary melanoma in children with multiple CMN arises most commonly in the central nervous system
• Melanoma risk is therefore unlikely to be strongly related to UVR (ultraviolet radiation) and more related to the genetics
• For this reason, only standard good sun protection measures are advocated

2. What is the Vitamin D status in children with CMN and can we recommend what to do?

• 40% of CMN patients in the UK cohort had Vitamin D insufficiency or deficiency
• 27% of levels were insufficient (30-49 nmol/L), 13% deficient (<30 nmol/L) by age-matched UK standards
• Total vitamin D levels were not statistically significantly influenced by age, sex, CMN projected adult size, or season in which the sample was taken (regression analysis)

3. How does this compare to the general UK population?

• Figures are comparable to those in general European populations
• Current UK National Institute of Clinical Excellence (NICE) guidelines are
• Deficiency: high-dose Vitamin D followed by daily maintenance
• All individuals should consider taking 10 micrograms of Vitamin D daily all year
• At-risk children should take 10 micrograms Vitamin D daily all year

4. Conclusions for the UK

• Sun protection for children with CMN should be (excellent and) the same as for all children
• Children with CMN should have 10 mcg of Vitamin D orally daily, at least September-April each year
• Routine serum measurement of Vitamin D is not required

Speaker: Ott Hagen, Professor of Paediatric Dermatology and Allergology

Report written by Dr. Suzana Ožanić-Bulić

1. Classification of AIBD (Autoimmune Bullous Diseases)

• Subepidermal

1. Linear IgA bullous dermatosis
2. Bullous pemphigoid
3. Epidermolysis bullosa acquisita
4. Dermatitis herpetiformis

• Intraepidermal

1. Pemphigus vulgaris
2. Pemphigus foliaceus
3. Neonatal pemphigus
4. Paraneoplastic pemphigus
5. Endemic pemphigus

2. AIBD - differential diagnosis includes various infectious diseases, hypersensitivity reactions, hereditary diseases and trauma

• Bacterial and viral infections

1. Bullous impetigo
2. Staphylococcal scalded skin syndrome (SSSS)
3. Herpes simplex infection (HSV)
4. Enterovirus

• Hypersensitivity reactions

1. Stevens Johnson Syndrome (SJS)/Toxic Epidermal Necrolysis (TEN)
2. Mycoplasma pneumoniae induced rash and mucositis (MIRM)
3. Bullous EEM (Erythema exudativum multiforme)

• Hereditary diseases

1. EB (Epidermolysis bullosa) hereditaria
2. Epidermolytic ichthyosis
3. Peeling skin syndrome

• Trauma

1. Dermatitis artefacta
2. Thermal injury
3. Insect sting reaction

• Others

1. Bullous mastocytosis
2. Bullous scabies
3. Phototoxic reactions

3. AIBD - diagnostic Work-up. No effective and safe treatment without histology, DIF, ELISA…)

• Clinical features (AIBD is not a clinical diagnosis!)
• Histology
• DIF (Direct immunofluorescence)
• IIF (Indirect immunofluorescence)
• Autoantigens (DSG1, DSG3, BP 180, BP 230, LAD-1, Collagen VII…)

4.  AIBD – think of multisystem disorders

• Impaired homeostasis – dehydration, electrolyte imbalance, hypothermia
• Severe skin symptoms – debilitating pruritus, pain, erosions, ulcerations, blistering, exfoliation
• Increased risk of infections - bacterial skin infections, viral skin infections, systemic infections, septicaemia
• Psychosocial stress – stigmatization, school absence, anxiety (patient, parents, siblings), therapy costs
• Extracutaneous complications – oesophageal strictures, drug side effects, IgA nephropathy
• Failure to thrive – oral blistering/ulcerations, feeding difficulties, higher energy reauirements

5. Multiprofessional care most important in effective treatment outcomes

• Wound care team
• Pain management
• Psychosocial support
• Ophthalmology
• Otolaryngology
• Gastroenterology
• Paediatrics
• Dermatology/Paediatric dermatology

6. Children with AIBD should be vaccinated

2022 American College of Rheumatology Guideline for Vaccinations in Patients with rheumatic and musculoskeletal diseases

• Pneumococcal vaccine for all individuals under immunosuppression
• Continuing immunosuppressive medication around time of non-live attenuated vaccinations
• Hold immunosuppressants before live-attenuated vaccination (shown in table with timeline for each immunosuppressant with specific periods before starting the treatment and time required after treatment was stopped)

