1 / 28

A clinical approach to Paediatric Interstitial Lung Disease (PILD)

A clinical approach to Paediatric Interstitial Lung Disease (PILD). Dr Robert Dinwiddie Respiratory Unit Great Ormond Street Hospital for Children London. Prevalence of PILD. 1/100000 children in UK and Ireland

nalanie
Download Presentation

A clinical approach to Paediatric Interstitial Lung Disease (PILD)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. A clinical approach to Paediatric Interstitial Lung Disease (PILD) Dr Robert Dinwiddie Respiratory Unit Great Ormond Street Hospital for Children London

  2. Prevalence of PILD 1/100000 children in UK and Ireland Ref: Dinwiddie et al Ped Pulmonol 2002; 34: 23-29

  3. Aetiology all types • Idiopathic • Non-idiopathic – specific diagnosis • Sharief et al 1996 42 cases 40% specific diagnosis • Clement et al 2004 177 cases 59% specific diagnosis

  4. Interstitial Lung Disease Aetiology • Infection - eg CMV EBV Adenovirus HIV • Other disease - eg sarcoidosis, pulmonary haemosiderosis, pulmonary alveolar proteinosis, histiocytosis, lymphangiomatosis • Genetic – eg surfactant protein deficiency • New associations – PIG NEHI • Aetiology unknown – idiopathic ILD (IILD) Desquamative interstitial pneumonitis (DIP) Fibrosing alveolitis (FA)

  5. Clinical presentation • Age at diagnosis 2 months to 18 years • 58 (31%) present under the age of 2 years

  6. Familial incidence • Parental consanguinity 7% • Siblings affected by similar disease 9.7% Message Familial incidence is around 10%

  7. Sarcoidosis

  8. Sarcoidosis

  9. Sarcoidosis • Treatment • Oral steroids - short courses during exacerbations or alternate days in severe cases • Rare in childhood • Prognosis in childhood good • May leave lasting effects – pulmonary fibrosis Baculard A et al ERJ 2001; 17: 628-635

  10. Pulmonary haemosiderosis • Recurrent intrapulmonary bleeds • With or without haemoptysis • Anaemia – moderate or profound • Pulmonary fibrosis long-term if not controlled • Oral steroids intermittent or long-term • 25-50% mortality in 5 years Pattishal et al Ped Pul 1996; 22: 195-203 Godfrey S Ped Pul 2004; 37: 476-484

  11. Extrinsic Allergic Alveolitis n=5 • 80% due to pigeon breeder’s lung • CXR showed reticulonodular shadowing • Oxygen saturations 85-93% • Positive anti-pigeon precipitins • Prednisolone 2mg/kg/day for 4 weeks – excellent response Grech V et al Ped Pul 2000; 30: 145-148

  12. Steroid Treatment iv Message • Pulsed methylprednisolone 10mg/kg/day for 3 days per month for 6 months • Increase to 20mg/kg/day if no initial response • 30mg/kg/day if necessary

  13. Steroid treatmentOral Prednisolone Message • 1-2mg/kg per day for up to 6 weeks • Reduce to lowest dose which controls the disease – alternate day therapy if possible

  14. Hydroxychloroquine Message • 6.6 mg/kg/day in 2 divided doses • Up to 10mg/kg/day has been used • Side effects – abdominal pain • Start with half dose for one week then increase • Ophthalmic review every 2 years

  15. Other treatments • Azathioprine • Cyclophosphamide • Ciclosporin • Methotrexate • Mycophenolate mofetil • Plasmapheresis • GM-CSF • Tacrolimus • Colchicine

  16. Outcome • 74% resolved • 11% chronic long-term disease • 15% mortality in UK-Irish series Dinwiddie et al Ped Pul 2002; 34: 23-29

  17. Aetiology • New understanding of “idiopathic” cases • Surfactant protein deficiencies • Cellular interstitial pneumonitis/pulmonary interstitial glycogenosis - PIG • Persistent tachypnoea of infancy Neuroendocrine cell hyperplasia of infancy “NEHI” Fan et al Ped Pulmonol 2004;38:369-378

  18. Surfactant protein mutation analysis Surfactant protein B SP-B Surfactant protein C SP-C GM-CSF receptor ABCA3 protein

  19. SURFACTANT PROTEIN B DEFICIENCY (SP-B)CONGENITAL PULMONARY ALVEOLARPROTEINOSIS (PAP) • Neonatal onset – RDS in term infants • Fatal – unless transplanted • Recessive mutations in SP-B gene – on chromosome 2 • Unstable mRNA • Diagnosis by absence of SP-B on BAL, lung biopsy or mutation analysis on blood • Mutation frequency 1 in 3000 Ref: Fan et al Ped Pulmonol 2004;38:369-378

  20. SP-B DEFICIENCY IN OLDER CHILDREN • 2 children • Chronic ILD and Respiratory failure • One survived for several years • Abnormality on exon 7 Ref: Dunbar et al Ped Res 2000;48:275-282

  21. SP-C DEFICIENCY • Seen in Adult and Paediatric ILD • Sporadic or Autosomal Dominant mutation • Variable expression in adults and children • Several familial cases reported • Biopsies described as UIP in adults and NSIP in children • Outcome – long term chronic ILD, sometimes fatal even in adult life Ref: Amin et al J Pediatr 2001;139:85-92

  22. SURFACTANT PROTEIN DEFICIENCYABCA3 • 16 term infants with severe neonatal RDS – surfactant deficiency • ABCA3 transporter protein deficiency • Ultrastructure on lung biopsy shows markedly abnormal lamellar bodies – (surfactant delivery systems) • Homozygous for ABCA3 surfactant protein genes • Recessive in familial cases • Outcome – usually fatal in first three months Shulenin et al NEJM 2004;350:1296-1303

  23. ABCA3 DEFICIENCY • One patient found with an ABCA3 mutation on one allele and an unknown mutation on the other allele still alive at 6 years with chronic lung disease • “All ABCA3 mutations are not fatal” Shulenin et al NEJM 2004;350:1296-1303

  24. Pulmonary Interstitial Glycogenosis (PIG) • 7 infants – tachypnoea, hypoxaemia • Diffuse infiltrates and hyperinflation on CXR • Increased glycogen in interstitial mesenchymal cells • 6 did well Refs: Canakis et al Am J Respir Crit Care Med 2002;165:1557-1565

  25. Persistent Tachypnoea of InfancyNeuroendocrine Cell Hyperplasia of Infancy “NEHI” • Presentation in first few months of life • Term infants • Tachypnoea, retractions, crackles and hypoxia • Interstitial shadowing and hyperinflation on CXR and CT scan • Biopsy minimal change only but increased numbers of bombesin containing neuroendocrine cells in distal airways

  26. NEHIPersistent tachypnoea of infancy • Outcome: Gradual improvement in early years of life • No deaths up to age 7 • Most came off oxygen by age 5 • Most had normal spirometry at age 5 Deterding et al Ped Pulmonol 2005;40:157-165

  27. Could some cases of chronic bronchiolitis be NEHI?

  28. Conclusions • PILD represents a wide spectrum of pathologies • Mutation analysis for surfactant proteins is leading to major advances in our understanding of the basic pathophysiology • Ultrastructural cell analysis is increasingly important in understanding the aetiology of individual cases • This knowledge can also be applied to the understanding of adult disease as well as in children • These advances should lead to increasingly specific and better treatments in the future

More Related