7. Therapeutic desert – no blinded randomized controlled trials

• Therapeutic armamentarium

1. Topical and systemic glucocorticosteroids
2. Dapsone
3. Doxycycline
4. Methotrexate
5. Mycophenolate
6. Azathioprine
7. IVIG
8. Rituximab

8. Subepidermal AIBD topical treatment

• Topical anti-inflammatory treatment – methylprednisolone 0.1%, mometasone 0.1%, clobetasol 0.05%
• Tapering schedule – month 1: daily treatment, month 2: every 2nd day, month 3: 2 times per week, month 4: once per week

9. Subepidermal AIBD systemic treatment

• Systemic corticosteroids

1. Start: prednisone 0.5 mg/kg/d
2. If no control of disease activity (CDA) on day 15: 0.75 mg/kg
3. CDA: slow tapering (e.g. 25% dose reduction weekly/biweekly)
4. Goal: minimal therapy (0.1 mg/kg/d)

• Dapsone

1. Start with 0.5 mg/kg/d
2. Increase to 1(-2) mg/kg/d
3. Lab: methaemoglobin, CBC/DIFF

• Intravenous immunoglobulins

1. 2 g/kg every 4 weeks

• Mycophenolate mofetil

1. 300 mg/m2 twice daily

• Emerging therapies: Biologics

10. Emerging therapies in BP (Bullous pemphigoid) – case reports

• Two cases of BP effectively treated with oral tofacitinib
• Bullous pemphigoid treated with Janus kinase inhibitor upadacitinib

11. Pemphigus vulgaris treatment

• 1st line treatment
• Rituximab two infusions of 1g two weeks apart + systemic corticosteroids (prednisone 1mg/kg/day) with a progressive tapering in order to stop corticosteroids after 6 months or
• Systemic corticosteroids oral prednisone 1 to 1.5 mg/kg/day alone or associated with an immunosuppressive drug (azathioprine 1 do 2.5 mg/kg/day or mycophenolate mofetil  2g/day or mycophenolate sodium 1440 mg/day)

Speaker: El Hachem May MD, Head Paediatric Dermatology Unit

Report written by Dr. Suzana Ožanić-Bulić

1. Genodermatoses: neonatal skin signs

• Erythroderma
• Scaling/hyperkeratosis
• Vesicles/blisters
• Plaques/nodules
• Dyschromic lesions

2. Erythroderma – erythematous cutaneous eruption characterized by

• Skin involvement over 90%
• Severity
• Chronic evolution
• Frequent associated scaling
• May suggest rare and common diseased - Ichtyosis, immunodeficiency, metabolic disorders, psoriasis, atopic dermatitis, seborrheic dermatitis

3. Keratinopathic ichthyoses

• Erythroderma with desquamation
• Superficial blistering
• Comprise: epidermolytic ichthyosis, ihthyosis with confetti, superficial epidermolytic ichthyosis, and epidermolytic naevus
• Due to mutation in keratin genes

4. Netherton syndrome

• Erythroderma
• Hypernatremia
• Sparse hair
• Trichorrhexis invaginate (not present early in life)
• AD and hyper IgE
• Diagnosis: complete lack of LEKTI, mutation in SPINK5

5. Scaling/hyperkeratosis

Ichtyoses – heterogenous group of genodermatoses characterized by hereditarian disorder of keratinization defect of maturation of the basal layer cells and scaling

6. Restrictive dermopathy

• Rare genodermatosis, caused by ZMPSTE24, or less frequently, LMNA mutations
• Characterized by extremely poor prognosis resulting in stillbirth or early neonatal death
• Clinical features comprise prematurity, intrauterine growth retardation, thin rigid skin with lacerations at flexural regions, facial dysmorphism and joint ankyloses

7. Incontinentia pigmenti

• Genetic disorder
• X-linked (Xq28) – NEMO gene
• Mosaicism due to lyonization (random inactivation of one chromosome X during embryology)
• It affects female (usually lethal in male)
• Characterized at birth by diffuse vesicles following Blaschko lines
• Association with extracutaneous manifestations

8. Epidermolysis bullosa

• The most recent classification distinguishes 4 major types following the cleavage level

1. EB Simplex, within basal keratinocytes
2. Junctional EB, within the lamina lucida
3. Dystrophic EB, below the lamina densa
4. Kindler EB, mixed levels

• EB causative genes and encoded proteins – EB subtypes are caused by mutations in 16 genes encoding 13 proteins

9. Aplasia cutis in EB

• Congenital skin defects usually affecting the lower limbs
• Described in all EB types, more frequently in EBS intermediate with cardiomyopathy (KLHL24) and dystrophic EB, in particular dominant intermediate and self-improving subtypes (COL7A1)

10. Skin atrophy in EB

• Skin atrophy and poikiloderma are typical of Kindler EB (FERMT1)
• Skin atrophy can manifest already in infancy

11. Tuberous sclerosis

• Tuberous sclerosis complex (TSC) is autosomal dominant disorder characterized by multiple dysplastic organ lesions and neuropsychiatric symptoms, caused by loss of function mutations in either TSC1 or TSC2 gene
• Mutations are present in 70% of patients, and 2/3 are de novo mutations

12. Dyschormic lesions: pigmented and vascular

Giant congenital melanocytic naevi (GCMN)

1. Rare
2. Usually associated with genetic mutations in NRAS (<KRAS) that interfere with the normal proliferation, differentiation and migration of melanoblasts
3. Diagnosis – brain and spine MRI to investigate neuromelanosis
4. Clinical and dermoscopic follow-up
5. Nodules within GCMN may be – proliferative and benign or melanoma

13. Conclusion

• Neonatal skin manifestrations may be suggestive of a wide and heterogenous group of dermatoses
• Diagnostic workup, including molecular genetic testing, should be started as soon as possible
• Multidisciplinary management is mandatory to guarantee an appropriate care
• Genetic counselling should be offered to the parents
• Psychological support is necessary

Speaker: Baselga Eulalia MD, Professor of dermatology

Report written by Dr. Suzana Ožanić-Bulić

1. Vascular stains in the newborn: pattern recognition

• Is it vascular?
• Is it vascular malformation or a tumour?
• Do we need workup?

2. Is it vascular?

• Colour
• It blanches
• Shape and localization
• No textural skin changes

3. Is it vascular malformation or tumour?

• Precursor of haemangioma (white peripheral halo) – diagnostics for PHACE
• Capillary malformation (port wine stain) – diagnostics for SWS
• Stain of an AVM (arterio-venous malformation) or a RASA1 stain – Arteriography

4. PHACEs (OMIM 606519) – 30-46% segmental IH face and scalp

• Posterior fossa malformation
• Large segmental Facial Haemangioma
• Arterial anomalies
• Cardiac and Coarctation
• Eye anomalies
• Sternal raphe
• Work-up: MRI with contrast and Angio MR head and neck, Echocardiogram, Ophthalmologist referral, Hearing test

5. Propranolol in PHACE

• Cardiac contraindication… only if bradycardia

1. Echocardiogram including aorta, start propranolol at lower dose (0.5 mg/kg) in three divided doses

• Theoretical risk of hypoperfusion
• Stroke PHACE and propranolol: no evidence

6. Sturge-Weber Syndrome (10-35% PWS forehead area)

• Leptomeningeal angiomatosis (LMA)
• Early onset seizures
• Stroke-like episodes
• Neurodevelopmental delay
• Glaucoma
• Risk of SWS in frontal PWS – all MRI before 1 year, 16% had SWS

7. Patients at risk SWS

• Ophthalmology referral
• MR with gadolinium “gold standard”
• ECG in specialized centre
• Workup necessary – parents want to know, parents can be trained to recognize often subtle first seizures, early treatment can prevent generalization or status epilepticus and neurodevelopmental outcome, preventive treatment in extensive cases

8. Early MRI: At what age?

• LMA visualisation needs gadolinium
• False negative results before 2-3 months
• Need for anaesthesia (“Feed and wrap” technique)
• Gadolinium toxicity (unheard in infants and with newer macrocyclic compounds)

9.  is it vascular?

• Stain of an AVM
• Warm to palpation
• Rapid capillary refill
• White peripheral halo
• Colour heterogeneity

10. “Dominant” stain of CM-AVM: Do we need workup?

• Autosomal dominant, hight penetrance
• Germline loss of function in RASA-1 (50%), EPHB4 (25%), mosaic RASA-1
• 1/3 AVM: 10% intracranial AVM – haemorrhage, high output heart failure

11. Vascular stain on lower lip

• Pattern recognition – shape is characteristic stain of CLAPO
• PIK3CA mutation
• +/- lymphatic malformation
• +/- overgrowth

12. Take home messages

• PAST – pattern recognition, descriptive names
• NOW – molecular characterization, genotype-phenotype correlation, rapamycin for everything, few targeted therapies
• FUTURE – biomarkers, risk stratification of patients, evidence-based recommendations

Speaker: Mulleger Robert MD, Prof dermatologist

Report written by Dr. Suzana Ožanić-Bulić

1. Lyme Borreliosis (LM)

• Multisystemic infectious disease
• Borrelia burgdorferi (Bb) sensu lato
• Transmission by hard ticks (family: Ixodidae)
• Most frequent tick-transmitted disease in northern hemisphere
• Incidence peaks: 5-15 ys and >50 ys
• Same spectrum in children and adults
• Differences in prevalence and clinical characteristics

2. Stages of LB and clinical manifestations

• Early localized

1. Erythema migrans
2. Borrelial lymphocytoma
3. Disseminated EM

• Early disseminated

1. Disseminated EM
2. Aseptic meningitis
3. Mono/polyradikuloneuritis
4. Cranial nerve palsies
5. Encephalitis, myelitis
6. Arthritis
7. Myositis
8. AV-block I-III, myopericarditis, endocarditis, pericarditis, tachycardia
9. Conjunctivitis, iritis, (chorio)retinitis, uveitis, keratitis, optic nerve neuritis

• Late

1. Acrodermatitis chronica atrophicans (ACA)
2. Peripheral (poly-) neuropathy
3. Chronic encephalomyelitis
4. Cerebral vasculitis
5. Chronic arthritis
6. Dilated cardiomyopathy
7. Keratitis

3. Erythema migrans

• Hallmark of early LB
• Single or multiple, expanding, round-to-oal, bluish-red, sharply demarcated erythema(s) of at least 5 cm
• Either ring-like with central clearing or homogenous
• 45% of all LB manifestations in children (>70% in adults)

4. Borrelial lymphocytoma

• Early localized, subacute skin manifestation of LB
• One of the most common B-cell pseudolymphomas
• Almost exclusively in Europe
• 50% of cases in children
• Non-tender, soft, bluish-red nodule or plaque of 1-5 cm
• Site in children: ear (88%), breast (7%), scrotum (7%)

5. Acrodermatitis chronica atrophicans

• Cutaneous manifestation of late stage LB
• Extensor surfaces of (distal) extremities
• Inflammatory stage evolves into atrophic stage over months
• Rarest form of LB, especially in children

6. Therapy of LB in childhood – antibiotics

(oral therapy to be preferred, except for severe neurologic or cardiac manifestations)

• Amoxicillin p.o., 50 mg/kg (max 1.5 g) in 3 divided doses
• Cefuroxime axetil p.o., 30 mg/kg (max 1g) in 2 divided doses
• Azithromycin p.o., 10 mg/kg (max 500 mg) once daily (5-10 days)
• Phenoxymethyl penicillin p.o., 200.000 – 400.000 U/kg (max 18-24 Mio. U) every 4 hrs
• Doxycycline p.o., 4 mg/kg (max 200 mg) in 2 divided doses – contraindicated in children <8 ys

1. Low risk of permanent tooth staining or enamel hypoplasia (scarce data)

• Ceftriaxone i.v., 50-75 mg/kg (max 2g) in one dose
• Duration of therapy

1. Early localized disease 10-14 days
2. Early disseminated disease 14-21 days
3. Late 14-28 days

7. Treatment outcomes

• Excellent outcome after antibiotics
• Prompt clearance of skin lesions

1. EM + MEM: med. <1 wk- 2 ws (max 3 months)
2. BL: med 2 ws – 2 months (max 10 months)

• Extracutaneous symptoms disappear within a few days
• Persistence of headache a/o arthralgias for max 3 mo
• No late sequelae
• Jarisch-Herxheimer reaction rare

Speaker: Horev Amir MD

Report written by Dr. Suzana Ožanić-Bulić

Cutaneous Leishmaniasis

• No perfect treatment in children – painful, irritable, not approved for young children, drug toxicity, not suitable for all Leishmania species, scarce data regarding clinical efficacy, hight economic cost
• Topical

1. Thermotherapy
2. Cryotherapy
3. Paromomycin
4. Pentostam injection
5. CO2 laser
6. Liposomal amphotericin B
7. Photodynamic patch
8. Nitric oxide

• Oral

1. Rifampin
2. Fluconazole
3. Itraconazole
4. Ketoconazole
5. Azithromycin
6. Miltefosine
7. Allopurinol

• Parenteral

1. Pentostam

Speaker: Theiler Martin MD, Consultant for Paediatric dermatology

Report written by Dr. Suzana Ožanić-Bulić

1. Unusual exanthems – case presentations

• Infant with fever and rash
• JXGs followed by an unusual exanthem
• DRESS or no DRESS

2. Case presentation – infant with fever and rash

• 9 mo infant with fever and maculopapular exanthem for 3 days, conjunctival injection, erythematous and scabby lips, cervical lymphadenopathy, CRP 85 mg/L and microcytic anaemia
• Differential diagnosis – Kawasaki disease, COVID -19 (MIS-C, PIMS), Toxic shock syndromes, Measle or other viral exanthems, Drug reaction (DRESS)…
• Diagnosis Febrile ulceronecrotic Mucha-Habermann disease (FUMHD)

1. Acute and severe variant of pityriasis lichenoides with systemic involvement
2. High fever, gastrointestinal symptoms, CNS manifestations, pulmonary involvement, cardiomyopathy, pancytopenia, DIC, sepsis
3. Infectious trigger in a proportion of cases
4. Males predominantly affected
5. Mortality 2% in children (20% in adults)

• Treatment – systemic steroids and methotrexate

3. Case presentation – JXG followed by an unusual exanthem

• 7 mo girl with multiple juvenile xanthogranulomas (JXG)
• Normal ophthalmology exam, normal abdominal ultrasound, normal differential full blood count, no evidence of neurofibromatosis
• New rash developed with differential diagnosis – Sweet syndrome, insect bite reaction, lymphomatoid papulosis
• Diagnosis skin rash – Sweet syndrome
• Postinlammatory elastolysis /cutis laxa – up to 30% of paediatric Sweet syndrome, associated with cardiovascular complications (aortic aneurysm, stenosis of coronary vessels…)

6. Case presentation – DRESS to amoxicillin or DRESS-like viral exanthem (+ amoxicillin)

• Lymphadenopathy, no eosinophilia, atypical lymphocytes (low number), transaminases 2 times ULN
• Early-onset antibiotic-induced DRESS – time of onset 7-19 days, eosinophilia +++, other organ involvement ++, significant improvement 3-5 weeks with corticosteroids, no evidence of viral infection
• DRESS-like rashes during viral infections and antibiotic intake – time of onset 6-7 days, no eosinophilia, no other organ involvement, significant improvement 2-5 days with/without corticosteroids, positive evidence for viral infection

7. Take home messages

• FUMHD may have Kawasaki-like clinical presentation and mucosal involvement
• Methotrexate is effective treatment for FUMHD
• Sweet sy is associated with malignancy in 25% of children
• 30% of children with Sweet sy develop elastolysis that causes cardiovascular complications
• Viral exanthems treated with betalactams may have a DRESS-like clinical presentation
• The lack of eosinophilia and the faster resolution differentiate them from true early-onset DRESS

Speaker: Wollenberg Andreas, Professor of Dermatology and Allergy

Report written by Dr. Suzana Ožanić-Bulić

1. A treatment for each phenotype

• Which phenotypes of AD do exsist?
• Which aspects should influence our treatment decision?
• Which problems should we solve?
• The framework of AD guidelines
• Topical treatment of AD
• The indication for systemic treatment
• Current options for systemic treatment
• Choice of treatment regimen
• Outlook and practical issues

2. Phenotypes of AD

Intertriginous AD, palmoplantar hyperkeratotic AD, heavily colonized AD, nummular AD, hyperxerotic AD, eczema herpeticum prone AD, flexural AD, impetiginized AD, palmoplantar dyshidrosiform AD, UV-light triggered AD, head-and-neck AD, exudative AD, AD in ichthyosis, Atopic eyelid dermatitis

3. Patient characteristics and problem to solve are different for each patient

• Acute flare of disease with need for acute intervention
• Long term chronic disease with a need for immune modulation
• Severe atopic distortion with a need to prevent flares

4. Treatment of atopic dermatitis – therapeutic options in 2022

• Step care plan for children and adolescents with AD
• Baseline therapy with emollients, avoiding of allergens, educational programmes
• Mild AD – baseline measures + TCS acute or TCI reactive + wet wraps acute
• Moderate AD baseline measures + TCS and TCI proactive, NB-UVB and medium dose UVA1, psychosomatic counselling
• Severe AD – baseline measures + systemic treatment: Cyclosporin A – in license for >=16 ys, dupilumab in license for >=6 ys, Upadacitinib in license for >=12 ys, Azathioprine and Methotrexate not licensed in children with AD

5. Epidermal barrier improvement

• Reduction of enzymatic SC degradation – adjustment of skin pH including Filaggrin adjustment, supplementation of Protease inhibitors
• Hydration of SC – glycerol and urea, stimulation of Filaggrin production / Filaggrin supplementation
• Supplementation of lipid lamellae constituents – ceramide containing products
• Physical measurements – short time rinsing, showering and bathing with syndets, soak and seal technique, no extensive rubbing

6. Wet wrap therapy with emollients and TCS

• Steroid sparing treatment of choice for very dry, moderately inflamed skin
• Acute intervention treatment for severe AD if used with diluted TCS

7. Emollients plus

• Emollients – topical treatment with vehicle-type substances lacking active ingredients
• “Emollients plus” – several non-medicated products for topical treatment of AD contained putative active ingredients (e.g. flavonoids, saponins and riboflavins…), but are neither fulfilling the definition of nor needing a licence as a topical drug
• Emollients containing potentially allergenic plant proteins from peanut, oat or wheat should be avoided in children before the age of 2, whereas protein-free plant extracts are apparently safe to us

8. Proactive therapy of AD (Tac and TCS)

• Defined as long-term, low-dose intermittent application of anti-inflammatory therapy to the previously affected skin together with an ongoing emollient treatment of unaffected skin

9. Indication for systemic treatment - candidates for systemic treatment

• Patients who have high composite score such as SCORAD >50 (Scale definition)
• Patients who are clinically not responding to an appropriately conducted topical therapy (Functional definition)
• Patients who are unable to participate in normal daily life activities while following an adequate treatment regimen (Social definition)
• A signs-only score, such as EASI, is not adequate tool to discriminate between providing and declining systemic therapy to an individual patient

10. TH2 blockers – Dupi, Tralo, Lebri

• Dupilumab – mAb against the alpha chain of the IL-4 and IL-13 receptor (blocking both signals)
• Tralokinumab – monoclonal antibody against cytokine IL-13
• Lebrikizumab – monoclonal antibody against cytokine IL-13

11. Tyrosin kinases in Atopic dermatitis

• Baricitinib, Upadacitinib, Abrocitinib
• Very common and common adverse reactions in AD across JAK inhibitors
• Each JAK inhibitor has its own safety profile

12. Drug-drug interactions profiles differ between JAK inhibitors

• Relevance for CYP450 drug interactions – yes for abrocitinib and upadacitinib, no for baricitinib

13. EMA: JAKi Article-20 referral

• JAK inhibitors should be used only if no suitable treatment alternatives are available in patients: aged 65 years or above, at increased risk of MACE, those who smoke or have done so for a long time in the past and those at increased risk of cancer
• JAK inhibitors should be used with caution in patients with risk factors for blood clots in the lungs and veins (venous thromboembolism, VTE) other than those listed above
• Doses should be reduced in some patient groups who may be at risk of VTE, cancer or major CV problems
• No changes were recommended to the currently approved indications for all JAK inhibitors

14. What will be the future?

• We should define better which clinical problem should be addressed by a systemic drug
• All licensed substance classes have key advantages and disadvantages

Speaker: Graaf Marlies MD, PhD, Paediatric dermatologist

Report written by Dr. Suzana Ožanić-Bulić

1. Need for treatment

• Impaired skin barrier
• Immune dysfunction
• Impact on quality of life (QoL) of patient and parents
• Increased risk for developing atopic comorbidities

2. Dual-allergen exposure hypothesis

• Cutaneous exposure – skin, skin-draining lymph nodes, Th2 memory, allergy
• Oral exposure – GI tract, mesenteric lymph nodes, Th1 memory, Treg memory, tolerance
• Prevention studies on early food introduction to prevent FA (LEAP, EAT, PETIT)
• Early introduction – worldwide recommendation: introducing peanut <12 months of age without previous testing appears to be safe and effective

3. Systemic treatment options for infants (<2 years)

• Conventional immunosuppressants: cyclosporin A, methotrexate, azathioprine, mycophenolate mofetil – off-label, unfavourable safety profile, lack of studies, less experience in infants
• New immunomodulating therapies: dupilumab, tralokinumab, upadacitinib

4. Dupilumab for AD in children >6 months-6 years

• Safety – conjunctivitis (5%), transient increase in mean eosinophil count, less skin infections

5. Challenges in treating infants with severe AD

• Practical challenges – indication for starting and stopping, subcutaneous injections
• Knowledge gaps – longterm effects, impact on comorbidities, effectiveness of vaccination, impact on globet cells

6. Take to work messages

• Treat atopic dermatitis

1. It is not yet clear whether and how AD can be prevented
2. Well-controlled AD may play a roll in the prevention of food allergies
3. Important to properly treat AD and new systemic options will help in severe cases

• Atopic comorbidities

1. Young infants with AD are particularly at risk of developing food allergies
2. Early introduction of food allergens decreases the risk of developing food allergy
3. Timing is essential (“the earlier the better”)

Speaker: Silverman Robert MD, Dermatologist

Report written by Dr. Suzana Ožanić-Bulić

1. Nail disease in paediatric dermatology practice

• 2% of office visits to paediatric dermatology clinic
• Chief complaints:

1. Loss of nail plate
2. Growths
3. Fungus – blisters, pain
4. Discoloration

2. Nail changes

• Endonyx
• Isolated 4th toenail onychomycosis
• Elkonyxis
• Parakeratosis pustulosa
• Epidermolysis bullosa

3. Childhood tinea unguium

• Prevalence 0.2-2.6% in developed countries
• Increased incidence – Down syndrome, HIV, children from households with moccasin type T. rubrum
• Clinical variants similar to adults

4. Endonyx

• Absent inflammation, onycholysis or subungual hyperkeratosis
• Undisturbed nail plate architecture, normal thickness
• Eventually affects the entire thickness of the nail plate – milky white colour, usually fingernails
• Trichophyton soudonense, violaceum, tonsurans
• Uniform milky pits possibly a precursor – ddx: alopecia areata, psoriasis
• Appearance different than trachyonychia

5. Trachyonychia

• Rough nails, or vertical striated sandpaper nail
• Lusterless greyish appearance from excessive longitudinal ridging or striations
• Brittle with splitting at distal free edge
• Progressive involvement from 1 to 20 nails
• “20 nail dystrophy of childhood”

6. Treatment of paediatric onychomycosis

• Topical

1. Potentially more effective than in adults due to plate thickness and growth rate
2. Avoids perceived systemic toxicity of oral medication
3. Should have KOH, culture, PAS (+), or PCR
4. Always treat associated tinea

• Systemic

1. Required for nail matrix involvement

7. Onychomycosis limited to the 4th toenail

• Plate lusterless, discoloured
• Onychauxis - thickened
• Onychogryposis – curved and claw like
• Web spaces may not be affected
• Family history of tinea
• Common T. rubrum
• Treatment – terbinafine
• Differential diagnosis – subungual tumours, psoriasis, congenital curved nail of the 4th toe, pachyonychia congenita

8. Elkonyxis secondary to isotretinoin and acrylic nails

• Elkonyxis – “punch out” or very thin area of proximal nail plate that progresses distally
• Associations – trauma, retinoids, psoriasis, reactive arthritis, syphilis, peritonitis
• Comorbidities – median nail dystrophy, wahboard nail… Isotretinoin-associated elkonyxis resolves after medication discontinuation

9. Nails and isotretinoin

• 12.8% of patients on isotretinoin have nail changes (most commonly onychoschizia)
• Isotretinoin increases keratinization of nail matrix – increased growth rate of nail, thinning /loosening of nail plate
•  Lead to nail fragility and dystrophy – onychoschizia, onychorrhexis, onycholysis, pyogenic granulomas, elkonyxis

10. Herpetic whitlow

• Coalescent tapioca-like vesicles may become turbid
• Exposure or concurrent disease
• Tzanck
• Oral acyclovir, topical antibiotics, compresses, analgesic/anti-inflammatory agents

11. Blistering distal dactylitis

• Single large bulla becomes purulent
• Group A, beta hemolytic Strep
• Gram stain
• Incision, compresses, oral antibiotic
• Complications: onychomadesis, onycholysis, permanent dystrophy

12. Causes of distal dactylitis and nail dystrophy

• Multiple digits – atopic dermatitis, psoriasis, acrodermatitis enteropathica, mucocutaneous candidiasis, lupus erythematosus, tuberculosis and atypical mycob, chemotherapeutic agents
• One digit – paronychia, blistering dactylitis, herpetic withlow, lichen striatus, parakeratosis pustulosa

13. Parakeratosis pustulosa

• Distal digital dactylitis
• Sharp boundary at the DIP joint
• Absent cuticle and swelling of the proximal and lateral nail folds
• Hyperkeratosis at distal free edge
• Onychomadesis with eczema of the nail bed
• One digit, usually a finger
• Children <5 years of age
• X-ray normal, cultures inconsistent
• Initial pustule rare identified
• Nonpruritic, minimally painful
• Course – gradual improvement
• Treatment – high potency topical steroids in combination with topical clotrimazole solution

14. Epidermolysis bullosa

• Wide variation in nail manifestations

1. Bullae, onycholysis, subungual purpura, anonychia, pterygium, thickening, granulation tissue

• Treatment of nail bed granulation

1. Clobetasol solution w/wo clindamycin solution
2. Phenol 88% 1 min or NaOH 1 min – daily antiseptic baths
3. Imiquimod + clobetasol
4. Timolol 0.05%

Chair: Eulalia Baselga MD, Paediatric dermatologist

Excellent session for diagnosing patients with pending diagnoses to rare or unusual clinical presentation.

Report written by Dr. Suzana Ožanić-Bulić

Digitate keratoses (DK)

Presented by Efrat Bar-Ilan, MD

• Heterogenous group of inherited or acquired disorders of keratinization
• Characterized by digitate spiked keratotic papules that can be follicular and non-follicular in origin
• DK have multiple clinical presentations, resulting in confusion and debate in the literature
• Localized forms: palmoplantar DK, post-irradiation DK, facial DK
• Infantile anogenital digitate keratoses – idiopathic and benign entity, affects male infants more commonly than female, appears in the first months of life, the duration until complete clearness varied from 1 to 14 months
• Idiopathic and benign, self-regressing condition
• Increased awareness is important to avoid unnecessary investigations and treatments

Neonatal erythroderma, recurrent infections and enteropathy associated to CARD-14 mutation

Presented by March Alvaro, MD

• Neonatal erythroderma: ichthyosis, infections, metabolic disorders, drugs, immunodeficiencies, others
• Workup: baseline blood test (CBC, serum sodium, potassium, albumin, urea, creatinine, CRP, differential leukocyte count), abdominal ultrasonography, trichoscopy, skin biopsy
• Case report – CARD-14 associated papulosquamous eruption

1. Heterogenous group with clinical features between psoriasis and pityriasis rubra pilaris (PRP)
2. Activating mutations in CARD14 gene
3. CARD14 is known to activate NF-kB pathway that increases IL-17, IL-22, IL-23

• Conclusions

1. A case of neonatal erythroderma associated with severe systemic manifestations related to CARD14 mutation
2. Neonatal erythroderma would benefit from early genetic approach to diagnosis
3. CARD14 mutations may be also associated with immune dysregulation, polyendocrinopathy and enteropathy (IPEX-like)
4. Cutaneous manifestations in IPEX syndrome include eczema, psoriasis, and ichthyosiform eruptions
5. Authors reported the youngest infant treated with ustekinuab

Congenital and infancy-onset atrophoderma of Pasini and Pierini: a distinct variant of morphea with non-progressive behaviour over time

Weibel Lisa, Professor paediatric dermatologist

• Atrophoderma of Pasini and Pierini (APP) – rare form of dermal atrophy characterized by asymptomatic slightly depressed areas with a “cliff- drop edge” and trunk predilection
• Usually described in 20-40 year old adults (female)
• Only 5 cases of congenital/infantile-onset APP described in the literature
• Conclusion – APP considered an abortive form of morhpea, together with atrophoderma of Moulin it represents a spectrum of disease, rather than a distinct entity, APP lacks skin sclerosis and deep atrophy, clinical improvement has been reported with hydroxychloroquine, methotrexate, and Q-switched alexandrite laser
• Congenital or infantile APP shows a benign behaviour without significant progression over time
• Clinical monitoring is reasonable without the need for specific therapy